CA1312642C - Compact pizza preparation and delivery vehicle - Google Patents
Compact pizza preparation and delivery vehicleInfo
- Publication number
- CA1312642C CA1312642C CA000612450A CA612450A CA1312642C CA 1312642 C CA1312642 C CA 1312642C CA 000612450 A CA000612450 A CA 000612450A CA 612450 A CA612450 A CA 612450A CA 1312642 C CA1312642 C CA 1312642C
- Authority
- CA
- Canada
- Prior art keywords
- pizza
- vehicle
- oven
- driver
- compartment
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60P—VEHICLES ADAPTED FOR LOAD TRANSPORTATION OR TO TRANSPORT, TO CARRY, OR TO COMPRISE SPECIAL LOADS OR OBJECTS
- B60P3/00—Vehicles adapted to transport, to carry or to comprise special loads or objects
- B60P3/025—Vehicles adapted to transport, to carry or to comprise special loads or objects the object being a shop, cafeteria or display the object being a theatre or stage
- B60P3/0257—Vehicles adapted to transport, to carry or to comprise special loads or objects the object being a shop, cafeteria or display the object being a theatre or stage the object being a vending stall, restaurant or food kiosk
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24C—DOMESTIC STOVES OR RANGES ; DETAILS OF DOMESTIC STOVES OR RANGES, OF GENERAL APPLICATION
- F24C7/00—Stoves or ranges heated by electric energy
- F24C7/10—Stoves or ranges heated by electric energy with special adaptation for travelling, e.g. collapsible
Abstract
ABSTRACT
A compact pizza preparation and delivery vehicle is described. The vehicle is a self-propelled vehicle, such as a mini-pickup truck, having a driver's compartment with a driver's seat and a cargo compart-ment, preferably enclosed by a topper, behind the driver's compartment. The vehicle also includes a refrigerated case for storing pizza shells and pizza toppings in the driver's compartment which case is within access of the driver in the driver's seat. An assembly table is located on top of the refrigerated case for supporting an uncooked pizza shell while applying the pizza toppings. The vehicle further includes a pizza oven in the cargo compartment which oven is adapted and positioned so that, while sitting in the driver's seat, a driver can insert an unbaked assembled pizza into the oven and remove a baked pizza from the oven.
A compact pizza preparation and delivery vehicle is described. The vehicle is a self-propelled vehicle, such as a mini-pickup truck, having a driver's compartment with a driver's seat and a cargo compart-ment, preferably enclosed by a topper, behind the driver's compartment. The vehicle also includes a refrigerated case for storing pizza shells and pizza toppings in the driver's compartment which case is within access of the driver in the driver's seat. An assembly table is located on top of the refrigerated case for supporting an uncooked pizza shell while applying the pizza toppings. The vehicle further includes a pizza oven in the cargo compartment which oven is adapted and positioned so that, while sitting in the driver's seat, a driver can insert an unbaked assembled pizza into the oven and remove a baked pizza from the oven.
Description
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COMPACT PIZZA PREPARATION AND DELIVERY VEHICLE
BACKGROUND OF THE INVENTION
The present invention rslates to the field of foodser~ice vehicles. More particularly, the invention relates to the field of vehicles for preparing and delivering pizza.
Pi~za is a food product having immense popularity among consumers. Generally, consumers can obtain pizza in one o three ways: cooking their own, going -to a pizza restaurant, or having a pizza cooked and then delivered. Naturally, having a pizza deliv-ered is the most convenient of the three. However, certain drawbacks do exist with the typical delivered pizza. For example, depending on the time interval between when the pizza is cooked and delivered, the pizza can often arrive in a lukewarm and soggy state with att~ndant loss in flavor and texture. In particu-lar, the cheese and other toppings can undergo coagula-tion or other degradation upon cooling.
U.S. Patent No. 4,632,836, to Abbott et al.
and assigned to the sarne assignee as the present application, describes a pizza preparation and delivery system which is designed to deliver restaurant ~uality pizzas to the consumer's home or business.
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The system described in this patent includes vehicles which were not only adapted to deliver the pi~za, but also adapted to assemble and cook the pizza while in transit. Each vehicle in this system was e~lipped with a refrigerated case for storing pizza shells, a preparation station with p~zza toppin~s to create an assembled pizza, and a conveyor oven for cooking the assembled pizza.
The vehicles used in the preferred embodiment described in the '836 patent were modified FORD E-350 trucks with a van type body mounted thereon. Each vehicle included a driver's station and a kitchen area.
A cook's chair was put in the kitchen area and the vehicle was laid out so that, while seated in the cook's chair, the cook could reach the pizza assembly station, the oven, and the cutting table. A door was provided in the side of the van for the cook to exit the vehicle and deliver the pizza to the door of the customer. Preferably, the vehicle of the '836 patent would be manned by a driver and a cook so that the driver could drive and the cook could remain in the cook's chair to assemble, cook, box and cut pizzas.
Naturally, when the vehicle of the '836 was manned by a single worker, the driver would have to find a place to park the vehicle while he moved back to the kitchen area to prepare pizzas to be cooked. Also, the lone operator would have to park in order to remove the cooked pizza from the oven.
U.S. Patent No. 4,556,046, to Riffel et al.
and also assigned to the assignee of the present invention, described an improved ventila-tion system for a pizza preparation and delivery vehicle such as that described in the '836 patent.
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Although the pizza preparation and delivery system described ln the '836 an~ l046 patents enjoyed a measure of success, it was found that the purchase, operating, and maintenance costs of the relatively large vehicles used in the preferred embodiment ran higher than what was desirable.
One factor adding to these costs was the gasoline or propane fueled electric power generator which was included on the vehicles to supply the power needs of the refrigerated cases and ovens on the vehicles. Not only did this generator add to the purchase, operating, and maintenance costs of the vehicle, it also increased vehicle noise.
U.S. Patent No. 4,643,167, to Brewer and also assigned to the assignee of the present invention, described a further improvement to the ventilation system for an oven within a pizza preparation and delivery vehicle. By the time the application for the '167 patent was filed, the preferred vehicle had been downsized to a typical full-size van, such as the FORD
"Econoline". The kitchen layout was the same in the '167 patent as in the '836 and '046. That is, the new vehicle included a driver's station and a kitchen area with a cook's chair and a conveyor oven. The new vehicle also included a separate electrical generator.
Although using this smaller van resulted in a reduction of the purchase, operating, and maintenance costs, market pressures still motivated the search for a vehicle that would be less expensive to purchase, operate and maintain. In par'cicular, it is-critical to minimize the costs of this new mobile preparation and ~elivery system so that an operator can-offer pizza at the competitive prices, while achieving the same or higher profit levels as one could achieve in a conven-tional pizza restaurant or delivery business.
:~ 3 ~ 2 SU M RY OF THE IN_ENTION
Briefly stated, the present invention is a compact pizza preparation and delivery vehicle. The vehicle is a self-powered vehicle having a driver's compartment with a driver's seat and a cargo compart-ment behind the driver's compartment. The vehicle also includes a refrigerated case for storing pizza shells and pizza toppings in the driver's compartment which case is within access of the driver in the driver's seat. An assembly table is located on top of the refrigerated case for supporting an uncooked pizza shell while applying the pizza toppings. The vehicle further includes a pizza oven in the cargo compartment which oven is adaptad and positioned so that, while sitting in the driver's seat, a driver can insert an unbaked assembled pizza into the oven and remove a baked pizza from the oven.
In accordance with a preferred embodiment, the pizza preparation and delivery vehicle is made from a small pickup truck. In this embodiment, the cargo bed of the truck is covered with a topper. Also, the passenger seat is removed from the driver's compartment and the refrigerated case is put in its place. This preferred vehicle also includes a supplemental refrig-erated case in the cargo compartment for storing extra pizza shells. The preferred oven includes a turntable on which the pizza is rotated during baking. The turntable is preferably attached to the oven door which is hinged on one side. In this way, the turntable is brought out of the baking chamber when the door is opened and is thus more accessible to the driver. In addition, the pizza is prevented from becoming over-cooked. Also in the preferred embodiment, all of the electrical power needs are met by the generator for the ~, 3 ~
engine. That is, there is no need for a separate generator on the preferred vehicle.
The ve31icle of the present invention provides significant advantages. For one thing, the development of the preferred embodiment which fits within the typical mini-pickup truck has red~lced the overall purchase price of the vehicle. The cost of equipping the vehicle, as well as the noise output,are reduced when no separate electrical generator is used. The operating cost is also reduced. Comparisons have shown that the typical full-si~e van as described in the '167 patent to Brewer consumed about 4 gallons of gasoline per hour, while the vehicles made in accordance with the preferred embodiment consume about l gallon per hour.
It is noted that the term "pizza" as used in this specification and the appended claims is in-tended to have a relatively broad definition including tradi-tional styles of pizza with a single crust topped with sauce, cheese, meats and~or vegetables, as well as other styles such as stuffed pizza.
Also, the terms "pickup" and "pickup truck"
are intended to refer to a light truck having an enclosed driver's compartment and a cargo bed.
In addition, the phrase "in transit" is intended to refer to any time when the vehicle is away from the home base, such as en route to a delivery destination. Note that the vehicle need not be actual-ly moving when in transit.
The present invention, together with atten-dant objects and advantages, will be best understood with reference to the detailed description below read in conjunction with the accompanying drawings.
BRIEF DESCRIPTION OF THE D _WINGS
~ IGURE 1 is a driver's side view of the vehicle of the most preferred embodiment of the present invention.
FIGURE 2 is a top view of the embodiment shown in FIGURE 1.
FIGURE 3 is a rear view of the embodiment shown in FIGURE 1.
FIGURE 4 is top view showing the layout of the various elements of the embodiment shown in FIGURE
1.
FIGURE 5 is a perspective view of the interi-or of the driver's compartment.
FIGURE 6 is a view similar to FIGURE 5 showing the toppings drawer pulled toward the driver's seat.
FIGURE 7 is a perspective view of the top and front surfaces of the refrigerated case shown in FIGURE 5.
FIGURE 8 is a perspective view showing the top and rear surface of the refrigerated case shown in FIGURE 5.
FIGURE 9 is a cross-sec-tional view taken along line 9-9 of FIGURE 7.
FIGURE 10 is a perspective view with the passenger door and the rear door of the refrigerated case open.
FIGURE 11 i5 a perspective view of the interior of the driver's compartment showing the pizza preparation table.
FIGURE 12 is a front view of the window between the driver's ~ompartment and the cargo compart-~ent.
FIGURE 13 is a cross-sectional view along line 13-13 of FIGURE 12.
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FIGURE 1~ is a cross-sectlonal view along line 14-14 of FIGURE 12.
FIGURE 15 is a perspective view of -the supplemental refrigerated case in the cargo compartment of the vehicle shown in FIGURE 1.
FIGURE 16 is a side view of the supplemental refrigerated case shown in FIGURE 15.
FIGURE 17 is a top view of the supplemental refrigerated case shown in FIGURE 15.
FIGURE 18 is a front view of the supplemental refrigerated case shown in FIGURE 15.
FIGURE 19 is a cross-sectional view taken along lines 19-19 of FIGURE 18.
FIGURE 20 is an exploded view showing how the support frame and dividing wall fit in the cargo bed of the vehicle shown in FIGURE 1.
FIGURE 21 is an exploded view showing the topper and the support frame with the oven and supple-mental refrigerated case mounted thereon.
FIGURE 22 is a schematic wiring diagram of the safety system of the vehicle shown in FIGURE 1.
FIGURE 23 is a perspective view of the front and side of the double oven used in the vehicle shown in FIGURE 1.
FIGURE 24 is a perspective view of the rear and side of the oven shown in FIGURE 23.
FIGURE 25 is a cross-sectional view taken along line 25-25 of FIGURE 23.
FIGURE 26 is a view similar to FIGURE 25 which shows the oven door open.
FIGURE 27 is view similar to FIGURE 25 showing the flow of air through the oven.
FIGURE 28 is an exploded view of the oven door, the turn-table and turntable motor for the oven of FIGURE 23.
~3~D.~2 EIGURE 29 is a cross-sectional view along lines 29-29 o~ Figure 28 of the -~urntable, oven door, and plenums FIGURE 30 is an exploded view showing tlle flow of air through the blower, ducts, ~nd slots of the oven shown in FIGURE 23.
FIGURE 31 is a cross-sectional view taken along line 31-31 of FIGURE 23.
FIGURE 32 is a partial cross-sectional view showing the oven closing plate.
FIGURE 33 is a cross-sectional view showing the fan motor, shaft, and blower wheel.
~ FIGURE 34 is a cross-sectional view taken along line 34-34 of F~GURE 33.
_ETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
Referring to the drawings, FIGURE 1 is a view from-the driver's side of the pizza preparation and delivery vehicle 11 of the most preferred embodiment of the present invention. The vehicle 11 is a pickup truck which has been modified in the ways to be de-scribed below. The pickup truck shown is a FORD Ranger model "Re~ular Cab 2-wheel drive". This particular truck is generally considered a "mini-pickup" as opposed to a midsize or fullsize. This pickup truck has a payload capacity of approximately 1612 pounds and a Gross Vehicle Weight Restriction (GVWR) of 4260 pounds. The cargo bed of this truck is approximately 77" long and 54" wide. The engine is a 2.3 liter 4 cylinder.
