US3135567A

US3135567A - Vending machines

Info

Publication number: US3135567A
Application number: US272095A
Authority: US
Inventors: Braunsberg Heinz
Original assignee: Individual
Current assignee: Individual
Priority date: 1963-04-10
Filing date: 1963-04-10
Publication date: 1964-06-02
Anticipated expiration: 1981-06-02

Description

H. BRAUNSBERG June 2, 19-64 VENDING MACHINES 4 Sheets-Sheet 1 Filed April 10, 1963 NVENTOR.

EINZ BRAUNSBERG 2 4 734% ATTORNEY June 2, 1964 H. BRAUNSBERG VENDING MACHINES 4 Sheets-Sheet 2 Filed April 10, 1963 1/ LZL/ 4/ 7)) June 2, 1964 H. BRAUNSBERG VENDING MACHINES 4 Sheets-Sheet 3 Filed April 10, 1963 United States Patent "ice 3,135,567 VENEING IVIAQHINES Heinz Brannsirerg, 856 Euriington Ave, Bristol, (form. Filed Apr. 10, 1963, Ser. No, 272,695 9 Claims. (CL 3l2--97..1)

This invention relates to improvements in vending machines and more particularly to improvements in com controlled machines of the bulk vending type. The machine of the present invention preferably incorporates the fundamental apparatus disclosed in my co-pending application Serial No. 106,049, filed April 27, 1961, entitled vending machines. This application constitutes a continuation-in-part of that application.

The apparatus disclosed in the above-identified application comprises a multi-layer drum. Five commodity containing compartments constitute a single layer. A simple drive and indexing means progressively advances the commodity containing drum by means of coin insertion control whereby the drum is stepped five separate times or 360 of rotation in order to deplete a particular layer of merchandise. As a result of the sixth coin insertion, a programming cam and slide cooperative therewith are actuated, whereupon the initial compartment of the next lower layer of merchandise is made available to the purchaser. Indexing and programming continue in this fashion until all layers and compartments thereof are exhausted of merchandisewhereupon a signal shall automatically so indicate.

There are presently in use numerous vending machines, most of which are particularly designed for dispensing articles that are relatively small and uniform in size, frequently relying on uniformity of commodity to effect machine operation. In contrast, the machine of this invention is arranged to dispense relatively large commodities, such commodities having no influence whatever on machine operation. Furthermore, the principles of this invention are applicable when vending articles of different sizes and shapes and remain so even though those articles may be vended at dilferent prices.

Moreover, the instant invention provides various structural innovations and improvements for machines of the aforementioned type, whereby manufacturing cost is sub stantially reduced by minimization and simplification of parts as well as the adaption of a novel geometric compartment formation. By such technique, a machine of the type disclosed herein holds a greater supply of saleable articles, requires less frequent refilling, makes possible the storage of articles having comparatively great length, yet is relatively compact and more economical to produce than known bulk vending machines now in use.

This type of machine finds particularly wide use in large apartment dwellings or Development Housing Projects where such machines are centrally located for the convenience of the tenants along with temporary rental apparatus such as clothes washers and dryers that further accompany small unit vending apparatus. Therefore, the machine of this invention has particular utility in that it is capable of dispensing relatively large commodities such as a gallon, half gallons or quarts of milk per compartment, a dozen eggs, a loaf of multiple loaves of bread, so-called six-packs of soft drinks, merely to cite a few examples. It follows therefore, that in such locations compactness of such a vending unit is not only a desirable feature but a necessary prerequisite.

In addition, bulk vending machines are attaining ever increasing popularity in outdoor usage as a welcome public convenience when conventional store purchases cannot be made during the olf hours and holidays. In this instance, it is not only highly desirable to provide a relativelyportable machine that utilizes its storage area to the most favorable advantage but also to provide ap- 3,135,567 Patented June 2, 1964 paratus that is highly reliable in operation and requires very little technical know-how for purposes of servicing.

Accordingly, it is the main object of this invention to provide a bulk vending machine that utilizes the maximum of its interior area for commodity storage and yet is of simple construction, economical to manufacture and easily serviced.

