US2702508A - Hydraulic control system for adjustable hospital beds - Google Patents

Hydraulic control system for adjustable hospital beds Download PDF

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US2702508A
US2702508A US91198A US9119849A US2702508A US 2702508 A US2702508 A US 2702508A US 91198 A US91198 A US 91198A US 9119849 A US9119849 A US 9119849A US 2702508 A US2702508 A US 2702508A
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bed
hydraulic
patient
head
motor
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Peterson James Lloyd
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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61GTRANSPORT, PERSONAL CONVEYANCES, OR ACCOMMODATION SPECIALLY ADAPTED FOR PATIENTS OR DISABLED PERSONS; OPERATING TABLES OR CHAIRS; CHAIRS FOR DENTISTRY; FUNERAL DEVICES
    • A61G7/00Beds specially adapted for nursing; Devices for lifting patients or disabled persons
    • A61G7/002Beds specially adapted for nursing; Devices for lifting patients or disabled persons having adjustable mattress frame
    • A61G7/018Control or drive mechanisms

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  • This invention relates to hydraulically operated hospital beds and particularly concerns an improved control system whereby the patient may easily and safely operate the bed to any desired position.
  • the bed spring is adjustable in two ways.
  • the head of the bed spring may be raised upwardly so the whole head end portion of the bed is raised to lift the upper part of the patients body above a horizontal position.
  • a portion of the bed spring below the patients knees is raised upwardly by turning the center portion of the bed spring about a pivot in the frame, and permitting the foot end of the bed spring to slide horizontally along the frame.
  • my earlier Patent No. 2,263,784 there is shown an arrangement in which a hydraulic pump supplies hydraulic fluid pressure to two separate hydraulic cylinders for individually operating the bed spring in its two above-described movements.
  • an object of this invention to provide an electrical control box containing switches for electrically controlling upward and downward movements of the head end of the bed spring, and upward and downward movements of the knee portion of the bed spring.
  • FIG. 1 is a top plan view of a hospital bed embodying the invention in its preferred form
  • Fig. 2 is a schematic diagram of the hydraulic system with the electrical controls therefor;
  • Fig. 3 is an enlarged plan view of the electrical control box shown in Fig. 1.
  • movements of the two portions of the bed spring are controlled by a pair of independent hydraulic cylinders and the pistons therein. These cylinders are respectively connected by hydraulic couplings to opposite sides of an electrically driven gear type hydraulic pump.
  • an electrically driven gear type hydraulic pump With 2,702,508 Patented Feb. 22, 1955 this arrangement, the supply of hydraulic fluid to one cylinder or the other is determined by the direction of rotation of the gear pump which, in turn, is determined by the direction in which the electric motor is driven.
  • a pair of switches in a control box conveniently accessible to a patient in the bed are connected in an electrical circuit to start the motor in one direction or the other dependent upon whether the patient wishes to raise the head or the foot portion of the bed spring.
  • a branch coupling is connected between each of the hydraulic couplings and a sump. Solenoid operated valves in these branch couplings respectively control the exhaust of fluid pressure from the two cylinders. A second pair of switches in the control box are electrically connected to operate either of these two valves, depending upon whether the patient wishes to lower his head or his knees.
  • Check valves are inserted in the hydraulic couplings between the branch couplings and the gear pump to prevent undesired exhaust of fluid pressure from the hydraulic cylinders.
  • FIG. 1 a hospital bed is illustrated having a bedstead with head and foot portions 11 and 12, connected by side frame members 13 and 14.
  • a bed spring on the bedstead has stationary side frame members 15 and 16 and a central portion of the bed is pivotally connected at 17, 17, to a head frame having side members 18 and 19 connected by a transverse head member 21.
  • the bed spring frame has intermediate portions 22 and 23, pivotally connected at 24, 24, to the other ends of side frame members 13 and 14, and also pivotally connected at 25, 25, to side frame members 26 and 27 of a foot frame having a transverse foot member 28.
  • a rotatable shaft 29 journaled in a bracket (not shown), below the bedstead, has a pair of lever arms 31 and 32, fixed thereto, and pivotally connected to links 33 and 34 which are,
  • the shaft 29 may be turned by a hydraulic cylinder 34 to raise or lower the head frame.
  • the hydraulic cylinder 34 has its closed end pivoted at 35, to a lever 36, fixed by a collar 37, to the shaft 29.
  • a piston 38 has its piston rod 39 secured to a collar 41 rotatable on another shaft 42 similar to the shaft 29.