While this particular pickup truck is most preferred, other types of self-propelled vehicles may also be used. Preferably, the vehicle o.~ the present invention will be based on a pickup truck. More preferably, the vehicle will be based on a mini-pickup truck such as the Ford Ranger described herein.
Alternatively, the vehicle can be a mid-size or _9_ :~ 3 ~
full-si2e pickup truc}c. Also, the vehicle could be a mini-van. An important consideration in the selection of the vehicle is the cost of purchasing, equlpping, operating, and maintaining the vehicle.
Another important consideration in selecting the vehicle to be modified according to the present invention is the payload capacity and size of the cargo compartment. For efficiency sake, the vehicle of the invention is preferably designed so as to use as much of the space and payload capacity as is practicable.
For example, as will be discussed below, the preferred vehicle has a dual pizza oven, i.e. two baking cham-bers. Also, the sizes and weights of the primary and supplemental refrigerated cases are selected so as to be as large as possible within the vehicle. Selecting a vehicle with more space and a larger payload capacity will allow for the use of larger equipment, such as a tripla oven or larger refrigerated cases. At present, the depicted Ford Ranger pickup truck is most preferred because the preferred equipment can be fit into it.
This particular truck's relatively small size makes it economical to purchase, operate and maintain The purchase price of this mini-pickup is considerably lower than that of -the larger vehicles described in the three patents mentioned above. The purchase price is a particularly important factor to the feasibility of establishing a 1eet of such pizza preparation and delivery vehicles.
Also, because of its small size, the rmini-pickup is more economical to run.: The E.P.A.
oted gas mileage figures for this truck are 22 m.p.g.
in the city and 27 m.p.g. on the highway. This c~n be compared to the E.P.A. quoted figures of 15 m.p.g. in the city and 17 m.p.g. on the highway for the full-size van used in khe '167 patent. This better gas mileage _g_ :~ 3 ~
is important because it lowers the average cost per pizza of operating the vehicle.
The operating cost of the vehicle o~ -the present invention is also reduced by virtue of the ~act that it is operated by a single person sitting in a single location. The driver sittiny in the driver's seat is able to prepare and bake pizzas.
As will be discussed more fully in connection with FIGURES 20 and 21 below, the cost of equipping a pickup truck according to the present invention is typically lower than that of e~uipping another vehicle such as a van.
The cost of equipping, operating and main-taining the preferred vehicle is reduced by virtue of the fact that there is no separate generator to provide electrical power for the equipment on the vehicle. The vehicles described in the three patents noted above required a separate gas operated electrical generator.
Naturally, this added costs and noisiness of the vehicle.
In the preferred vehicle the oven is heated by gas. The electrical power needed for the oven, the refrigerated cases, the additional lights, as well as the ventilation, control, safety, and communications systems is supplied by the alternator of the pickup truck. In order to insure enough current, it is most preferred to replace the original alternator that comes with the FOR~ Ranger with a heavy duty alternator such as that sold by LESTEK MFG. under the designation # 9135 P.F. This alternator is rated at 135 amps.
Another advantage of using the compact mini-pickup truck in the preferred embodiment is that it is typically easier to maneuver, e.g. back up and park, a mini-pickup than it is a full-size van. This is important because the driver will likely have to .
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park in confined spaces when makin~ deliveries.
Experience wi-th the vehicles of the preferred embodi-ment has shown that these vehicles have had fewer accidents per mile than the full-size vans shown in the '167 Brewer patent.
Referring to FIGURES 1-3, the vehicle 11 includes a driver's compartment or cah 13. The vehicle also includes a cargo bed 15 with a tailgate 33. A
topper 17 is mounted over the cargo bed 15 to create a cargo compartment. With the exceptions noted below, the topper 17 is an otherwise conventional topper for pickup trucks. The particular topper shown was ob-tained from GUIDON CO. under the designation "RENE-GADE II".
The topper 17 includes four doors hinged at the top and securely latched at the bottom. Door 18 is on the driver's side of the topper and provides access to the oven. Door 22 is on the passenger side of the topper and also provides access to the oven. Door 31 is at the rear of the topper and provides access to the supplemental refrigerated case.
The topper 17 also includes four ventilation ports. Port 19 is a conventional wind driven port such as that found on recreational vehicles and operates to pull air from the cargo compartment when the vehicle is in forward motion. Port 27 is driven by an electric fan. Port 21 covers the flu of the pizza oven. Port 23 allows air to be ~ented from the rear compartment.
A positive air pressure is created in the rear compart-ment by the fan 142 located in the cargo bed (See FIGURE 20).
Fuel tanks 35 are located underneath and near the rear of the cargo bed 15.
FIGURE 4 is a view intended to show the most preferred lay-out of the equipment in the vehicle 11.
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The cab of the pickup truck .is desigllate~ as the driver's compartment 13. Within the ~river's compart-ment is the driver's seat 41. Also within the driver's compartment is a refrigerated case 43. The cargo compartment of the vehicle is separated from the driver's compartment by window 51 (see FIGURES 12-14).
A dividing wall 49 serves to separate -the cargo com-partment into an oven compartment 44 and a refrigerated case compartment 46. Curb feelers 24 are preferably included.
A pizza oven 45 is located in the oven compartment 4~ and positioned so that the driver can insert an unbaked pizza and remove a baked piz~a from the oven while sitting in the driver's seat. Further details of the oven are given below in connection with FIGURES 23-34.
A supplemental battery 20 is loca-ted in the cargo compartment. This battery is recharged by the alternator 5 for the truck engine. It has been found preferable to use a supplemental battery to power the equipment in the vehicle rather than using the original battery a fr~the engine. One reason for this i5 SO that the starting of the vehicle is kept separate from the operation of the equipment on board. Most preferably, the supplemental battery is a 12 volt marine type, series 27 Exide Battery #5231.
A supplemental refrigerated case 47 is located at the rear of the cargo compartment and is thus accessible through the rear door 31 of the topper 17. Compressors 53 and 54 are also located at the rear of the car~o compartment. Preferably, the upper compressor 53 cools the supplemental refrigerated case 47, while the lower compressor 54 cools the refrigerat-ed case in the driver's compartment 43 by means of coolant lines passing therebetween.
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FIGU~E 5 is a perspective view looking into the driver's compartment from the driver's door. As can be seen, the passenger's seat has been removed from the pickup truck and replaced by a refrigerated case 43 (see FIGURES 6-11). The top of the refrigerated case 43 is adapted to serve as a preparation table 65 on which the uncooked pizza shell is placed while the topping are put on. The table 65 also serves as the surface on which the baked pizza is cut and boxed.
Placing the refrigerated case 43 and the preparation table 65 in what would otherwise be the passenger's side of the cab is advantageous because it allows the driv~er to assemble, cut and box a pizza while sitting in the driver's seat.
Preferably, the table 65 is made so as -to extend completely to the dash to avoid problems with spilling. Also, the three edges away from the driver are turned up to avoid spilling. The edge 62 nearest to the driver is preferably formed into a marine corner to avoid spilling and also to provide safety and comfort for the driver. A condiment cup rack 69 is included on top of the table 65 for holding cups 60 used for portioning the pizza toppings, e.g. cheese, beef, onions, etc. The rack is also adapted to hold a spatula 64 and a rocker knife 68 used for cutting the cooking pizzas. As seen in FIGURE 9, the rack includes a spring-loaded catch 70 to securely hold the knife in place.
A door handle extension 67 has been attached to the passenger door handle so that the driver can unlock and open the passenger door in the event of an emergency to exit through the passenger door.
An electrical systems control box 73 is installed on the ceiling of the cab. This box includes switches to control the lights and the other electrical J
systems of the ve}licle, namely -the interior lights, rear spot light, safety system, oven, refrigerated cases. A volt meter monitoring for the supplemental battery system is also included within control box 73. In this way, the driver can monitor the status of the s~pplemental battery when the engine is turned off, and thus know when the restart the engine to recharge the supplemental battery. A working light 74 is included on the bottom of the control box 73.
An oven control box 76 is mounted on the dash. This oven control box includes the switches to operate the pizza oven of the vehicle. Because the preferred pizza oven actually includes two stacked baking units, the pre~erred oven controller include~
identical controls for the top and the bottom baking units.
The preferred oven controller means has several functions. The primary function is to serve as an oven timer. That is, the controller means sets the proper baking cycle for the oven. This is preferably accomplished by including an electronic timer which is set at the proper time when the pizza is inserted in the oven and then counts down to zero while the pizza is being baked. When the timer reaches zero, a signal is generated. Preferably, this signal will generate an audible signal to the driver as well as a lighted indicator that the baking cycle is completed.
As described below (see FIGURES 23, 26-28), the oven doors are equipped with actuators which can automatically open the oven doors and bring the baked pizza out of the oven. Thus, in this embodiment, at the conclusion of the preset baking cycle, the oven controller means will also generate a signal to the door actuator means so that the doors are opened and the pizza is removed.
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This feature of ~u-tomatically ~emoving the piæza from the oven at -the conclusion of the baking cycle is highly advantageous in that it prevents the pizza from becoming overcooked if the driver is unable to stop the vehicle, or if the driver is away from -the vehicle making another delivery.
Another feature of the preferred oven con-troller means is that it is also adapted to conserve electrical energy. The preferred oven is an impinge-ment oven wherein heated air is impelled by high~speed fans or blowers toward the top and bottom of the pizza.
The oven controller means is programmed to step up the speed of the fans to the operating speeds a~ he beginning of the baking cycle. At the end of -the baking cycle, the fan speed is reset to an energy saving idle speed. In addition, the oven uses a powered turntable to rotate the pizza during cooking.
For the same reasons, the oven controller means will preferably switch the turntable on and off to coincide with the baking cycle.
Most preferably, the oven controller means is configured so that the driver simply pushes a "door openi' button to begin the baking process. In response to pushing the initial button, the door actuator opens the door of oven. The driver then places the pizza, preferably in a pan, onto the turntable of the oven. A
second button, "start bake" button is pushed. In response, the oven controller generates the signal to close the door, to step up the speed of the fans, to switch the turntable on, and to begin timing:the baking cycle. Most preferably, the oven controller provides a visual readout, such as by LED, of the time remaining for each baking cycle. At the conclusion of the baking cycle, the controller means generates an audible signal, such as a beep for 30 seconds, and also . .... , . . ~
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generates the si~nal to the door actuator to open the oven door.
When the oven door opens, the driver can bring the pizza in the pan into the driver's compart-ment by use of the pan grippers 66. The hot pizza is removed from the pan and placed on the table 65 where it will be cut and boxed. The hot and dirty pan is then passed back throu~h the window and dropped in the pan receiving areas 48 (see FIGURE 4).
The most preferred driver's compartment includes a few other special features. Mounted on -the visor ,8 is a order holder 77 which can be used to retain the customer pizza orders until completed.
Also, a special safety button 79 is included. As explained in connection with FIGURE 22, this button acts as an emergency kill switch to shut off the flow of gas from the fuel tanks. According to the preferred safety system, none of the solenoid operated valves on the fuel tanks or ovens will open unless the switch is pulled out. Naturally, this switch should be well la~eled and lighted.
FIGURES 6-10 illustrate the most preferred embodiment of the refrigerated case 43 in the driver's compartment. An important feature of th.is most pre-ferred case 43 is that the pizza toppings are held in a drawer 61. The drawer 61 is adapted to support insert pans in order to hold and segregate different pizza toppings. Typically, the largest section is reserved to hold cheese. This drawer 61 slides in and out of the case 43. As shown in FIGURE 6, when the drawer is pulled out, the toppings are brought closer to the driver for his convenience. As seen in FIGURE 5, when the drawer is pushed back in, the space is freed up for the driver's safety and comfort and to allow ~ccess to the transmission shifter.
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-17- ~3~2~3~2 The pr~ferred refrigerated case 43 also incl~ldes a door 63 for gaining access to the uncoolted pizza shells stored therein. ~pproximately 7 of PIZZA
HUT's "Pan Pizza ," i.e. conventional, large pizza shells or about 13 of tlle PIZZA HUT's "Hand Tossed "
pizza shells can be stored in the refrigera-ted case 43.
In addition, bags of extra toppings and 3 six-packs of canned PEPSI ~ can also be fit into the case 43. The preferred case 43 also includes a rear access door 71 which can be opened when the passenger door is opened.
This rear door 71 provides convenient access to the case when filling it with uncooked pizza shells. The rear door 71 also provides access to the cooling plates 75 which are fed by cooling lines 8~. The cooling plates 75 for this case 43 are conventional plates such as those sold by NORCOLD under the designation "~0 Watt.~ The compressor is adjusted to maintain a temperature of about 38-40F within the case 43. A fan 72 is included within the case 43 for circulating the cooled air. Also, a door'activated light is preferably included to illuminate the inside of the case 43.
FIGUR~ 11 is another perspective view of the driver's compartment from a slightly different angle.
In this view, the means for receiving pizza delivery orders 111 is shown. Basically, this unit 111 COllSiStS
of a radio receiver and transmitter, a data box, a processor, and a printer. The radio is adapted to receive signals which are converted to digital data by the data box. The processor converts the digital data to the appropriate signals, to drive the printer. The printer prints the delivery orders on slips of paper for the driver to read. Preferably, the'delivery order will include the specifications ~or the ordered pizza as well as the delivery destination with directions telling the driver how to get there. Preferably, the ~ . ., ,i:
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unit lll also includes data entry means for the driver to revise any information on the delivery order. Also, the unit 111 preferably includes means for two-way voice communication between the driver and the home station. The preferred voice communication means is a cellular phone 12 (See Figure l).