Another object is to provide such a machine wherein the vendible articles are disposed in compartments arranged in novel geometric array to so accommodate the maximum complement of merchandise per cubicfoot of area.

In keeping with the above objects, it is a further object to provide a vending machine of the rotatable drum type wherein multiple selection of vendible commodities is available at diiferent prices.

A still further object is to provide such a machine that can house and readily dispense articles of appreciable length yet retain compactness.

A still further object is to develop a commodity carrying drum in a simple and economical manner from individual and identical compartment-forming members fixed on a multiple of identical discs and to arrange each compartment location so that it projects substantially tangentially to a theoretic circumference at the center of the discs.

Another important object of this invention is to provide a vending machine having at least an upper and lower compartment available from a single dispensing door which is unlocked in response to initial coin insertion into the machine and where only one compartment is accessible during any one unlocking operation, the commodities in all other compartments being fully protected against removal.

It is yet a further object to arrange the disposition of commodities in order to permit maximum utilization of available storage space and wherein the programming and indexing mechanism in no manner encroaches on the storage area.

Other objects will be in part obvious and in part particularly pointed out hereinafter.

In the drawings, wherein is shown one of the various possible embodiments of the invention:

FIG. 1 is an overall perspective View of the machine embodying the invention wherein the main door is shown unlocked, open and the dispensing doors thereinin locked condition. The view further illustrates the start position of the dispensing drums prior to their loading and the programming mechanism in start position;

FIG. 2 is a detail perspective view of the commodity supporting drums of the invention;

FIG. 3 is a partially exploded perspective view illustrating certain elements of the programming apparatus;

FIG. 4 is a frontelevation, partially broken away, of the drums shown in FIG. 2 and includes a portion of the main door and drum housing;

FIG. 5 is a diagrammatic plan view taken substantially along lines 55 of FIG. 4 and particularly illustrates the novel disposition of one dispensing door level of the lower drum;

FIG. 6 is a partially explodedview of the compartments of FIG. 5 depicting the novel manner inwhich assembly is pursued;

FIG. 7 is a diagrammatic showing of the pertinent electro-mechanical indexing controls for the drums of the invention;

And FIG. 8 is a view similar to FIG. 2 but showing the upper drum in modified form to receive a differently shaped commodity unit.

Before describing the specific of the present invention it might prove helpful to generally review the basic operation and co-operating elements of the machine.

Referring now to the drawings and particularly to FIGURE 1, the machine incorporating the invention consists mainly of a housing 10 which may or may not be insulated, depending on the type of commodity stored therein. commodity carrying drums indicated at 12 and 14 are adapted to be individually rotated a specific angular distance within said housing in order to present the commodities to a delivery station in sequential order. The main door of the machine is generally indicated at 16 and, when closed, normally seals oif accessibility to the

drums

12 and 14. Door 16 supports the main programming apparatus, to be described, whereby each article stored within each of the drums is made individually accessible upon introduction of a coin or combination of coins deposited in the coin box 18 mounted at the inner portion of the door. The coin box 18 and the mechanism directly cooperative therewith, generally indicated at 19, may be of a commercially available type and forms no direct portion of this invention.

Dispensing

drums

12 and 14 are supported for rotatable movement on bearing

members

20 and 22, respectively, and

members

20, 22 are mounted on collars 24 fixed on a center post 26. (See particularly FIG. 4.) Center post 26 is secured by brackets 28 and 30 to upper and lower supports 32 and 34 (FIG. 2) fixed at the roof and base of the housing 10. Drum 12 has fixed at the top thereof a ring 36 and drum 14 has fixed at the bottom thereof an identical ring 38. The rotary movement of drum 12 and drum 14 is controlled by energization and deenergization of

solenoid

40 or 42, respectively (FIG. 7).

Drive wheels

44 and 46 are the fractional driving forces for the

respective drums

12 and 14 when the

individual motors

48 and 50 are energized by a coin or combination thereof being introduced into the coin box 18. The

solenoids

40 and 42 may be connected as shown in FIG. 7 and are enabled and disabled in a manner to be pointed out hereinafter.