  • the shaft 42 has lever arms 43 and 44 fixed thereto and pivoted at 45, 45, to links 46 and 47 which are, in turn, pivoted at 48, 48, to the intermediate side frame members 22 and 23.
  • a hydraulic cylinder 51 has its closed end pivoted at 52, to a lever arm .53, secured by a collar 54, to the shaft 42.
  • a piston 55 has its piston rod 56 secured to a collar 57 rotatable on the shaft 29.
  • a motor pump unit 61 consisting of an electric motor 62 and a hydraulic gear pump 63 is suspended by springs 64, 64, from crosspieces 65 and 66 of the bed frame.
  • the gear pump 63 is connected by hydraulic couplings 71 and 72 to hydraulic cylinders 51 and 34, respectively.
  • Control of the movements of the bed spring is eflected by electric switches in a control box 73 which may be connected through an electric cable 74 to the motor pump unit 61.
  • Fig. 2 shows, diagrammatically, the hydraulic and electrical circuits.
  • the reversable electric motor 62 drives through a shaft 75 to rotate the gears 76 and 77 of the gear pump.
  • the gear pump includes a sump or reservoir 78, which is connected by conduits 79 and 81, to the gears 77 and 76, respectively.
  • Hydraulic oil supplied from the sump 78 to the gears es are normally biased to open positions.
  • a ball check valve 88 is positioned in the hydraulic coupling 71, between the branch coupling 82 and the gear pump, to prevent flow of hydraulic oil to the pump.
  • a similar ball check valve 89 is arranged in the hydraulic coupling 72, between the branch coupling 83 and the pump.
  • Electric power for operating the motor 62 and the solenoids 86 and 87 may be supplied from any suitable source, as represented by terminals 91 and 92.
  • the supply of electric power to the motor 62 is controlled by either of two push button switches 93 or 94. Both of these switch- Closure of the switch 93 connects the motor 62 in one way to the source of power and depression of the switch 94 reverses these connections to cause the opposite direction of rotation of the motor.
  • the solenoid 86 may be connected to the source of electric power by push button 95 and the solenoid 87 may be similarly connected by a push button 96. Both of these push buttons are normally biased to open position. If the patient desires to lower his head, he depresses push button 96, which energizes solenoi 87, to open the valve 83 and permit the exhaust of oil from the hydraulic cylinder 34, through a portion of hydraulic coupling 72 and the branch coupling 83, to the sump 78. Upon release of the push button 96, downward movement of the head of the bed spring will be arrested, so the patients head will be held in any desired position. To lower the knee portion of the bed spring, the patient depresses push button 95, which actuates solenoid 86 to open valve 84, and permits the exhaust of hydraulic oil from the cylinder 51 through the branch conduit 82 to the sump 78.
  • the four push buttons are conveniently arranged in the control box 73, which is placed adjacent the head end of the bed, where it is readily accessible to the patient. Movements of the head and/or knee portion of the bed spring are etfected only during that interval which the patient depresses one of the push buttons of the control box. Immediately upon release of the push button, the electrical circuits are opened and all movements of the bed spring cease. With this arrangement, the movements are positively controlled by the patient, so the bed is entirely safe and there is no danger of continued operation after the patent releases the push button. It is unnecessary for the patient to take any positive action to prevent further movement of the bed spring.
  • a motor pump unit comprising a gear pump including a pair of meshed gears, pump housing means providing a chamber closely confining said gears, sump means, first liquid conduit means connecting said sump means to said chamber at a point adjacent the periphery of one of said gears remote from the zone of meshing of said gears, sec ond liquid conduit means connecting said sump means to said chamber at a point adjacent the periphery of the other of said gears remote from the zone of meshing of said gears, first pressure outlet conduit means extending from said chamber from a point at one side of the zone of meshing of said gears, first by-pass conduit means including a valve connecting said first pressure outlet conduit means to said sump means, second pressure outlet conduit means extending from said chamber from a point at the other side of the zone of meshing of said gears, second bypass conduit means including a valve connecting said second pressure outlet conduit means to said sump means, a check valve in each of said pressure outlet conduit means between said chamber and the point of connection of the associated by-pass conduit therewith,

Description

J. L. PETERSON Feb. 22, 1955 HYDRAULIC CONTROL SYSTEM FOR ADJUSTABLE HOSPITAL BEDS Filed May 3, 1949 J M 4 1 H I 1 l l l I! p, I l
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ATTOR N EYS United States Patent HYDRAULIC CONTROL SYSTEM FOR ADJUSTABLE HOSPITAL BEDS James Lloyd Peterson, Preston, Idaho Application May 3, 1949, Serial No. 91,198
1 Claim. (Cl. 103-3) This invention relates to hydraulically operated hospital beds and particularly concerns an improved control system whereby the patient may easily and safely operate the bed to any desired position.