The preferred pizza preparation and delivery system to be used with the vehicles of the present invention is similar to that described in the three patents listed above, namely U.S.
Patent Nos. 4,632,836; 4,556,046; and 4,643,167. This preferred system includes a plurality of vehicles which work from a common home base. The home base is adapted to receive piz~a d~livery orders from customers. The home base then dispatches the orders to the appropriate vehicle. Preferably, the particular vehicle to receive the order is selected on the basis of its current location as well as the current inventory on the vehicle. This selection can either be made manually, or can also be made by means of a microcomputer with appropriate software and data input.
Preferably, the order is sent to the truck over the radio and converted directly into a printed delivery order ticket as described above. Alternatively, the orders can be sent over the voice communication system.
As taught in the above-numbered patents a separate commissary can be established to supply the pizza shells and toppings for the vehicles. Through exparience it has been ~ound preferable to make us of existing pizza restaurants as commissaries to supply these items. That is, it is now pre~arable to make arrangements at either one or more existing pizza restaurants to provide the shells and ingredients for each vehicle. On a busy night, each vehicle will preferably begin its rounds with about 40 pizza shells, ;; r;,, : . ~
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40 pounds of cheese, about 50 pounds of combined toppin~s, and abou-t 42 cans of soft drinks. As taught in the '836 patent, the pizza shells are preferably covered with pizza sauce and a first layer of cheese before being loaded into the vehicle. This preparation has been found to improve the dough volume of the pizza shells during transit.
This view in FIGURE 11 also shows a shelf 115 which hangs from the ceiling on the passengers side.
This shelf is adapted to hold a boxed pizza while driving to the delivery destination.
FIGURES 12 and 13 illustrate the most pre-ferred construction of the window 51 used to separate the driverls compartment from the cargo compartment.
The window 51 is divided in-to three sections each of which are made of 0.20" thick clear polycarbonate. The section 121 immediately behind the driver's seat is adapted to slide within the tracks 127 and 128. This allows the driver to gain access to the cargo compart-ment immediately behind his seat. The center section 123 of the window 51 includes a hinge 133 at the top and a latch 131 at the bottom. In this way, the center section 123 can be s~mng upward to engage the catch 135 (see FIGURE 11). As a result, the center section, the section through which the unbaked and baked pizzas will pass can be securely moved out of the way. The end section 125 is stationary.
FIGURE~ 15-19 illustrate the supplemental refrigerated case 47 which is preferably included with the pizza preparation and ,delivery-vehicle in order to allow the vehicle to carry a larger supply of pizza shells and toppings than would fit in the refrigerated case in the driver's compartment. Typically, the supplemental refrigerated case 47 can be stoc]~ed with about 30 conventional or 60 hand-tossed (or . ..
~ 3 ~
coMbinations thcreof ) pizza shells, about 30 po~ ds of pi~za cheese, and about ~ s:ix-paclcs of PEPSI As shown in FIGURES 4 and 21, the preEerred location for this supplemental refrigerated case 47 is at the rear o ~he cargo compartment. Access to the door 151 of the case is had through the rear door 31 of the topper 17. The case 47 is cooled by cooling plates 155 which are supplied with coolant by the upper compressor 53.
A shelf 153 is included in the case 47 to hold extra toppings. A door-activated light bulb 159 is prefera-bly included. A drain tube 157 is also preferably included to allow condensation to drain from the case.
FIGURE 20 is a perspective view of the frame member 201 on which the various pieces of equipment in the cargo compartment are preferably mounted. As can be seen in FIGURE 20, the frame member 201 is sized so as to fit within the cargo bed 15 of the pickup truck.
Most preferably, the equipment will be mounted on the frame member 201 before the frame member i5 inserte~
and attached within the cargo bed 15. The rame member 201 includes support bars 199 on which the oven is mounted. The dividing wall 49 is adapted to fit within slots in the frame member 201. The dividing wall i5 most preferably a 0.100" sandwich laminate of aluminum sheet on a 1.0~' core of polyurethane foam.
FIGURE 21 shows the frame member 201 with the equipment mounted thereon and ready to be inserted and attached within the cargo bed 15. As can be seen, the supplemental refrigerated case 47 and the compressors are located behind the dividing wall49 . The oven 45 is mounted in front of the wall 49. Preferably, the various pieces of equipment are mounted on the frame member 201 before it is inserted into the cargo bed of the truck.
r ~
~3~2~
For sanita-tion purposes, a hand pump-operated sink 203 i~ included alon~ with ~n insulated tank 205 or supplying hot water to -tlle sink 203. The sink 203 drains into a waste water tallk under the oven (not shown). The waste water tank includes an outlet and valve for draining the waste water at the appropriate location. A bot-tle of hand soap 204 is preferably mounted on the oven side of -the dividing wall 49.
Paper towels are held on a dispenser 208 at-tached to the control panel of the oven. As another sanitary measure, disposable plastic gloves can be used by the drivers when handling the pizzas and ingredients.
The frame member 201 also preferably includes a bracket 209 for storing medium and large flat pizza boxes 211.
EIGURE 22 is a schematic wiring diagram illustrating the preferred safety system for the vehicle.
Starting at the bottom right side of the diagram, the system includes a solenoid operated valve at the outlet of the fuel tank. This valve is mechani-cally closed unless the solenoid is activated with 12 volts. Solenoid operated valves are also included for each of the two oven units. Like the valve at the fuel tank outlet, these valves are mechanically closed and opened only if the solenoids,,a~re ac,,tivated,w,ith 12 volts. As a consequence, the gas is shut off from the outlet of the fuel tank, and the gas to the ovens is shut off, if the power circuit is opened by one of the following safety devices.
-22~
Movin~ now to the top of -tlle diagram, -the safety system includes a gas control unit in the console of the cab which is connected to a gas sensor located 2" above the floor of the cargo bed on the oven support leg nearest the burners for the oven. The gas control normally supplies 12 volts to the rest of the system when no gas is detected. If gas is detected, the control supplies 0 volts to the control relay and the valves at the outlet of the fuel tank and ovens are automatically, mechanically shut. Preferably, the gas sensor, control, and solenoid are purchased as a set from the Newtec Co.
The system also includes an inertia switch under the hood of the pickup. This switch is designed to shut off the power in the event of sudden impact, i.e. a collision, or inverted position, i.e. rollover.
As stated above, the valves at the fuel tank and ovens automatically close when the power is shut off anywhere in the system.
An emergency kill switch is provided for the driver on the dash of the vehicle. Preferably, this switch is clearly labeled, lighted, and must be pulled out before the oven can be operated.
A high temperature sensor is included on the underside of the topper in the oven compartment.
Preferably, this sensor is set to open the circuit if the temperature inside the topper reaches about 250F.
High temperature switches are also included wi-thin each of the -two oven chambers. Preferably, these switches are set to open the main power circuit if the temperature in either oven chamber exceeds about ., :
. ~, -2~ 2 ~f~
6~5F, i.e. a preset temperature about 100F above the normal operating temperature oE the over..
An exhaust fan is included in the toppe~ to exhaust the oven compartment through ventilation por-t 21 (see FIGURE 2). The circuit is designed so that the fan always runs when the oven is on. If this fan loses power, the relay also closes the solenoids at the fuel tank and ovens.
Indicator lights are provided for the driver to see the status of the safety system A red light is adapted to be turned on whenever the gas has been shut off. An amber light is adapted to be turned on whenev-er the gas is flowing.
FIGURES 23-34 illustrate the pizza oven 45 used in the most preferred embodiment of the present invention. The inventions embodied in this oven are described and claimed in a co-pending U.S. Patent Application Serial No. 612,290 (attorney Docket No.
106-063) which is and assigned to the same assignee as the present application.
E'IGURE 23 is a perspective view showing the front and top of the preferred oven 45. As can be seen, the oven 45 is a dual oven, i.e. includes a top and a bottom oven unit. The dual oven 45 is mounted to the frame member supports 199 with shock mounts to decrease the road vibration transmitted to the oven.
As shown, the top and bottom oven unit each have a door 231 and 233 respectively. These doors are preferably operated by actuators 232 and 234 respec-'ively. Mounted on each of the doors is a motor housing 241 and 243.
In the event of door actuakor or oven con-troller failure, the actuator pivot pin 251 can be removed from its location on the actuator and the door then opened. The same pin 251 can then be inserted . .
,, S ~ r~
-2~-:~3~2 ~ ~2 illtO the hole ~50 above the oven door to hold the door closed durin~ the ba~ing cycle.
On the left side of the oven is a control panel 236. Preferably, the controls are mounted to the side of the oven with rubber grommets and so that a yap is leît b~tween the two. In this way, the controls are subjected to less vibration and heat from the oven.
The controls include a toggle switches 237 for each of the blower motors and toggle switches 238 for each of the burners. A temperature control dial 235 and a "burner on" indicator light 23g are also included for each oven unit.
Gas line 242 brings gas from the fuel tank and through a filter 254. The line is then split into ].ines Z45 which pass through the 2 solenoid operated valves 252 on each line. As mentioned above, the valves 252 are designed to be mechanically closed when not receiving a 12 volt signal.
A tie-down loop 240 is attached to the side of the oven and a cable 24A is attached to the frame of the pickup to thus restrain the oven from moving forward in the event of a crash.
FIGURE 2~ is a perspective view showing the back of the preferred oven 45. As can be seen, the blower motors 255 project from the rear of the oven.
Another tie-down loop 257 is included on the rear of the oven.
FIGURE 25 is a cross-sectional view from the top of the oven through line 25-25 of FIGURE 23.
FIGURE 26 is a similar view but with the door 231 SWUllg open. Referring also to FIGURES 27 and 28, it is seen that a turntable 261 is attached to the door 231 so that the turntable ls brought out o~ the oven chamber when the door 231 is opened. This turntable 261 is -2~-~ ~2~
adapted to support the piz~a 200 in the pan 202 ~uring baking.
The turntable is adaRted to rotate the pizza 200 during the baking cycle. This is preferably accomplished by means of an outer ring 262 which includes gear teeth to engage the driven gear 263. The gear 263 is driven by the motor 271. The underside of the outer ring 262 is adapted to roll on top o the wheels 281, 283 and 285. These wheels are preferably made of "~ulon" ~a trade-mark) so as to withstand the intense heat generated within the oven chamber. The motor is preferably set at a speed so as to rotate the turntable twice a minute.
FIGURES 27 and 29-31 illustrate the flow of heated air through the oven 45. As shown in EIGURE 27, air is heated by the gas burner 247. That heated air is drawn through the inlet cone 275 into the volute 277 by the blower wheel 273. Preferably, the blower wheel is rotated at a speed of between about 2200 and about 2300 rpm so as to create a high velocity.
The air is impelled from the volute 277 into a air splitting plenum 301. Within the plenum 301 is a tongue 303 which divides the air between the top and bottom plenums 305 and 315 respectively. The air that passes into the top plenum 305 is then divided by a vane 307. The air passes out of the top plenum 305 through two slots 293 and 295 which are separated by a tongue 309. After passing through the slots 293 and 295, the air impinges on the top surface of the pizza 200. In similar fashion,,the air th,at,passes into,the, bottom plenum 315 is divided by a vane 317. The air passes out of the bottom plenum 315 through two slots 297 and 299 which are separated by a tongue 319.
FIGURE 32 illustrates an energy saving and air balancing feature of the preferred oven 45. In , .~_. , . ~
, -2.6-~3~2~
this figure, the top door is open and the -turn-table is out of the oven chamber. In thls condition, a hinged plate 321 is allowed to swing down and block the opening to the oven chamber. As shown with the lower door 233, when the door is closed anc] the turntable pushed back into the oven chamber. -the hinged plate 323 is pushed up and out of the way. In this way, the oven chamber is kept closed and the amount o~ secondary air to the burner ~lame is kept fairly constant.
FIGURE 33 is a cross-sectional view illus-trating the configuration of the blower and motor shafts. In particular, the motor 255 is separated from the back of the oven by bolts 339. The motor shaft 331 is attached to the blower wheel hub 335. The shaft passes through a bushing 337. Attached to the extension shaft is a heat slinger 341 shown also in FIGURE 34. The function of the heat slinger is to dissipate heat off of the shaft to avoid passing heat to the motor 255.
Certainly, one of the challenges of providing a compact pizza preparation and delivery vehicle was that of producing a suitable pizza oven. In particu-lar, it was necessary to provide an oven which took up little space, required little electric power, and provided for optimum baking of the pizzas. The oven described herein is such an oven. The peak operating power demand, i.e. when both ovens are ba~ing, is about 20 amps at 12 volts. The fact that the pizza is brought out of the oven when the oven door is opened is fortunate for two reasons. First, i-t allows for e~sier access for the driver. That is, the driver can simply place the pizza pan on the turntable rather than trying to slide the pan through an oven door. Second, because the pizza is brought out of the oven when the door opens automatically, the pizza cannot be overbaked -27- ~3~ ?, because the driver ls busy in traffic or away from the vehicle making a delivery at the completion of the baking cycle.