The motor assemblies are pivotally supported at the roof and base within the cabinet 10 and each

drive wheel

40 and 42 is arranged to frictionally engage the inner portion of its

respective ring

36 and 38 under the urge of their

respective springs

52 and 54. The energization of either

motor

48 or 50 turns its

respective wheel

44 or 46 which rotates its

respective drum

12 or 14 to a new dispensing position.

Fixed at top of drum 12 and extending upwardly therefrom is tab 56 and fixed to the underside of drum 14 and projecting downwardly therefrom is a tab 58, the function of each to be explained hereinafter.

Fixed to the inner portion of main door 16 by welding or the like is a length of angle iron 60 which together with the main door 16 support a series of spring-urged door latches 62 each of which normally holds a delivery door 64, in locked position, as shown in FIG. 5, against the urge of its compression spring 63. Each delivery door 64 is hingedly mounted on the main door, as indicated at 66. In the preferred embodiment each door 64 is so positioned as to register with two levels of compartments, which, as will be seen, is an important feature of this invention. The doors are spring urged to the closed position as shown in FIG. 5 by standard torsion springs (not shown) mounted within the hinges. It will be particularly noted that the exit area of the delivery doors are angled or beveled to facilitate direct line commodity removalfrom the compartments.

The main door 16 also supports as upper program cam 68 and a lower program cam 70. Each cam is mounted for free rotation on its individual support 72, 73. Cams 68 and 70 are idential and may be of aluminum casting. Cam 68 is provided with a multiple of studs 68a and cam 70 with a multiple of studs 70a. In addition, cam 68 has a multiple of levels 74 and cam 70 a multiple of levels 75, as indicated in FIG. 3. The purpose of cams, studs and levels thereof to be later described.

Mounted at the inner portion of main door 16 are a pair of program bars 78 and 80. Bar 78 which controls the upper group of delivery doors 64 has secured to the upper part thereof an arm 82 which is adapted to rest on the highest level 74 of upper cam 68 when bar 78 is in its fully elevated position, indicating that drum 12 is fully stocked and is at start or home position. Program bar 80 has secured to the lower portion thereof an arm 84 which rests on the highest level 75 of cam 70 when the lower drum is at its home position.

Bars 78 and 80 each may be guided by studs 78a and 80a, respectively, fixed therein where are guidingly arranged in slots formed in angle iron 60. Each bar 78 and 80 is also provided with differentially spaced indentations 86 and 88, respectively. When either bar 78 or 80 is lowered, an indentation 86 or 88 is aligned with a door latch 62 whereupon a delivery door 64 is liberated through the action of spring 63. For example, unlatching of the top door 64 renders one compartment 12a or 121) of the upper two shelves of drum 12 available and, therefore, the commodity stored therein accessible after drum 12 has been rotated off home position by the expedient of inserting a coin or group thereof into coin box 18.

Also mounted at the inner portion of the main door 16 is a plate 90 (FIG. 1) which fixedly mounts a group of spaced switches 92. The switches are so positioned as to cooperate with a group of protrusions 94 formed in upper program bar 78 and a group of protrusions 96 formed in lower program bar 80. Protrusions 94 and 96 sequentially actuate the switches 92 at each program step of bar 78 or bar 80, as will be further explained below. A series of lamps 98, mounted at the level of each delivery door 64, are electrically and individually controlled by each of the switches 92, during each program step of program bar 78 or 80. A main cable 100 is connected to a source of current and supplies power to all components of the machine during operation.

With the drums of the machine in home position and referring particularly to the schematic diagram of FIG. 7, insertion of a coin or combination thereof representing a predetermined value into the coin box 18 of FIG. 1 will cause momentary closure of upper switch 102. Such closure supplies current to a relay 104 via conductor 106. A circuit to relay 104 is completed through conductor 108 and connecting line 110 to the common side of the circuit. Upon energization of relay 104, points 104a and 1041) thereof close. Points 104a provides a holding circuit for relay 104 by way of conductor 112, a switch 114 which is fixed within main housing 10 and a conductor 116 which is connected to the current supply. Switch 102 may now open and relinquish control over relay 104 during the immediate dispensing operation.