In hospital beds of the type to which this invention relates, the bed spring is adjustable in two ways. First, the head of the bed spring may be raised upwardly so the whole head end portion of the bed is raised to lift the upper part of the patients body above a horizontal position. Second, a portion of the bed spring below the patients knees is raised upwardly by turning the center portion of the bed spring about a pivot in the frame, and permitting the foot end of the bed spring to slide horizontally along the frame. In my earlier Patent No. 2,263,784, there is shown an arrangement in which a hydraulic pump supplies hydraulic fluid pressure to two separate hydraulic cylinders for individually operating the bed spring in its two above-described movements.
In the control of these hydraulic cylinders, it is necessary, first, that all controls be conveniently accessible to a patient in the bed and, secondly, that the movements of the bed be effected only when the patient desires them. It is essential that, when the patient releases the control, the movement of the bed be arrested. It is important that the controls be positive and that there be no danger of the bed continuing to move when not so desired by the patient.
It is, therefore, a major object of this invention to provide an improved control system for a hydraulically operated hospital bed wherein the controls are centered at a position convenient for operation by the patient and in 'which the patient has positive control over the operation.
More specifically, it is an object of this invention to provide an electrical control box containing switches for electrically controlling upward and downward movements of the head end of the bed spring, and upward and downward movements of the knee portion of the bed spring.
In accordance with these objects, important features of this invention reside in the connection of the two hydraulic cylinders of the bed to opposite sides of a gear type electrically driven pump. The selection of the cylinder to be operated, that is the end of the bed to be raised, is determined by the direction in which the motor is driven. The patient in the bed may select either of two switches in the control box to start the motor running in one direction or the other. Lowering movements of the bed are controlled by solenoid operated valves in the hydraulic conduits connecting the hydraulic cylinders to a sump or reservoir. Two switches in the control box may be operated to selectively operate either of these solenoid valves whereby either the head or the knee portion of the bed spring may be lowered.
Other objects and advantages of theinvention will become apparent from the following specification taken in connection with the accompanying drawing wherein Figure 1 is a top plan view of a hospital bed embodying the invention in its preferred form;
Fig. 2 is a schematic diagram of the hydraulic system with the electrical controls therefor; and
Fig. 3 is an enlarged plan view of the electrical control box shown in Fig. 1.
In accordance with the preferred form of the invention, movements of the two portions of the bed spring are controlled by a pair of independent hydraulic cylinders and the pistons therein. These cylinders are respectively connected by hydraulic couplings to opposite sides of an electrically driven gear type hydraulic pump. With 2,702,508 Patented Feb. 22, 1955 this arrangement, the supply of hydraulic fluid to one cylinder or the other is determined by the direction of rotation of the gear pump which, in turn, is determined by the direction in which the electric motor is driven. A pair of switches in a control box conveniently accessible to a patient in the bed are connected in an electrical circuit to start the motor in one direction or the other dependent upon whether the patient wishes to raise the head or the foot portion of the bed spring. A branch coupling is connected between each of the hydraulic couplings and a sump. Solenoid operated valves in these branch couplings respectively control the exhaust of fluid pressure from the two cylinders. A second pair of switches in the control box are electrically connected to operate either of these two valves, depending upon whether the patient wishes to lower his head or his knees. Check valves are inserted in the hydraulic couplings between the branch couplings and the gear pump to prevent undesired exhaust of fluid pressure from the hydraulic cylinders.
For a detailed description of the invention reference may be had to the accompanying drawings. In Fig. 1 a hospital bed is illustrated having a bedstead with head and foot portions 11 and 12, connected by side frame members 13 and 14. A bed spring on the bedstead has stationary side frame members 15 and 16 and a central portion of the bed is pivotally connected at 17, 17, to a head frame having side members 18 and 19 connected by a transverse head member 21. The bed spring frame has intermediate portions 22 and 23, pivotally connected at 24, 24, to the other ends of side frame members 13 and 14, and also pivotally connected at 25, 25, to side frame members 26 and 27 of a foot frame having a transverse foot member 28.