It was also a challenge to provide a small oven which could provide uniformly baked pizzas as well as consistency between piz~as. It was somewhat sur-prising that the slots such as used in the preferred embodiment would provide uniformly cooked pizzas. In particular, because the slots pass over the center of a rotating pizza, it was thought that the center of the pizza would be overbaked. That is, it was thought that since the center section of the pizza spends more time under the slots, it would be overbaked in the time it would take to bake the outer sections of the pizza. In experimentation, it was *ound that pizzas baked in an oven similar to that depicted--except that the vanes 307 and 317 were in the center of the top plenum and bottom plenums did show overbrowning on the top layer of cheese. However, it was found that plzzas cooked in this same oven were baked uniformly on the bottom.
It is currently believed that this uniformity of bottom baking is related to the fact that the center section of the pizza is the hardest section to get fully baked. This is because the center of the pizza is surrounded by the rest of the pizza and is further from the side of the heat conducting pizza pan. As a result, the center is the last section to be fully heated. This is why the center sections of pizzas cooked in conventional ovens are typically checked for doneness. Apparently, the o~en of the:preferred -- -embodiment accomplishes a desirable balance between the center section spending more time over-the slots and the center section being more difficult to bake.
Whatever the reasons, it is fortunate that the oven -2~~
~ 3 ~ 2 ~ ~ ~
provided for uniform bottom cookiny in such a small space.
In connection with the overbrowning noted with respect to the top layer of cheese, it was found that this could be corrected throu~h the use of a vane such as the one shown at 307. As can be seen, the leading portion 306 of the vane 307 splits the air column a~ it enters the top plenum 305. The vane then makes a 45 turn to the second portion of the vane 308, followed by another ~5 turn to the third portion of the vane 310. This third portion of the vane 310 is located on the volute side of the center of the slot.
In particular, this portion 310 is preerably l.0" of of center. This bending of the air column in frvnt of the vane, coupled with the fact that the air behind the third portion 310 of the vane does not bend as dramati-cally, produces an area 312 of xeduced air pressure, i.e. a "shadow", behind the third portion 310. This reduced air pressure has been found to compensate for the greater amount of time the center section of the top cheese layer spends under column of heated air. As a result, pizzas cooked in the depicted oven, i.e. with the vane 307, have not shown overbrowning at the center section.
~ s seen in FIGURE 30, the bottom plenum also includes a vane 317. In this case, the vane 317 is used to create an area 322 of increased air pressure under the center of the pizza pan. In pàrticular, the third portion 320 of the vane 317 has been located at the center of the slot. As a result, higher air pressure is created in the area 322. This has been found to be preferable so that even more heat can be directed toward the bottom center of the pizza during cooking.
~ $ ~ 2 It should be noted that although much of the discussion has involved the modification of a mini-pickup truck, other types of vehicles can also be used. For example, mini-vans can also be used in the present invention. Certainly, a prominent factor in the choice of the vehicle is the economy at which it can be purchased equipped, operated, maintained, and resold. Certainly, these and all other modifications which are within the ordi.nary skill in the art to make are considered to lie within the scope of the invention as defined by the appended claims.
COMPACT PIZZA PREPARATION AND DELIVERY VEHICLE
BACKGROUND OF THE INVENTION
The present invention rslates to the field of foodser~ice vehicles. More particularly, the invention relates to the field of vehicles for preparing and delivering pizza.
Pi~za is a food product having immense popularity among consumers. Generally, consumers can obtain pizza in one o three ways: cooking their own, going -to a pizza restaurant, or having a pizza cooked and then delivered. Naturally, having a pizza deliv-ered is the most convenient of the three. However, certain drawbacks do exist with the typical delivered pizza. For example, depending on the time interval between when the pizza is cooked and delivered, the pizza can often arrive in a lukewarm and soggy state with att~ndant loss in flavor and texture. In particu-lar, the cheese and other toppings can undergo coagula-tion or other degradation upon cooling.
U.S. Patent No. 4,632,836, to Abbott et al.
and assigned to the sarne assignee as the present application, describes a pizza preparation and delivery system which is designed to deliver restaurant ~uality pizzas to the consumer's home or business.
. .
:~3~2~
The system described in this patent includes vehicles which were not only adapted to deliver the pi~za, but also adapted to assemble and cook the pizza while in transit. Each vehicle in this system was e~lipped with a refrigerated case for storing pizza shells, a preparation station with p~zza toppin~s to create an assembled pizza, and a conveyor oven for cooking the assembled pizza.
The vehicles used in the preferred embodiment described in the '836 patent were modified FORD E-350 trucks with a van type body mounted thereon. Each vehicle included a driver's station and a kitchen area.
A cook's chair was put in the kitchen area and the vehicle was laid out so that, while seated in the cook's chair, the cook could reach the pizza assembly station, the oven, and the cutting table. A door was provided in the side of the van for the cook to exit the vehicle and deliver the pizza to the door of the customer. Preferably, the vehicle of the '836 patent would be manned by a driver and a cook so that the driver could drive and the cook could remain in the cook's chair to assemble, cook, box and cut pizzas.
Naturally, when the vehicle of the '836 was manned by a single worker, the driver would have to find a place to park the vehicle while he moved back to the kitchen area to prepare pizzas to be cooked. Also, the lone operator would have to park in order to remove the cooked pizza from the oven.
U.S. Patent No. 4,556,046, to Riffel et al.
and also assigned to the assignee of the present invention, described an improved ventila-tion system for a pizza preparation and delivery vehicle such as that described in the '836 patent.
~3---~L 3 ~
Although the pizza preparation and delivery system described ln the '836 an~ l046 patents enjoyed a measure of success, it was found that the purchase, operating, and maintenance costs of the relatively large vehicles used in the preferred embodiment ran higher than what was desirable.
One factor adding to these costs was the gasoline or propane fueled electric power generator which was included on the vehicles to supply the power needs of the refrigerated cases and ovens on the vehicles. Not only did this generator add to the purchase, operating, and maintenance costs of the vehicle, it also increased vehicle noise.
U.S. Patent No. 4,643,167, to Brewer and also assigned to the assignee of the present invention, described a further improvement to the ventilation system for an oven within a pizza preparation and delivery vehicle. By the time the application for the '167 patent was filed, the preferred vehicle had been downsized to a typical full-size van, such as the FORD
"Econoline". The kitchen layout was the same in the '167 patent as in the '836 and '046. That is, the new vehicle included a driver's station and a kitchen area with a cook's chair and a conveyor oven. The new vehicle also included a separate electrical generator.
Although using this smaller van resulted in a reduction of the purchase, operating, and maintenance costs, market pressures still motivated the search for a vehicle that would be less expensive to purchase, operate and maintain. In par'cicular, it is-critical to minimize the costs of this new mobile preparation and ~elivery system so that an operator can-offer pizza at the competitive prices, while achieving the same or higher profit levels as one could achieve in a conven-tional pizza restaurant or delivery business.
:~ 3 ~ 2 SU M RY OF THE IN_ENTION
Briefly stated, the present invention is a compact pizza preparation and delivery vehicle. The vehicle is a self-powered vehicle having a driver's compartment with a driver's seat and a cargo compart-ment behind the driver's compartment. The vehicle also includes a refrigerated case for storing pizza shells and pizza toppings in the driver's compartment which case is within access of the driver in the driver's seat. An assembly table is located on top of the refrigerated case for supporting an uncooked pizza shell while applying the pizza toppings. The vehicle further includes a pizza oven in the cargo compartment which oven is adaptad and positioned so that, while sitting in the driver's seat, a driver can insert an unbaked assembled pizza into the oven and remove a baked pizza from the oven.
In accordance with a preferred embodiment, the pizza preparation and delivery vehicle is made from a small pickup truck. In this embodiment, the cargo bed of the truck is covered with a topper. Also, the passenger seat is removed from the driver's compartment and the refrigerated case is put in its place. This preferred vehicle also includes a supplemental refrig-erated case in the cargo compartment for storing extra pizza shells. The preferred oven includes a turntable on which the pizza is rotated during baking. The turntable is preferably attached to the oven door which is hinged on one side. In this way, the turntable is brought out of the baking chamber when the door is opened and is thus more accessible to the driver. In addition, the pizza is prevented from becoming over-cooked. Also in the preferred embodiment, all of the electrical power needs are met by the generator for the ~, 3 ~
engine. That is, there is no need for a separate generator on the preferred vehicle.
The ve31icle of the present invention provides significant advantages. For one thing, the development of the preferred embodiment which fits within the typical mini-pickup truck has red~lced the overall purchase price of the vehicle. The cost of equipping the vehicle, as well as the noise output,are reduced when no separate electrical generator is used. The operating cost is also reduced. Comparisons have shown that the typical full-si~e van as described in the '167 patent to Brewer consumed about 4 gallons of gasoline per hour, while the vehicles made in accordance with the preferred embodiment consume about l gallon per hour.
It is noted that the term "pizza" as used in this specification and the appended claims is in-tended to have a relatively broad definition including tradi-tional styles of pizza with a single crust topped with sauce, cheese, meats and~or vegetables, as well as other styles such as stuffed pizza.
Also, the terms "pickup" and "pickup truck"
are intended to refer to a light truck having an enclosed driver's compartment and a cargo bed.
In addition, the phrase "in transit" is intended to refer to any time when the vehicle is away from the home base, such as en route to a delivery destination. Note that the vehicle need not be actual-ly moving when in transit.
The present invention, together with atten-dant objects and advantages, will be best understood with reference to the detailed description below read in conjunction with the accompanying drawings.
BRIEF DESCRIPTION OF THE D _WINGS
~ IGURE 1 is a driver's side view of the vehicle of the most preferred embodiment of the present invention.
FIGURE 2 is a top view of the embodiment shown in FIGURE 1.
FIGURE 3 is a rear view of the embodiment shown in FIGURE 1.
FIGURE 4 is top view showing the layout of the various elements of the embodiment shown in FIGURE
1.
FIGURE 5 is a perspective view of the interi-or of the driver's compartment.
FIGURE 6 is a view similar to FIGURE 5 showing the toppings drawer pulled toward the driver's seat.
FIGURE 7 is a perspective view of the top and front surfaces of the refrigerated case shown in FIGURE 5.
FIGURE 8 is a perspective view showing the top and rear surface of the refrigerated case shown in FIGURE 5.
FIGURE 9 is a cross-sec-tional view taken along line 9-9 of FIGURE 7.
FIGURE 10 is a perspective view with the passenger door and the rear door of the refrigerated case open.
FIGURE 11 i5 a perspective view of the interior of the driver's compartment showing the pizza preparation table.
FIGURE 12 is a front view of the window between the driver's ~ompartment and the cargo compart-~ent.
FIGURE 13 is a cross-sectional view along line 13-13 of FIGURE 12.
:L 3 ~
FIGURE 1~ is a cross-sectlonal view along line 14-14 of FIGURE 12.
FIGURE 15 is a perspective view of -the supplemental refrigerated case in the cargo compartment of the vehicle shown in FIGURE 1.
FIGURE 16 is a side view of the supplemental refrigerated case shown in FIGURE 15.
FIGURE 17 is a top view of the supplemental refrigerated case shown in FIGURE 15.
FIGURE 18 is a front view of the supplemental refrigerated case shown in FIGURE 15.
FIGURE 19 is a cross-sectional view taken along lines 19-19 of FIGURE 18.
FIGURE 20 is an exploded view showing how the support frame and dividing wall fit in the cargo bed of the vehicle shown in FIGURE 1.
FIGURE 21 is an exploded view showing the topper and the support frame with the oven and supple-mental refrigerated case mounted thereon.
FIGURE 22 is a schematic wiring diagram of the safety system of the vehicle shown in FIGURE 1.
FIGURE 23 is a perspective view of the front and side of the double oven used in the vehicle shown in FIGURE 1.
FIGURE 24 is a perspective view of the rear and side of the oven shown in FIGURE 23.
FIGURE 25 is a cross-sectional view taken along line 25-25 of FIGURE 23.
FIGURE 26 is a view similar to FIGURE 25 which shows the oven door open.
FIGURE 27 is view similar to FIGURE 25 showing the flow of air through the oven.
FIGURE 28 is an exploded view of the oven door, the turn-table and turntable motor for the oven of FIGURE 23.
~3~D.~2 EIGURE 29 is a cross-sectional view along lines 29-29 o~ Figure 28 of the -~urntable, oven door, and plenums FIGURE 30 is an exploded view showing tlle flow of air through the blower, ducts, ~nd slots of the oven shown in FIGURE 23.
FIGURE 31 is a cross-sectional view taken along line 31-31 of FIGURE 23.
FIGURE 32 is a partial cross-sectional view showing the oven closing plate.
FIGURE 33 is a cross-sectional view showing the fan motor, shaft, and blower wheel.
~ FIGURE 34 is a cross-sectional view taken along line 34-34 of F~GURE 33.
_ETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS
Referring to the drawings, FIGURE 1 is a view from-the driver's side of the pizza preparation and delivery vehicle 11 of the most preferred embodiment of the present invention. The vehicle 11 is a pickup truck which has been modified in the ways to be de-scribed below. The pickup truck shown is a FORD Ranger model "Re~ular Cab 2-wheel drive". This particular truck is generally considered a "mini-pickup" as opposed to a midsize or fullsize. This pickup truck has a payload capacity of approximately 1612 pounds and a Gross Vehicle Weight Restriction (GVWR) of 4260 pounds. The cargo bed of this truck is approximately 77" long and 54" wide. The engine is a 2.3 liter 4 cylinder.