Closure of points 104b provides current for solenoid 40 and motor 48 via the current input, through conductor 116, switch 114, conductor 112, closed points 104a and 104b, a conductor 116, connecting line 118 to solenoid 40, and from conductor 116 to the motor 48. A circuit is completed to solenoid 40 via conductor 108 and a connecting line 120. The circuit to motor 48 is completed via conductor 108 and connecting line 122.

Energization of solenoid 40 and motor 48 causes the solenoid armature 40a to be withdrawn from an opening 36a in upper ring 36 against the urge of the solenoid spring while simultaneously the motor 48 rotates its drive wheel 44 clockwise, as viewed in FIG. 7.

Still referring to FIG. 7, the drive wheel 44, by means of frictional engagement with ring 36 rotates drum 12 fixed thereto an angular amount of movement whereby upper tab 56 (FIG. 1) engages upper stud 68a on cam 68 and thereby rotates said cam allowing program bar 78 to drop to the next lower level of cam 68. Wheel 44 continues to drive drum 12 until opening 36a in ring 36 reaches the spring-strap of switch 114 whereupon the contacts thereof are momentarily opened. At such time the circuit that existed to relay 104 and motor 48 via switch 114 and relay point 104:: is opened causing points 104a and limb to open. Switch 114 will again close, however, as the drum 12 travels by momentum, to condition the circuit for the next dispensing operation. Deenergization of solenoid 40 allows its spring to actuate armature 40a forward whereby said armature enters the approaching opening in ring 36 and arrests the drum 12, motor 48 now deenergized. The usual means are provided (but not disclosed) to indicate when the stored commodities are exhausted whereby the indexing and programming mechanisms are disabled and coins that are inadvertently inserted into the coin box are automatically returned.

The control circuit for the lower drum 14 operates in precisely the same manner as does the above described circuit for drum 12 with the exception that the lower switch closing may be responsive to a coin combination of different value.

However, with the rotation of cam 68 by tab 56 (see FIGS. 1, 2 and 3), upper program bar 73 drops by gravity a short distance as defined by the next level of cam 68. As a result of such movement, indentation 36 of bar 78 aligns with door latch 62 of the topmost delivery door 64. Compression spring 63 is now eifective to remove latch 62 (rightwardly in FIG. 5) whereupon the door 64 may now be opened and the commodity in compartment 12b may be removed by the purchaser, the exit area adjacent door 64 being particularly beveled to facilitate unhindered removal.

Furthermore, the upper protrusion 94 of upper program bar 78 engages the operating strap of upper switch 92 and causes the lamp 9% associated therewith to light. Switch 92 is then held operated so long as any commodity remains in upper compartments 12a or 121') and upper lamp 9% indicates that upper delivery door is the dispensing exit. The upper door now remains unlatched after the commodity is removed but closed under the urge of its spring hinge. All other delivery doors 64 remain latched.

As can be appreciated by reference to the drawings only a single compartment is accessible for commodity removal while all other compartments are concealed. With particular reference to FIGS. 4, 5 and 6 it is readily apparent that while a single delivery door 64 accommo-' dates two levels of compartments (12a and 12b) only the commodity of a single compartment and level is available per step of drum '12. A subsequent rotation of drum 12 is necessary before the adjacent compartment and alternate level is aligned with delivery door 64.

The novel manner in which such selection and isolation is achieved while still retaining the maximum available drum area for commodity storage space forms an important part of this invention, as pointed out in the objects. With particular reference to FIG. 6 where- 6 may be fixed, again by spot welding, to the tangentially disposed long leg 136 of its neighbor, as in FIG. 6.