To raise the head frame of the bed spring, a rotatable shaft 29 journaled in a bracket (not shown), below the bedstead, has a pair of lever arms 31 and 32, fixed thereto, and pivotally connected to links 33 and 34 which are,
in turn, pivoted to a mid-portion of the side members 18 and 19 of the head frame. The shaft 29 may be turned by a hydraulic cylinder 34 to raise or lower the head frame. The hydraulic cylinder 34 has its closed end pivoted at 35, to a lever 36, fixed by a collar 37, to the shaft 29. A piston 38 has its piston rod 39 secured to a collar 41 rotatable on another shaft 42 similar to the shaft 29.
It will be apparent, that the application of hydraulic fluid to the cylinder 34 will move the piston 38, and the piston rod 39, to cause movement of the lever 36, which will turn the shaft 29, with its links 31 and 32, and raise the head frame of the bed spring.
The shaft 42 has lever arms 43 and 44 fixed thereto and pivoted at 45, 45, to links 46 and 47 which are, in turn, pivoted at 48, 48, to the intermediate side frame members 22 and 23. To turn the shaft 42, a hydraulic cylinder 51 has its closed end pivoted at 52, to a lever arm .53, secured by a collar 54, to the shaft 42. A piston 55 has its piston rod 56 secured to a collar 57 rotatable on the shaft 29. Thus, application of fluid pressure to the cylinder 51 will cause turning movements of the lever arm 53 and the shaft 42 to raise the intermediate frame members 22 and 23 and thereby lift the knee portion of the bed, the foot of the bed sliding horizontally along the bedstead away from the foot 12 of the bedstead.
A motor pump unit 61 consisting of an electric motor 62 and a hydraulic gear pump 63 is suspended by springs 64, 64, from crosspieces 65 and 66 of the bed frame. The gear pump 63 is connected by hydraulic couplings 71 and 72 to hydraulic cylinders 51 and 34, respectively.
Control of the movements of the bed spring is eflected by electric switches in a control box 73 which may be connected through an electric cable 74 to the motor pump unit 61.
For a better understanding of the control of the motor pump unit, reference may be had to Fig. 2, which shows, diagrammatically, the hydraulic and electrical circuits. The reversable electric motor 62 drives through a shaft 75 to rotate the gears 76 and 77 of the gear pump. The gear pump includes a sump or reservoir 78, which is connected by conduits 79 and 81, to the gears 77 and 76, respectively.
Hydraulic oil, supplied from the sump 78 to the gears es are normally biased to open positions.
of the pump, is fed under pressure from opposite sides of the gear pump through conduits 71 and 72 to the hydraulic cylinders 51 and 34, respectively. Connected between these hydraulic couplings 71 and 72 and the sump 78 are a pair of branch couplings 82 and 83, in which are inserted control valves 84 and 85, respectively, operated by solenoids 86 and 87. A ball check valve 88 is positioned in the hydraulic coupling 71, between the branch coupling 82 and the gear pump, to prevent flow of hydraulic oil to the pump. A similar ball check valve 89 is arranged in the hydraulic coupling 72, between the branch coupling 83 and the pump.
Electric power for operating the motor 62 and the solenoids 86 and 87 may be supplied from any suitable source, as represented by terminals 91 and 92. The supply of electric power to the motor 62 is controlled by either of two push button switches 93 or 94. Both of these switch- Closure of the switch 93 connects the motor 62 in one way to the source of power and depression of the switch 94 reverses these connections to cause the opposite direction of rotation of the motor.
If the patient wishes his head raised, he depresses push button 93 which causes the motor to be driven in a direction to turn the gears of the gear pump so fluid pressure is supplied to conduit 72. Ball check valve 88 prevents the flow of fluid pressure from the conduit 71. This fiuid pressure from conduit 72 acts on piston 38 to raise the head frame. When his head is high enough, the patient releases the push button and the head frame remains in the selected position.
If the patient wishes his knees raised, he pushes the push button 94, which causes a reverse direction of rotation of the motor, so hydraulic oil is supplied under pressure through conduit 71, to the hydraulic cylinder 51. Movement of the piston in that hydraulic cylinder turns the shaft 32 and raises the knee portion of the bed spring to raise the knees of the patient.
The solenoid 86 may be connected to the source of electric power by push button 95 and the solenoid 87 may be similarly connected by a push button 96. Both of these push buttons are normally biased to open position. If the patient desires to lower his head, he depresses push button 96, which energizes solenoi 87, to open the valve 83 and permit the exhaust of oil from the hydraulic cylinder 34, through a portion of hydraulic coupling 72 and the branch coupling 83, to the sump 78. Upon release of the push button 96, downward movement of the head of the bed spring will be arrested, so the patients head will be held in any desired position. To lower the knee portion of the bed spring, the patient depresses push button 95, which actuates solenoid 86 to open valve 84, and permits the exhaust of hydraulic oil from the cylinder 51 through the branch conduit 82 to the sump 78.