While this particular pickup truck is most preferred, other types of self-propelled vehicles may also be used. Preferably, the vehicle o.~ the present invention will be based on a pickup truck. More preferably, the vehicle will be based on a mini-pickup truck such as the Ford Ranger described herein.
Alternatively, the vehicle can be a mid-size or _9_ :~ 3 ~
full-si2e pickup truc}c. Also, the vehicle could be a mini-van. An important consideration in the selection of the vehicle is the cost of purchasing, equlpping, operating, and maintaining the vehicle.
Another important consideration in selecting the vehicle to be modified according to the present invention is the payload capacity and size of the cargo compartment. For efficiency sake, the vehicle of the invention is preferably designed so as to use as much of the space and payload capacity as is practicable.
For example, as will be discussed below, the preferred vehicle has a dual pizza oven, i.e. two baking cham-bers. Also, the sizes and weights of the primary and supplemental refrigerated cases are selected so as to be as large as possible within the vehicle. Selecting a vehicle with more space and a larger payload capacity will allow for the use of larger equipment, such as a tripla oven or larger refrigerated cases. At present, the depicted Ford Ranger pickup truck is most preferred because the preferred equipment can be fit into it.
This particular truck's relatively small size makes it economical to purchase, operate and maintain The purchase price of this mini-pickup is considerably lower than that of -the larger vehicles described in the three patents mentioned above. The purchase price is a particularly important factor to the feasibility of establishing a 1eet of such pizza preparation and delivery vehicles.
Also, because of its small size, the rmini-pickup is more economical to run.: The E.P.A.
oted gas mileage figures for this truck are 22 m.p.g.
in the city and 27 m.p.g. on the highway. This c~n be compared to the E.P.A. quoted figures of 15 m.p.g. in the city and 17 m.p.g. on the highway for the full-size van used in khe '167 patent. This better gas mileage _g_ :~ 3 ~
is important because it lowers the average cost per pizza of operating the vehicle.
The operating cost of the vehicle o~ -the present invention is also reduced by virtue of the ~act that it is operated by a single person sitting in a single location. The driver sittiny in the driver's seat is able to prepare and bake pizzas.
As will be discussed more fully in connection with FIGURES 20 and 21 below, the cost of equipping a pickup truck according to the present invention is typically lower than that of e~uipping another vehicle such as a van.
The cost of equipping, operating and main-taining the preferred vehicle is reduced by virtue of the fact that there is no separate generator to provide electrical power for the equipment on the vehicle. The vehicles described in the three patents noted above required a separate gas operated electrical generator.
Naturally, this added costs and noisiness of the vehicle.
In the preferred vehicle the oven is heated by gas. The electrical power needed for the oven, the refrigerated cases, the additional lights, as well as the ventilation, control, safety, and communications systems is supplied by the alternator of the pickup truck. In order to insure enough current, it is most preferred to replace the original alternator that comes with the FOR~ Ranger with a heavy duty alternator such as that sold by LESTEK MFG. under the designation # 9135 P.F. This alternator is rated at 135 amps.
Another advantage of using the compact mini-pickup truck in the preferred embodiment is that it is typically easier to maneuver, e.g. back up and park, a mini-pickup than it is a full-size van. This is important because the driver will likely have to .
--ll--~ 3 ~
park in confined spaces when makin~ deliveries.
Experience wi-th the vehicles of the preferred embodi-ment has shown that these vehicles have had fewer accidents per mile than the full-size vans shown in the '167 Brewer patent.
Referring to FIGURES 1-3, the vehicle 11 includes a driver's compartment or cah 13. The vehicle also includes a cargo bed 15 with a tailgate 33. A
topper 17 is mounted over the cargo bed 15 to create a cargo compartment. With the exceptions noted below, the topper 17 is an otherwise conventional topper for pickup trucks. The particular topper shown was ob-tained from GUIDON CO. under the designation "RENE-GADE II".
The topper 17 includes four doors hinged at the top and securely latched at the bottom. Door 18 is on the driver's side of the topper and provides access to the oven. Door 22 is on the passenger side of the topper and also provides access to the oven. Door 31 is at the rear of the topper and provides access to the supplemental refrigerated case.
The topper 17 also includes four ventilation ports. Port 19 is a conventional wind driven port such as that found on recreational vehicles and operates to pull air from the cargo compartment when the vehicle is in forward motion. Port 27 is driven by an electric fan. Port 21 covers the flu of the pizza oven. Port 23 allows air to be ~ented from the rear compartment.
A positive air pressure is created in the rear compart-ment by the fan 142 located in the cargo bed (See FIGURE 20).
Fuel tanks 35 are located underneath and near the rear of the cargo bed 15.
FIGURE 4 is a view intended to show the most preferred lay-out of the equipment in the vehicle 11.
iL 3 ~
The cab of the pickup truck .is desigllate~ as the driver's compartment 13. Within the ~river's compart-ment is the driver's seat 41. Also within the driver's compartment is a refrigerated case 43. The cargo compartment of the vehicle is separated from the driver's compartment by window 51 (see FIGURES 12-14).
A dividing wall 49 serves to separate -the cargo com-partment into an oven compartment 44 and a refrigerated case compartment 46. Curb feelers 24 are preferably included.
A pizza oven 45 is located in the oven compartment 4~ and positioned so that the driver can insert an unbaked pizza and remove a baked piz~a from the oven while sitting in the driver's seat. Further details of the oven are given below in connection with FIGURES 23-34.
A supplemental battery 20 is loca-ted in the cargo compartment. This battery is recharged by the alternator 5 for the truck engine. It has been found preferable to use a supplemental battery to power the equipment in the vehicle rather than using the original battery a fr~the engine. One reason for this i5 SO that the starting of the vehicle is kept separate from the operation of the equipment on board. Most preferably, the supplemental battery is a 12 volt marine type, series 27 Exide Battery #5231.
A supplemental refrigerated case 47 is located at the rear of the cargo compartment and is thus accessible through the rear door 31 of the topper 17. Compressors 53 and 54 are also located at the rear of the car~o compartment. Preferably, the upper compressor 53 cools the supplemental refrigerated case 47, while the lower compressor 54 cools the refrigerat-ed case in the driver's compartment 43 by means of coolant lines passing therebetween.
;. ',1 . -- ,. ~...
-13- ~3~2~
FIGU~E 5 is a perspective view looking into the driver's compartment from the driver's door. As can be seen, the passenger's seat has been removed from the pickup truck and replaced by a refrigerated case 43 (see FIGURES 6-11). The top of the refrigerated case 43 is adapted to serve as a preparation table 65 on which the uncooked pizza shell is placed while the topping are put on. The table 65 also serves as the surface on which the baked pizza is cut and boxed.
Placing the refrigerated case 43 and the preparation table 65 in what would otherwise be the passenger's side of the cab is advantageous because it allows the driv~er to assemble, cut and box a pizza while sitting in the driver's seat.
Preferably, the table 65 is made so as -to extend completely to the dash to avoid problems with spilling. Also, the three edges away from the driver are turned up to avoid spilling. The edge 62 nearest to the driver is preferably formed into a marine corner to avoid spilling and also to provide safety and comfort for the driver. A condiment cup rack 69 is included on top of the table 65 for holding cups 60 used for portioning the pizza toppings, e.g. cheese, beef, onions, etc. The rack is also adapted to hold a spatula 64 and a rocker knife 68 used for cutting the cooking pizzas. As seen in FIGURE 9, the rack includes a spring-loaded catch 70 to securely hold the knife in place.
A door handle extension 67 has been attached to the passenger door handle so that the driver can unlock and open the passenger door in the event of an emergency to exit through the passenger door.
An electrical systems control box 73 is installed on the ceiling of the cab. This box includes switches to control the lights and the other electrical J
systems of the ve}licle, namely -the interior lights, rear spot light, safety system, oven, refrigerated cases. A volt meter monitoring for the supplemental battery system is also included within control box 73. In this way, the driver can monitor the status of the s~pplemental battery when the engine is turned off, and thus know when the restart the engine to recharge the supplemental battery. A working light 74 is included on the bottom of the control box 73.
An oven control box 76 is mounted on the dash. This oven control box includes the switches to operate the pizza oven of the vehicle. Because the preferred pizza oven actually includes two stacked baking units, the pre~erred oven controller include~
identical controls for the top and the bottom baking units.
The preferred oven controller means has several functions. The primary function is to serve as an oven timer. That is, the controller means sets the proper baking cycle for the oven. This is preferably accomplished by including an electronic timer which is set at the proper time when the pizza is inserted in the oven and then counts down to zero while the pizza is being baked. When the timer reaches zero, a signal is generated. Preferably, this signal will generate an audible signal to the driver as well as a lighted indicator that the baking cycle is completed.
As described below (see FIGURES 23, 26-28), the oven doors are equipped with actuators which can automatically open the oven doors and bring the baked pizza out of the oven. Thus, in this embodiment, at the conclusion of the preset baking cycle, the oven controller means will also generate a signal to the door actuator means so that the doors are opened and the pizza is removed.
:~ 3 :~ ~,`$ ~ ~
This feature of ~u-tomatically ~emoving the piæza from the oven at -the conclusion of the baking cycle is highly advantageous in that it prevents the pizza from becoming overcooked if the driver is unable to stop the vehicle, or if the driver is away from -the vehicle making another delivery.
Another feature of the preferred oven con-troller means is that it is also adapted to conserve electrical energy. The preferred oven is an impinge-ment oven wherein heated air is impelled by high~speed fans or blowers toward the top and bottom of the pizza.
The oven controller means is programmed to step up the speed of the fans to the operating speeds a~ he beginning of the baking cycle. At the end of -the baking cycle, the fan speed is reset to an energy saving idle speed. In addition, the oven uses a powered turntable to rotate the pizza during cooking.
For the same reasons, the oven controller means will preferably switch the turntable on and off to coincide with the baking cycle.
Most preferably, the oven controller means is configured so that the driver simply pushes a "door openi' button to begin the baking process. In response to pushing the initial button, the door actuator opens the door of oven. The driver then places the pizza, preferably in a pan, onto the turntable of the oven. A
second button, "start bake" button is pushed. In response, the oven controller generates the signal to close the door, to step up the speed of the fans, to switch the turntable on, and to begin timing:the baking cycle. Most preferably, the oven controller provides a visual readout, such as by LED, of the time remaining for each baking cycle. At the conclusion of the baking cycle, the controller means generates an audible signal, such as a beep for 30 seconds, and also . .... , . . ~
....... ~........................... .
:~3~26~
generates the si~nal to the door actuator to open the oven door.
When the oven door opens, the driver can bring the pizza in the pan into the driver's compart-ment by use of the pan grippers 66. The hot pizza is removed from the pan and placed on the table 65 where it will be cut and boxed. The hot and dirty pan is then passed back throu~h the window and dropped in the pan receiving areas 48 (see FIGURE 4).
The most preferred driver's compartment includes a few other special features. Mounted on -the visor ,8 is a order holder 77 which can be used to retain the customer pizza orders until completed.
Also, a special safety button 79 is included. As explained in connection with FIGURE 22, this button acts as an emergency kill switch to shut off the flow of gas from the fuel tanks. According to the preferred safety system, none of the solenoid operated valves on the fuel tanks or ovens will open unless the switch is pulled out. Naturally, this switch should be well la~eled and lighted.
FIGURES 6-10 illustrate the most preferred embodiment of the refrigerated case 43 in the driver's compartment. An important feature of th.is most pre-ferred case 43 is that the pizza toppings are held in a drawer 61. The drawer 61 is adapted to support insert pans in order to hold and segregate different pizza toppings. Typically, the largest section is reserved to hold cheese. This drawer 61 slides in and out of the case 43. As shown in FIGURE 6, when the drawer is pulled out, the toppings are brought closer to the driver for his convenience. As seen in FIGURE 5, when the drawer is pushed back in, the space is freed up for the driver's safety and comfort and to allow ~ccess to the transmission shifter.
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-17- ~3~2~3~2 The pr~ferred refrigerated case 43 also incl~ldes a door 63 for gaining access to the uncoolted pizza shells stored therein. ~pproximately 7 of PIZZA
HUT's "Pan Pizza ," i.e. conventional, large pizza shells or about 13 of tlle PIZZA HUT's "Hand Tossed "
pizza shells can be stored in the refrigera-ted case 43.
In addition, bags of extra toppings and 3 six-packs of canned PEPSI ~ can also be fit into the case 43. The preferred case 43 also includes a rear access door 71 which can be opened when the passenger door is opened.
This rear door 71 provides convenient access to the case when filling it with uncooked pizza shells. The rear door 71 also provides access to the cooling plates 75 which are fed by cooling lines 8~. The cooling plates 75 for this case 43 are conventional plates such as those sold by NORCOLD under the designation "~0 Watt.~ The compressor is adjusted to maintain a temperature of about 38-40F within the case 43. A fan 72 is included within the case 43 for circulating the cooled air. Also, a door'activated light is preferably included to illuminate the inside of the case 43.
FIGUR~ 11 is another perspective view of the driver's compartment from a slightly different angle.