Upper disc 126 of FIG. 6 is then placed on the lower array of compartment-forming members 128 and may be spot welded to the upper tabs 136a and 132a of long legs 130 and short legs 132, respectively. Upper disc 126 now forms the top cover or upper enclosure for the compartments established by the lower compartmentforming members 128 while the lower disc 126 serves as the lower enclosure therefor. Tabs 136 may be spot welded to the webs 134 of the upper compartment-forming members 128, as shown in FIG. 6. Tabs 136 may be arranged to fit between the outer periphery of upper disc 126 and the inner portion of lower webs 134 and then be spot welded thereto. Discs 126 are provided with a central hole therein to receive center post 26.

Thus two levels which may consist of ten compartments are formed for lower drum 14 with each compartment substantially 36 degrees, center to center, apart. Accordingly, subsequent layers are built up in the same fashion until the drum 14 shown in FIG. 2 is achieved. Ring 38 and tab 58 are fixed to the underside of the bottom disc 126 to complete the sub-assembly. Upper drum 12 is constructed in a like manner with ring 36 and tab 56 fixed to the upper disc thereof.

Drums

12 and 14 are then mounted on center post 26, as previously described, and set within the housing 10 and conditioned for vending.

FIG. 8 illustrates one example modification whereby the upper and lower compartments may support different type and form of commodities. The upper drum 140 may constitute compartments 142 disposed in substantially tangential array about center post 26 in order to most efiiciently utilize the available storage area. With such construction, drum 140 may accommodate six compartments stocked with milk or beverage six-packs per layer while the machine of Serial No. 106,049 referred to earlier herein may only accommodate five compartments per layer for the same size drum. The lower drum may be the same as drum 14 of FIG. 2 and accommodate, for example cartons containing each a dozen eggs.

In a manner of summarizing, and with particular ref- I erence to the diagrammatic showing of FIG. 5, the imin is illustrated a partially exploded view of the two lowest levels or shelves of drum 1 which is constructed in a simple and economical manner by use of a series of identical discs 126 and identical compartment-forming members 128. The discs are of predetermined, reasonably constant diameter and constitute the upper and lower enclosures for the compartments while each memher 128 is identically formed in a jig to the configuration shown in FIG. 6, with one long leg 13% and a short leg 132 joined by a web 134, the free end of short leg 132 being spot welded to leg 136 as at 133.

Legs

130 and 132 form the lateral enclosures for the compartments while web 134 the compartment isolator.

In fabricating, the lowest disc 126 has mounted there on as by spot welding or the like five compartment-forming members 128. In mounting, each adjacentlong leg 130 is disposed 72 apart and substantially tangential to an inscribed or imaginary circle of predetermined diameter at the center of disc 126 as can be seen in the diagrammatic showing of FIG. 5. Such setting may be accomplished by use of a simple template to facilitate fabrication and the free end of each adjacent leg 139 portance of the novel tangential setting of the compartments is emphasized. It can also now be appreciated that articles of relatively short depth and substantial length may be accommodated while maximum shelf area is utilized for storage. It is also now apparent that a single delivery door may accommodate at least two levels or shelves of compartments and that the programming and indexing mechanisms in no way encroach on the storage area of the machine.

Having described the invention by making detailed reference to preferred forms of the elements thereof it is obvious that various modifications may be made without departing from the spirit of the invention. It is therefore understood that this invention is not limited to the exact arrangement disclosed except as limited by the state of the art to which this invention pertains.

What is claimed is: I 1. A bulk vending machine having a cabinet with a main door and at least one delivery door from which selectively exposed commodities may be removed from individual compartments, a drum within said cabinet composed of said compartments, means including a center post for effective step-by-step rotation of said drum; the improved combination comprising,

said drum having a plurality of shelves at said delivery door level to support a multiple of commodities,

compartment-forming means cooperative with said shelves to segregate said commodities and cause the disposition'of each of said commodities on each of said shelves to lay substantially tangential to said center post,

and means including said compartments and shelves to conceal all compartments at said delivery door level except the compartment selectively exposed.

2. The combination defined in claim 1 and means including,

a latch under control of a slide and cam for liberating said delivery door to selectively expose said commodities for removal.