In this view, the means for receiving pizza delivery orders 111 is shown. Basically, this unit 111 COllSiStS
of a radio receiver and transmitter, a data box, a processor, and a printer. The radio is adapted to receive signals which are converted to digital data by the data box. The processor converts the digital data to the appropriate signals, to drive the printer. The printer prints the delivery orders on slips of paper for the driver to read. Preferably, the'delivery order will include the specifications ~or the ordered pizza as well as the delivery destination with directions telling the driver how to get there. Preferably, the ~ . ., ,i:
~ 3 ~
unit lll also includes data entry means for the driver to revise any information on the delivery order. Also, the unit 111 preferably includes means for two-way voice communication between the driver and the home station. The preferred voice communication means is a cellular phone 12 (See Figure l).
The preferred pizza preparation and delivery system to be used with the vehicles of the present invention is similar to that described in the three patents listed above, namely U.S.
Patent Nos. 4,632,836; 4,556,046; and 4,643,167. This preferred system includes a plurality of vehicles which work from a common home base. The home base is adapted to receive piz~a d~livery orders from customers. The home base then dispatches the orders to the appropriate vehicle. Preferably, the particular vehicle to receive the order is selected on the basis of its current location as well as the current inventory on the vehicle. This selection can either be made manually, or can also be made by means of a microcomputer with appropriate software and data input.
Preferably, the order is sent to the truck over the radio and converted directly into a printed delivery order ticket as described above. Alternatively, the orders can be sent over the voice communication system.
As taught in the above-numbered patents a separate commissary can be established to supply the pizza shells and toppings for the vehicles. Through exparience it has been ~ound preferable to make us of existing pizza restaurants as commissaries to supply these items. That is, it is now pre~arable to make arrangements at either one or more existing pizza restaurants to provide the shells and ingredients for each vehicle. On a busy night, each vehicle will preferably begin its rounds with about 40 pizza shells, ;; r;,, : . ~
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40 pounds of cheese, about 50 pounds of combined toppin~s, and abou-t 42 cans of soft drinks. As taught in the '836 patent, the pizza shells are preferably covered with pizza sauce and a first layer of cheese before being loaded into the vehicle. This preparation has been found to improve the dough volume of the pizza shells during transit.
This view in FIGURE 11 also shows a shelf 115 which hangs from the ceiling on the passengers side.
This shelf is adapted to hold a boxed pizza while driving to the delivery destination.
FIGURES 12 and 13 illustrate the most pre-ferred construction of the window 51 used to separate the driverls compartment from the cargo compartment.
The window 51 is divided in-to three sections each of which are made of 0.20" thick clear polycarbonate. The section 121 immediately behind the driver's seat is adapted to slide within the tracks 127 and 128. This allows the driver to gain access to the cargo compart-ment immediately behind his seat. The center section 123 of the window 51 includes a hinge 133 at the top and a latch 131 at the bottom. In this way, the center section 123 can be s~mng upward to engage the catch 135 (see FIGURE 11). As a result, the center section, the section through which the unbaked and baked pizzas will pass can be securely moved out of the way. The end section 125 is stationary.
FIGURE~ 15-19 illustrate the supplemental refrigerated case 47 which is preferably included with the pizza preparation and ,delivery-vehicle in order to allow the vehicle to carry a larger supply of pizza shells and toppings than would fit in the refrigerated case in the driver's compartment. Typically, the supplemental refrigerated case 47 can be stoc]~ed with about 30 conventional or 60 hand-tossed (or . ..
~ 3 ~
coMbinations thcreof ) pizza shells, about 30 po~ ds of pi~za cheese, and about ~ s:ix-paclcs of PEPSI As shown in FIGURES 4 and 21, the preEerred location for this supplemental refrigerated case 47 is at the rear o ~he cargo compartment. Access to the door 151 of the case is had through the rear door 31 of the topper 17. The case 47 is cooled by cooling plates 155 which are supplied with coolant by the upper compressor 53.
A shelf 153 is included in the case 47 to hold extra toppings. A door-activated light bulb 159 is prefera-bly included. A drain tube 157 is also preferably included to allow condensation to drain from the case.
FIGURE 20 is a perspective view of the frame member 201 on which the various pieces of equipment in the cargo compartment are preferably mounted. As can be seen in FIGURE 20, the frame member 201 is sized so as to fit within the cargo bed 15 of the pickup truck.
Most preferably, the equipment will be mounted on the frame member 201 before the frame member i5 inserte~
and attached within the cargo bed 15. The rame member 201 includes support bars 199 on which the oven is mounted. The dividing wall 49 is adapted to fit within slots in the frame member 201. The dividing wall i5 most preferably a 0.100" sandwich laminate of aluminum sheet on a 1.0~' core of polyurethane foam.
FIGURE 21 shows the frame member 201 with the equipment mounted thereon and ready to be inserted and attached within the cargo bed 15. As can be seen, the supplemental refrigerated case 47 and the compressors are located behind the dividing wall49 . The oven 45 is mounted in front of the wall 49. Preferably, the various pieces of equipment are mounted on the frame member 201 before it is inserted into the cargo bed of the truck.
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For sanita-tion purposes, a hand pump-operated sink 203 i~ included alon~ with ~n insulated tank 205 or supplying hot water to -tlle sink 203. The sink 203 drains into a waste water tallk under the oven (not shown). The waste water tank includes an outlet and valve for draining the waste water at the appropriate location. A bot-tle of hand soap 204 is preferably mounted on the oven side of -the dividing wall 49.
Paper towels are held on a dispenser 208 at-tached to the control panel of the oven. As another sanitary measure, disposable plastic gloves can be used by the drivers when handling the pizzas and ingredients.
The frame member 201 also preferably includes a bracket 209 for storing medium and large flat pizza boxes 211.
EIGURE 22 is a schematic wiring diagram illustrating the preferred safety system for the vehicle.
Starting at the bottom right side of the diagram, the system includes a solenoid operated valve at the outlet of the fuel tank. This valve is mechani-cally closed unless the solenoid is activated with 12 volts. Solenoid operated valves are also included for each of the two oven units. Like the valve at the fuel tank outlet, these valves are mechanically closed and opened only if the solenoids,,a~re ac,,tivated,w,ith 12 volts. As a consequence, the gas is shut off from the outlet of the fuel tank, and the gas to the ovens is shut off, if the power circuit is opened by one of the following safety devices.
-22~
Movin~ now to the top of -tlle diagram, -the safety system includes a gas control unit in the console of the cab which is connected to a gas sensor located 2" above the floor of the cargo bed on the oven support leg nearest the burners for the oven. The gas control normally supplies 12 volts to the rest of the system when no gas is detected. If gas is detected, the control supplies 0 volts to the control relay and the valves at the outlet of the fuel tank and ovens are automatically, mechanically shut. Preferably, the gas sensor, control, and solenoid are purchased as a set from the Newtec Co.
The system also includes an inertia switch under the hood of the pickup. This switch is designed to shut off the power in the event of sudden impact, i.e. a collision, or inverted position, i.e. rollover.
As stated above, the valves at the fuel tank and ovens automatically close when the power is shut off anywhere in the system.
An emergency kill switch is provided for the driver on the dash of the vehicle. Preferably, this switch is clearly labeled, lighted, and must be pulled out before the oven can be operated.
A high temperature sensor is included on the underside of the topper in the oven compartment.
Preferably, this sensor is set to open the circuit if the temperature inside the topper reaches about 250F.
High temperature switches are also included wi-thin each of the -two oven chambers. Preferably, these switches are set to open the main power circuit if the temperature in either oven chamber exceeds about ., :
. ~, -2~ 2 ~f~
6~5F, i.e. a preset temperature about 100F above the normal operating temperature oE the over..
An exhaust fan is included in the toppe~ to exhaust the oven compartment through ventilation por-t 21 (see FIGURE 2). The circuit is designed so that the fan always runs when the oven is on. If this fan loses power, the relay also closes the solenoids at the fuel tank and ovens.
Indicator lights are provided for the driver to see the status of the safety system A red light is adapted to be turned on whenever the gas has been shut off. An amber light is adapted to be turned on whenev-er the gas is flowing.
FIGURES 23-34 illustrate the pizza oven 45 used in the most preferred embodiment of the present invention. The inventions embodied in this oven are described and claimed in a co-pending U.S. Patent Application Serial No. 612,290 (attorney Docket No.
106-063) which is and assigned to the same assignee as the present application.
E'IGURE 23 is a perspective view showing the front and top of the preferred oven 45. As can be seen, the oven 45 is a dual oven, i.e. includes a top and a bottom oven unit. The dual oven 45 is mounted to the frame member supports 199 with shock mounts to decrease the road vibration transmitted to the oven.
As shown, the top and bottom oven unit each have a door 231 and 233 respectively. These doors are preferably operated by actuators 232 and 234 respec-'ively. Mounted on each of the doors is a motor housing 241 and 243.
In the event of door actuakor or oven con-troller failure, the actuator pivot pin 251 can be removed from its location on the actuator and the door then opened. The same pin 251 can then be inserted . .
,, S ~ r~
-2~-:~3~2 ~ ~2 illtO the hole ~50 above the oven door to hold the door closed durin~ the ba~ing cycle.
On the left side of the oven is a control panel 236. Preferably, the controls are mounted to the side of the oven with rubber grommets and so that a yap is leît b~tween the two. In this way, the controls are subjected to less vibration and heat from the oven.
The controls include a toggle switches 237 for each of the blower motors and toggle switches 238 for each of the burners. A temperature control dial 235 and a "burner on" indicator light 23g are also included for each oven unit.
Gas line 242 brings gas from the fuel tank and through a filter 254. The line is then split into ].ines Z45 which pass through the 2 solenoid operated valves 252 on each line. As mentioned above, the valves 252 are designed to be mechanically closed when not receiving a 12 volt signal.
A tie-down loop 240 is attached to the side of the oven and a cable 24A is attached to the frame of the pickup to thus restrain the oven from moving forward in the event of a crash.
FIGURE 2~ is a perspective view showing the back of the preferred oven 45. As can be seen, the blower motors 255 project from the rear of the oven.
Another tie-down loop 257 is included on the rear of the oven.
FIGURE 25 is a cross-sectional view from the top of the oven through line 25-25 of FIGURE 23.
FIGURE 26 is a similar view but with the door 231 SWUllg open. Referring also to FIGURES 27 and 28, it is seen that a turntable 261 is attached to the door 231 so that the turntable ls brought out o~ the oven chamber when the door 231 is opened. This turntable 261 is -2~-~ ~2~
adapted to support the piz~a 200 in the pan 202 ~uring baking.
The turntable is adaRted to rotate the pizza 200 during the baking cycle. This is preferably accomplished by means of an outer ring 262 which includes gear teeth to engage the driven gear 263. The gear 263 is driven by the motor 271. The underside of the outer ring 262 is adapted to roll on top o the wheels 281, 283 and 285. These wheels are preferably made of "~ulon" ~a trade-mark) so as to withstand the intense heat generated within the oven chamber. The motor is preferably set at a speed so as to rotate the turntable twice a minute.
FIGURES 27 and 29-31 illustrate the flow of heated air through the oven 45. As shown in EIGURE 27, air is heated by the gas burner 247. That heated air is drawn through the inlet cone 275 into the volute 277 by the blower wheel 273. Preferably, the blower wheel is rotated at a speed of between about 2200 and about 2300 rpm so as to create a high velocity.
The air is impelled from the volute 277 into a air splitting plenum 301. Within the plenum 301 is a tongue 303 which divides the air between the top and bottom plenums 305 and 315 respectively. The air that passes into the top plenum 305 is then divided by a vane 307. The air passes out of the top plenum 305 through two slots 293 and 295 which are separated by a tongue 309. After passing through the slots 293 and 295, the air impinges on the top surface of the pizza 200. In similar fashion,,the air th,at,passes into,the, bottom plenum 315 is divided by a vane 317. The air passes out of the bottom plenum 315 through two slots 297 and 299 which are separated by a tongue 319.
FIGURE 32 illustrates an energy saving and air balancing feature of the preferred oven 45. In , .~_. , . ~
, -2.6-~3~2~
this figure, the top door is open and the -turn-table is out of the oven chamber. In thls condition, a hinged plate 321 is allowed to swing down and block the opening to the oven chamber. As shown with the lower door 233, when the door is closed anc] the turntable pushed back into the oven chamber. -the hinged plate 323 is pushed up and out of the way. In this way, the oven chamber is kept closed and the amount o~ secondary air to the burner ~lame is kept fairly constant.
FIGURE 33 is a cross-sectional view illus-trating the configuration of the blower and motor shafts. In particular, the motor 255 is separated from the back of the oven by bolts 339. The motor shaft 331 is attached to the blower wheel hub 335. The shaft passes through a bushing 337. Attached to the extension shaft is a heat slinger 341 shown also in FIGURE 34. The function of the heat slinger is to dissipate heat off of the shaft to avoid passing heat to the motor 255.
Certainly, one of the challenges of providing a compact pizza preparation and delivery vehicle was that of producing a suitable pizza oven. In particu-lar, it was necessary to provide an oven which took up little space, required little electric power, and provided for optimum baking of the pizzas. The oven described herein is such an oven. The peak operating power demand, i.e. when both ovens are ba~ing, is about 20 amps at 12 volts. The fact that the pizza is brought out of the oven when the oven door is opened is fortunate for two reasons. First, i-t allows for e~sier access for the driver. That is, the driver can simply place the pizza pan on the turntable rather than trying to slide the pan through an oven door. Second, because the pizza is brought out of the oven when the door opens automatically, the pizza cannot be overbaked -27- ~3~ ?, because the driver ls busy in traffic or away from the vehicle making a delivery at the completion of the baking cycle.