3. The combination defined in claim 2 and,

illuminating means effective under control of said slide and cam to indicate when said delivery door is liberated and extinguished when said delivery door is not.

4. The combination defined in claim 2 and,

indexing means controlling said step-by-step rotation of said drum to expose alternate shelves at said delivery door following each rotational step.

5. A bulk vending machine having a cabinet with a main door and a multiple of delivery doors at different vertical levels from which selectively exposed commodities may be removed from individual compartments; the improved combination comprising,

a multiple of drums Within said cabinet,

means including a center post for effecting selective step-by-step rotation of said drums,

each of said drums having a plurality of shelves at each delivery door level to support a multiple of commodities,

compartment-forming means cooperative with said shelves to segregate said commodities and cause the disposition of each of said commodities on each of said shelves to lay substantially tangential to said center post,

and means including said compartments and shelves to conceal all compartments of said drums except the compartment selectively exposed.

6. The combination defined in claim 5 and means including,

a latch for each of said delivery doors and control means therefor to selectively expose said commodities for removal.

7. The combination defined in claim 6 and,

individually selective indexing means for each of said drums for controlling selectively their step-by-step rotation.

8. A bulk vending machine having a cabinet with a main door, a multiple of delivery doors and an exit area adjacent each delivery door, a step-by-step rotatable drum within said cabinet having a plurality of shelves composed of individual compartments, means to rotate said drum, a center post mounted in said cabinet, means on said center post for mounting said drum for rotation; the improved combination comprising,

a multiple of compartment-forming members each having a multiple of legs joined by a web,

disc units serving as upper and lower enclosures for said compartments,

each disc unit having substantially equal outer peripheries and a hole in the center to receive said center post,

said compartment-forming members fixed on said discs so that each of said webs is positioned in approximate concentricity with said outer periphery of each of said discs,

and said legs joined to form individual side and depth enclosures for said compartments.

9. A bulk vending machine having a cabinet with a main door, a multiple of delivery doors and an exit area adjacent each delivery door, a step-by-step rotatable drum within said cabinet having a plurality of shelves composed of individual compartments, means to rotate said drum, a center post mounted in said cabinet, means on said center post for mounting said drum for rotation; the improved combination comprising,

a multiple of substantially identically contoured compartment-forming members each having two legs joined by a web,

a multiple of disc units of substantially identical contour having outer peripheries substantially equal and serving as upper and lower enclosures for said compartments,

said compartment-forming members fixed on said discs so that each said web is positioned in approximate concentricity with said outer periphery of each of said discs,

and said legs joined to form individual side and depth enclosures for said compartments whereby said side enclosures lay substantially tangential to said center post and said depth enclosures terminate said compartments which extend inwardly beyond said center post.

No references cited.

Claims

1. A BULK VENDING MACHINE HAVING A CABINET WITH A MAIN DOOR AND AT LEAST ONE DELIVERY DOOR FROM WHICH SELECTIVELY EXPOSED COMMODITES MAY BE REMOVED FROM INDIVIDUAL COMPARTMENTS, A DRUM WITHIN SAID CABINET COMPOSED OF SAID COMPARTMENTS, MEANS INCLUDING A CENTER POST FOR EFFECTIVE STEP-BY-STEP ROTATION OF SAID DRUM; THE IMPROVED COMBINATION COMPRISING, SAID DRUM HAVING A PLURALITY OF SHELVES AT SAID DELIVERY DOOR LEVEL TO SUPPORT A MULTIPLE OF COMMODITIES, COMPARTMENT-FORMING MEANS COOPERATIVE WITH SAID SHELVES TO SEGREGATE SAID COMMODITIES AND CAUSE THE DISPOSITION OF EACH OF SAID COMMODITIES ON EACH OF SAID SHELVES TO LAY SUBSTANTIALLY TANGENTIAL TO SAID CENTER POST, AND MEANS INCLUDING SAID COMPARTMENTS AND SHELVES TO CONCEAL ALL COMPARTMENTS AT SAID DELIVERY DOOR LEVEL EXCEPT THE COMPARTMENT SELECTIVELY EXPOSED.