It was also a challenge to provide a small oven which could provide uniformly baked pizzas as well as consistency between piz~as. It was somewhat sur-prising that the slots such as used in the preferred embodiment would provide uniformly cooked pizzas. In particular, because the slots pass over the center of a rotating pizza, it was thought that the center of the pizza would be overbaked. That is, it was thought that since the center section of the pizza spends more time under the slots, it would be overbaked in the time it would take to bake the outer sections of the pizza. In experimentation, it was *ound that pizzas baked in an oven similar to that depicted--except that the vanes 307 and 317 were in the center of the top plenum and bottom plenums did show overbrowning on the top layer of cheese. However, it was found that plzzas cooked in this same oven were baked uniformly on the bottom.
It is currently believed that this uniformity of bottom baking is related to the fact that the center section of the pizza is the hardest section to get fully baked. This is because the center of the pizza is surrounded by the rest of the pizza and is further from the side of the heat conducting pizza pan. As a result, the center is the last section to be fully heated. This is why the center sections of pizzas cooked in conventional ovens are typically checked for doneness. Apparently, the o~en of the:preferred -- -embodiment accomplishes a desirable balance between the center section spending more time over-the slots and the center section being more difficult to bake.
Whatever the reasons, it is fortunate that the oven -2~~
~ 3 ~ 2 ~ ~ ~
provided for uniform bottom cookiny in such a small space.
In connection with the overbrowning noted with respect to the top layer of cheese, it was found that this could be corrected throu~h the use of a vane such as the one shown at 307. As can be seen, the leading portion 306 of the vane 307 splits the air column a~ it enters the top plenum 305. The vane then makes a 45 turn to the second portion of the vane 308, followed by another ~5 turn to the third portion of the vane 310. This third portion of the vane 310 is located on the volute side of the center of the slot.
In particular, this portion 310 is preerably l.0" of of center. This bending of the air column in frvnt of the vane, coupled with the fact that the air behind the third portion 310 of the vane does not bend as dramati-cally, produces an area 312 of xeduced air pressure, i.e. a "shadow", behind the third portion 310. This reduced air pressure has been found to compensate for the greater amount of time the center section of the top cheese layer spends under column of heated air. As a result, pizzas cooked in the depicted oven, i.e. with the vane 307, have not shown overbrowning at the center section.
~ s seen in FIGURE 30, the bottom plenum also includes a vane 317. In this case, the vane 317 is used to create an area 322 of increased air pressure under the center of the pizza pan. In pàrticular, the third portion 320 of the vane 317 has been located at the center of the slot. As a result, higher air pressure is created in the area 322. This has been found to be preferable so that even more heat can be directed toward the bottom center of the pizza during cooking.
~ $ ~ 2 It should be noted that although much of the discussion has involved the modification of a mini-pickup truck, other types of vehicles can also be used. For example, mini-vans can also be used in the present invention. Certainly, a prominent factor in the choice of the vehicle is the economy at which it can be purchased equipped, operated, maintained, and resold. Certainly, these and all other modifications which are within the ordi.nary skill in the art to make are considered to lie within the scope of the invention as defined by the appended claims.
Claims (35)
1. A compact pizza preparation and delivery vehicle comprising:
a self-propelled vehicle comprising a driv-er's compartment with a driver's seat and a cargo compartment behind the driver's compartment;
a refrigerated case located in the driver's compartment within access of a driver in the driver's seat for storing pizza shells and pizza toppings;
an assembly table located on top of the refrigerated case upon which a pizza shell is placed while pizza toppings are applied thereto;
a pizza oven in the cargo compartment which is adapted and positioned so that, while sitting in the driver's seat, a driver can insert an unbaked assembled pizza into the oven and remove a baked pizza from the oven.
a self-propelled vehicle comprising a driv-er's compartment with a driver's seat and a cargo compartment behind the driver's compartment;
a refrigerated case located in the driver's compartment within access of a driver in the driver's seat for storing pizza shells and pizza toppings;
an assembly table located on top of the refrigerated case upon which a pizza shell is placed while pizza toppings are applied thereto;
a pizza oven in the cargo compartment which is adapted and positioned so that, while sitting in the driver's seat, a driver can insert an unbaked assembled pizza into the oven and remove a baked pizza from the oven.
2. The vehicle of Claim 1 further comprising oven controller means including a timer means for setting a proper baking cycle for each pizza.
3. The vehicle of Claim 1 further comprising means for receiving pizza delivery orders from a base station while the vehicle is in transit.
4. The vehicle of Claim 3 wherein the means for receiving pizza delivery orders comprises means for receiving radio signals, and means for converting said radio signals into a printed pizza delivery order.
5. The vehicle of Claim 4 wherein the pizza delivery order includes a specification of pizza size and choice of toppings together with a customer ad-dress.
6. The vehicle of Claim 4 wherein the means for receiving pizza delivery orders further comprises means for voice communication between the vehicle and the base station
7. The vehicle of Claim 1 further comprising means for receiving pizza delivery orders directly from customers while in transit.
8. The vehicle of Claim 7 wherein the means for receiving pizza delivery order directly from customers comprises a cellular phone.
9. The vehicle of Claim 1 further comprising a supplemental refrigerated case in the cargo compartment for storing additional pizza shells and toppings.
10. The vehicle of Claim 1 wherein the refriger-ated case in the driver's compartment is cooled by a compressor located in the cargo compartment.
11. The vehicle of Claim 1 wherein the refriger-ated case in the driver's compartment comprises a toppings drawer divided into sections to hold various pizza toppings, said drawer being adapted to be moved from a first position wherein the pizza toppings are within the refrigerated case and a second-position toward the driver wherein the pizza toppings are out of the refrigerated case and are within reach of the driver in the driver's seat.
12. The vehicle of Claim 11 wherein the refriger-ated case in the driver's compartment includes a first door whereby the driver in the driver's seat can remove pizza shells from the refrigerated case.
13. The vehicle of Claim 12 wherein the vehicle further comprises a passenger door and wherein the refrigerated case in the driver's compartment includes a second door which is accessible from the passenger door.
14. The vehicle of Claim l wherein the pizza oven comprises:
a baking chamber;
means for heating air;
fan means for impelling heated air;
an oven door;
a turntable upon which the pizza is rotated about its center;
at least one upper slot in the baking chamber through which heated air is impelled toward the top of the pizza as it is rotated on the turntable; and at least one bottom slot in the baking chamber through which heated air is impelled toward the bottom of the pizza as it is rotated on the turntable.
a baking chamber;
means for heating air;
fan means for impelling heated air;
an oven door;
a turntable upon which the pizza is rotated about its center;
at least one upper slot in the baking chamber through which heated air is impelled toward the top of the pizza as it is rotated on the turntable; and at least one bottom slot in the baking chamber through which heated air is impelled toward the bottom of the pizza as it is rotated on the turntable.
15. The vehicle of Claim 14 wherein the length of the upper slot is substantially equal to the diameter of the turntable and wherein the midpoint of the upper slot is generally above the center of the turntable.
16. The vehicle of Claim 14 wherein the oven door is hinged on a vertical side of the door and wherein the turntable is connected to the door whereby the turntable is brought out of the baking chamber when the door is swung open.
17. The vehicle of Claim 16 wherein the turntable is powered by a motor located on the oven door.
18. The vehicle of Claim 16 wherein the oven further comprises a closing plate hingedly attached above the oven door, which closing plate is adapted to swing down and close the baking chamber when the oven door is swung open and is adapted to be pushed open when the oven door is swung closed.
19. The vehicle of Claim 14 further comprising oven controller means including a timer means for setting a proper baking cycle for each pizza.
20. The vehicle of Claim 19 wherein the oven controller means further comprises energy saver means for switching the fan means from an idle speed to a faster baking speed at the beginning time of the baking cycle, and for switching the fan means back to the idle speed at the end of the baking cycle.
21. The vehicle of Claim 20 wherein the energy saver means further includes means for switching the turntable on at the beginning of the baking cycle, and for switching the turntable off at the end of the baking cycle.
22. The vehicle of Claim 19 wherein the pizza oven further comprises actuating means for automatical-ly opening the oven door in response to a signal generated by the oven controlling means.
23. The vehicle of Claim 14 wherein the pizza oven further comprises actuating means for automatical-ly opening the oven door.
24. The vehicle of Claim 1 wherein the pizza oven comprises:
a first and second baking chamber;
first and second fan means for impelling heated air in the first and second baking chamber respectively;
a first and second oven door;
a first and second turntable upon which pizzas are rotated about their center;
at least one upper slot in the first baking chamber through which heated air is impelled toward the top of a first pizza as it is rotated on the first turntable;
at least one bottom slot in the fist baking chamber through which heated air is impelled toward the bottom of the first pizza as it is rotated on the first turntable at least one upper slot in the second baking chamber through which heated air is impelled toward the top of the second pizza as it is rotated on the second turnta-ble; and at least one bottom slot in the second baking chamber through which heated air is impelled toward the bottom of the pizza as it is rotated on the second turntable.
a first and second baking chamber;
first and second fan means for impelling heated air in the first and second baking chamber respectively;
a first and second oven door;
a first and second turntable upon which pizzas are rotated about their center;
at least one upper slot in the first baking chamber through which heated air is impelled toward the top of a first pizza as it is rotated on the first turntable;
at least one bottom slot in the fist baking chamber through which heated air is impelled toward the bottom of the first pizza as it is rotated on the first turntable at least one upper slot in the second baking chamber through which heated air is impelled toward the top of the second pizza as it is rotated on the second turnta-ble; and at least one bottom slot in the second baking chamber through which heated air is impelled toward the bottom of the pizza as it is rotated on the second turntable.
25. The vehicle of Claim 24 wherein the first baking chamber is located above the second baking chamber.
26. The vehicle of Claim 1 wherein the vehicle is a pickup truck with a cargo bed that is covered by a topper to form the cargo compartment.
27. The vehicle of Claim 26 further comprising fan means for venting the cargo compartment to the outside.
28. The vehicle of Claim 26 further comprising wall means for dividing the cargo compartment into an oven compartment and a refrigerated case compartment.
29. The vehicle of Claim 28 further comprising first fan means for venting the oven compartment and second fan means for venting the refrigerator compart-ment.
30. A compact pizza preparation and delivery vehicle comprising:
a pickup truck comprising a driver's compart-ment with a driver's seat, a cargo bed behind the driver's compartment, an engine; and a battery and alternator for supplying electrical power to the engine;
means for receiving pizza delivery orders while in transit;
a topper to cover the cargo bed and form a cargo compartment;
a refrigerated case located in the driver's compartment within access of the driver in the driver's seat for storing pizza shells and pizza toppings;
an assembly table located on top of the refrigerated case upon which an uncooked pizza shell is placed while pizza toppings are applied thereto;
a pizza oven in the cargo bed which is adapted and positioned so that, while sitting in the driver's seat, a driver can insert an unbaked assembled pizza into the oven and remove a baked pizza from the oven and wherein the pizza oven comprises:
a baking chamber;
fan means for impelling heated air;
an oven door;
a turntable upon which the pizza is rotated about its center;
at least one upper slot in the baking chamber through which heated air is impelled toward the top of the pizza as it is rotated on the turntable; and at least one bottom slot in the baking chamber through which heated air is impelled toward the bottom of the pizza as it is rotated on the turntable; and oven controller means including a timer means for setting a proper baking cycle for each pizza.
a pickup truck comprising a driver's compart-ment with a driver's seat, a cargo bed behind the driver's compartment, an engine; and a battery and alternator for supplying electrical power to the engine;
means for receiving pizza delivery orders while in transit;
a topper to cover the cargo bed and form a cargo compartment;
a refrigerated case located in the driver's compartment within access of the driver in the driver's seat for storing pizza shells and pizza toppings;
an assembly table located on top of the refrigerated case upon which an uncooked pizza shell is placed while pizza toppings are applied thereto;
a pizza oven in the cargo bed which is adapted and positioned so that, while sitting in the driver's seat, a driver can insert an unbaked assembled pizza into the oven and remove a baked pizza from the oven and wherein the pizza oven comprises:
a baking chamber;
fan means for impelling heated air;
an oven door;
a turntable upon which the pizza is rotated about its center;
at least one upper slot in the baking chamber through which heated air is impelled toward the top of the pizza as it is rotated on the turntable; and at least one bottom slot in the baking chamber through which heated air is impelled toward the bottom of the pizza as it is rotated on the turntable; and oven controller means including a timer means for setting a proper baking cycle for each pizza.
31. The vehicle of Claim 30 wherein the oven is heated by gas and the electrical power needs of the refrigerated case and the oven are met by the battery and alternator for the engine.
32. The vehicle of Claim 30 further comprising a supplemental battery connected to the alternator and wherein the oven is heated by gas and the electrical power needs of the refrigerated case and the oven are met by the battery, the supplemental battery and the alternator for the engine.
33. The vehicle of Claim 30 further comprising a supplemental refrigerated case located in the cargo compartment for storing additional pizza shells.
34. The vehicle of Claim 33 wherein the oven, the supplemental refrigerated case, and a common compres-sor are affixed to a common frame member which member is attached to the cargo bed of the truck.
35. The vehicle of Claim 30 wherein the refriger-ated case in the driver's compartment is cooled by a compressor located in the cargo compartment.
Applications Claiming Priority (2)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| US07/258,969 US4919477A (en) | 1988-10-17 | 1988-10-17 | Compact pizza preparation and delivery vehicle |
| US07/258,969 | 1988-10-17 |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CA1312642C true CA1312642C (en) | 1993-01-12 |
Family
ID=22982919
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CA000612450A Expired - Fee Related CA1312642C (en) | 1988-10-17 | 1989-09-22 | Compact pizza preparation and delivery vehicle |
Country Status (2)
| Country | Link |
|---|---|
| US (1) | US4919477A (en) |
| CA (1) | CA1312642C (en) |
Families Citing this family (54)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US5104188A (en) * | 1988-09-26 | 1992-04-14 | Malcolm Jefferson | Bicycle seat for children |
| US5119719A (en) * | 1991-10-30 | 1992-06-09 | Depasquale George B | Automated pizza oven |
| US5394790A (en) * | 1994-08-15 | 1995-03-07 | Smith; J. Hudson P. | Apparatus for preparing and packaging potato chips |
| US5582095A (en) * | 1995-12-26 | 1996-12-10 | Rial; Jose A. | Food-warming arrangement for a food-delivering motor vehicle |
| US5787719A (en) * | 1997-03-04 | 1998-08-04 | Wilson; Robert F. | Mobile seafood processing unit |
| DE29800523U1 (en) * | 1998-01-14 | 1999-05-12 | Greuel Peter | Convection oven |
| DE19830226A1 (en) * | 1998-07-07 | 2000-01-13 | Norbert Thoma | Method and device for the mobile production of seals at the point of need |
| US6302010B1 (en) * | 1998-08-27 | 2001-10-16 | Christopher A. Holler | Utility vehicle for rescue and defense |
| US6189944B1 (en) * | 1999-09-21 | 2001-02-20 | Classic Carts Corporation | Food service kiosk |
| USD429944S (en) * | 1999-09-22 | 2000-08-29 | Alle Kevin M | Bar-b-que grill |
| US6431628B1 (en) * | 2000-08-15 | 2002-08-13 | Kbell Pizza Enterprises, L.L.C.A. | Mobile pizza kitchen |
| EP1199217A1 (en) * | 2000-10-18 | 2002-04-24 | Société des Produits Nestlé S.A. | Pizza preparation & delivering method |
| US6378319B1 (en) * | 2000-10-27 | 2002-04-30 | The Mani Brothers | Multi-compartment multi-climate delivery vehicle |
| US6929061B2 (en) * | 2000-10-27 | 2005-08-16 | Marc Lajeunesse | Mobile refrigerator with reporting system |
| US6592364B2 (en) | 2001-11-30 | 2003-07-15 | David Zapata | Apparatus, method and system for independently controlling airflow in a conveyor oven |
| US20030138539A1 (en) * | 2002-01-22 | 2003-07-24 | Swanson John W. | Method for quickly producing made-to-order pizza |
| AUPS047602A0 (en) * | 2002-02-13 | 2002-03-07 | Silverbrook Research Pty. Ltd. | Methods and systems (ap67) |
| US20030200962A1 (en) * | 2002-04-30 | 2003-10-30 | Pruett Larry L. | Portable barbeque assembly |
| JP4173694B2 (en) * | 2002-06-18 | 2008-10-29 | 株式会社ケーヒン | Bulkhead for vehicle |
| GB0319241D0 (en) * | 2003-08-15 | 2003-09-17 | Hotpods Ltd | Oven and a food delivery vehicle comprising said oven |
| US20050236387A1 (en) * | 2004-04-13 | 2005-10-27 | Stockley Edward E | Food preparation and cooking system |
| US7183518B2 (en) * | 2004-09-24 | 2007-02-27 | Michael Near | System of food storage preparation and delivery in finished cooked state |
| US7533917B2 (en) * | 2005-04-07 | 2009-05-19 | International Truck Intellectual Property Company, Llc | Integrated kitchen unit for a mobile vehicle |
| US20070048403A1 (en) * | 2005-08-31 | 2007-03-01 | Thuli Theodore J | Modular mobile dairy plant |
| US20070182182A1 (en) * | 2005-12-22 | 2007-08-09 | Hall David R | Motor Vehicle for a Drywall Business |
| US7703835B2 (en) * | 2006-08-11 | 2010-04-27 | Weeda Dewey J | Secondary door and temperature control system and method |
| US8075304B2 (en) * | 2006-10-19 | 2011-12-13 | Wayne/Scott Fetzer Company | Modulated power burner system and method |
| US8499755B2 (en) * | 2008-10-13 | 2013-08-06 | Babington Enterprises | Mobile kitchen |
| US8820313B1 (en) * | 2010-05-10 | 2014-09-02 | Eugene Lutes | Transportable kitchen |
| US9292889B2 (en) * | 2013-06-18 | 2016-03-22 | Zume Pizza, Inc. | Systems and methods of preparing food products |
| BE1022208B1 (en) * | 2014-04-29 | 2016-03-01 | Yerbis | ELECTRIC COOKER. |
| US9328957B1 (en) * | 2014-05-29 | 2016-05-03 | Darin Feinstein | Sidewalk accessible food service stand |
| US20160116171A1 (en) * | 2014-10-22 | 2016-04-28 | General Electric Company | Oven airflow control |
| US10624353B1 (en) * | 2015-03-12 | 2020-04-21 | John Langley | Pizza oven |
| DE102015005166B4 (en) | 2015-04-23 | 2019-01-10 | Eismann Innovations GmbH | Vehicle with a device for processing food |
| US20180035676A1 (en) * | 2016-02-16 | 2018-02-08 | Yilma Asfaw | Compact Machine for Manufacturing Injera |
| USD866249S1 (en) | 2016-03-22 | 2019-11-12 | Zume, Inc. | Food container cover |
| USD900558S1 (en) | 2016-03-22 | 2020-11-03 | Zume, Inc. | Food container |
| MX2018011597A (en) | 2016-03-22 | 2019-03-14 | Zume Inc | Container for transport and storage of food products. |
| USD893247S1 (en) | 2016-03-22 | 2020-08-18 | Zume, Inc. | Food container base |
| USD828161S1 (en) | 2016-08-18 | 2018-09-11 | Zume, Inc. | Food container cover |
| USD806575S1 (en) | 2016-08-18 | 2018-01-02 | Zume Pizza, Inc. | Food container |
| USD861422S1 (en) | 2016-08-18 | 2019-10-01 | Zume, Inc. | Food container base |
| US10503363B2 (en) | 2016-11-02 | 2019-12-10 | Zume, Inc. | Lazy Susan menu graphical user interface |
| TR201618011A2 (en) * | 2016-12-07 | 2018-06-21 | Akif Ekin | FULL AUTOMATIC PIZZA, PITA, LAHMACUN AND SIMILAR PREPARATION AND DISTRIBUTION SYSTEM |
| JP2020526460A (en) | 2017-07-07 | 2020-08-31 | ズーム,インコーポレイテッド | Containers for transporting and storing food products |
| TW201909054A (en) | 2017-07-11 | 2019-03-01 | 美商促美股份有限公司 | Multi-mode distribution system and method using kiosk and automatic distribution vehicle |
| WO2019014027A1 (en) | 2017-07-14 | 2019-01-17 | Zume Pizza, Inc. | Vending-kiosk based systems and methods to vend and/or prepare items, for instance prepared foods |
| USD900862S1 (en) | 2018-03-20 | 2020-11-03 | Zume Pizza, Inc. | Display screen with graphical user interface |
| USD884486S1 (en) | 2018-07-12 | 2020-05-19 | Zume, Inc. | Food container |
| USD918712S1 (en) | 2019-02-11 | 2021-05-11 | Zume, Inc. | Food container |
| USD992963S1 (en) | 2019-08-15 | 2023-07-25 | Zume, Inc. | Lid for a food container |
| US11224228B1 (en) | 2020-06-18 | 2022-01-18 | John Langley | Three sensor oven |
| EP4105080A1 (en) * | 2021-06-14 | 2022-12-21 | JATA GmbH | Mobile convection oven system and method for operating same |
Family Cites Families (34)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US1285304A (en) * | 1915-05-12 | 1918-11-19 | Merrill Process Company | Automobile-kitchen. |
| US1263804A (en) * | 1917-06-05 | 1918-04-23 | Anson Sherman Rice | Cooking apparatus. |
| US1263805A (en) * | 1917-08-28 | 1918-04-23 | Anson Sherman Rice | Cooking apparatus. |
| US1550638A (en) * | 1922-04-18 | 1925-08-18 | Tappan Stove Co | Army field kitchen |
| US1755593A (en) * | 1928-11-28 | 1930-04-22 | William E Cavadas | Motor-cycle vending side car |
| US2057197A (en) * | 1935-01-30 | 1936-10-13 | John M Liptay | Vending vehicle |
| US2409528A (en) * | 1944-03-13 | 1946-10-15 | Swartzbaugh Mfg Company | Food conveyer or heater |
| US2743955A (en) * | 1951-03-08 | 1956-05-01 | Corwin D Willson | Housekeeping structures |
| US2982578A (en) * | 1956-05-18 | 1961-05-02 | Roy E Lowe | Mobile catering truck equipment |
| FR1182691A (en) * | 1957-09-13 | 1959-06-26 | Device for the rapid transformation of a normal automobile van into a trailer with total interior life, with the possibility of rapid disassembly for the restoration of the normal van | |
| US3191400A (en) * | 1961-08-09 | 1965-06-29 | Sweden Freezer Mfg Co | Compact vending truck |
| US3908533A (en) * | 1973-04-04 | 1975-09-30 | Electrolux Ab | Apparatus for continuously cooking food in sequential oven section of an elongated oven |
| US3888539A (en) * | 1973-04-16 | 1975-06-10 | Robert A Niessner | Self-contained kitchen unit for a van type vehicle |
| US3991739A (en) * | 1975-07-15 | 1976-11-16 | Hoffman Jr John R | Portable kitchen |
| CH605206A5 (en) * | 1975-11-28 | 1978-09-29 | Leo P Baetschmann | Vending trailer for meat or fish |
| US4167585A (en) * | 1976-03-01 | 1979-09-11 | Heat And Control, Inc. | Method for heating and cooking foods in a closed treatment chamber by maintaining the temperature and moisture content |
| US4338911A (en) * | 1976-05-19 | 1982-07-13 | Smith Donald P | Cooking apparatus |
| US4154861A (en) * | 1976-05-19 | 1979-05-15 | Smith Donald P | Heat treatment of food products |
| DE2644070A1 (en) * | 1976-09-30 | 1978-04-06 | Peter Muetzel | Self-propelled refreshment vending vehicle - is fitted with interchangeable cooking and refrigeration units linked to central power supply |
| DE2846272A1 (en) * | 1978-10-24 | 1980-04-30 | Ratko Spasojevic | MOBILE SALES STAND |
| FR2485883A1 (en) * | 1980-04-11 | 1982-01-08 | Acmat | PANIFICATION INSTALLATION, SUCH AS ARMY COUNTRYSIDE BAKERY |
| US4377109B1 (en) * | 1981-05-22 | 1996-08-06 | Wolverine Corp | Apparatus for baking food products such as pizzas and the like |
| US4474498A (en) * | 1982-01-22 | 1984-10-02 | Smith Donald P | Multiple-pass impingement heating and cooling device |
| US4679542A (en) * | 1982-03-19 | 1987-07-14 | Donald P. Smith | Fan-plenum configuration |
| US4471750A (en) * | 1982-05-19 | 1984-09-18 | Mastermatic, Inc. | Tunnel heater |
| US4576090A (en) * | 1982-05-19 | 1986-03-18 | Mastermatic, Inc. | Tunnel heater |
| US4462383A (en) * | 1982-06-09 | 1984-07-31 | Lincoln Manufacturing Company, Inc. | Impingement food preparation apparatus |
| US4520575A (en) * | 1983-11-25 | 1985-06-04 | Cincinnati Milacron Inc. | Impingement oven and method |
| US4556046A (en) * | 1984-04-12 | 1985-12-03 | Pizza Hut, Inc. | Hood for oven in pizza delivery vehicle |
| US4632836A (en) * | 1984-04-12 | 1986-12-30 | Pizza Hut, Inc. | Pizza preparation and delivery system |
| US4626661A (en) * | 1984-04-16 | 1986-12-02 | Lincoln Manufacturing Company, Inc. | Air delivery system for an impingement food preparation oven |
| US4556043A (en) * | 1984-09-17 | 1985-12-03 | Lincoln Manufacturing Company, Inc. | Air delivery system for an impingement food preparation oven including a conical air deflector |
| US4643167A (en) * | 1985-04-02 | 1987-02-17 | Pizza Hut, Inc. | Oven ventilation system |
| CA1232305A (en) * | 1985-09-06 | 1988-02-02 | Jacobus N. Hanemaayer | Combination table support and trunk access system for a recreational vehicle |
-
1988
- 1988-10-17 US US07/258,969 patent/US4919477A/en not_active Expired - Fee Related
-
1989
- 1989-09-22 CA CA000612450A patent/CA1312642C/en not_active Expired - Fee Related
Also Published As
| Publication number | Publication date |
|---|---|
| US4919477A (en) | 1990-04-24 |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| MKLA | Lapsed |