As illustrated in Fig. 3, the four push buttons are conveniently arranged in the control box 73, which is placed adjacent the head end of the bed, where it is readily accessible to the patient. Movements of the head and/or knee portion of the bed spring are etfected only during that interval which the patient depresses one of the push buttons of the control box. Immediately upon release of the push button, the electrical circuits are opened and all movements of the bed spring cease. With this arrangement, the movements are positively controlled by the patient, so the bed is entirely safe and there is no danger of continued operation after the patent releases the push button. It is unnecessary for the patient to take any positive action to prevent further movement of the bed spring.
Furthermore, this simplified control of the hydraulic system may be more economically manufactured and less likely to require service or will require service at less frequent intervals. It is not necessary to have precise adjustments of the controls because the only controls are ordinary electric push button switches which are well developed and available on the market.
What is claimed is:
A motor pump unit comprising a gear pump including a pair of meshed gears, pump housing means providing a chamber closely confining said gears, sump means, first liquid conduit means connecting said sump means to said chamber at a point adjacent the periphery of one of said gears remote from the zone of meshing of said gears, sec ond liquid conduit means connecting said sump means to said chamber at a point adjacent the periphery of the other of said gears remote from the zone of meshing of said gears, first pressure outlet conduit means extending from said chamber from a point at one side of the zone of meshing of said gears, first by-pass conduit means including a valve connecting said first pressure outlet conduit means to said sump means, second pressure outlet conduit means extending from said chamber from a point at the other side of the zone of meshing of said gears, second bypass conduit means including a valve connecting said second pressure outlet conduit means to said sump means, a check valve in each of said pressure outlet conduit means between said chamber and the point of connection of the associated by-pass conduit therewith, a motor, means drivingly connecting said motor to said gears, means for reversing the direction of drive of said pump gears, and means for selectively operating the valves in said by-pass conduit means.
References Cited in the file of this patent UNITED STATES PATENTS 1,595,381 Christensen Aug. 10, 1926 1,687,523 Staude Oct. 16, 1928 1,948,951 Walker Feb. 27, 1934 2,047,898 Staude July 14, 1936 2,065,912 Staude Dec. 29, 1936 2,168,649 Johnson Aug. 8, 1939 2,193,497 Spire Mar. 12, 1940 2,263,784 Peterson Nov. 25, 1941 2,311,864 Parsons Feb. 23, 1943 2,389,164 Payne Nov. 20, 1945 FOREIGN PATENTS 126,594 Great Britain May 15, 1919 253,397 Germany Nov. 1912
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Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2928243A (en) * 1958-03-12 1960-03-15 Roper Hydraulics Inc Pump control system
US3127619A (en) * 1958-06-02 1964-04-07 United States Bedding Co Contour bed
US3191195A (en) * 1962-03-08 1965-06-29 Royalmetal Corp Bed construction
US3311933A (en) * 1965-08-12 1967-04-04 James L Peterson Patient controlled power operated kit for hospital bed
US3324484A (en) * 1965-08-13 1967-06-13 Royalmetal Corp Adjustable bed
US3368845A (en) * 1965-03-18 1968-02-13 Shin Meiwa Ind Co Ltd Hydraulic adjustment barber chair
US3724003A (en) * 1971-07-08 1973-04-03 Bosch Gmbh Robert Hydraulic adjusting apparatus for hospital beds or the like
US4406123A (en) * 1980-02-19 1983-09-27 Kabushiki Kaisha Morita Seisakusho Hydraulically-actuated control device for operation unit in treatment chair and the like

Citations (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE253397C (en) *
GB126594A (en) * 1919-02-11 1919-05-15 Percival John Mcdermott Improvements in Rotary Engines.
US1595381A (en) * 1924-05-07 1926-08-10 Niels A Christensen Oil pump
US1687523A (en) * 1926-02-15 1928-10-16 Edwin G Staude Fluid-pressure pump for power-propelled vehicle-controlling means
US1948951A (en) * 1929-08-21 1934-02-27 Walker Brooks Hydraulic power unit
US2047898A (en) * 1932-06-06 1936-07-14 Edwin G Staude Power amplifying device
US2065912A (en) * 1932-06-06 1936-12-29 Edwin G Staude Pump construction
US2168649A (en) * 1937-07-03 1939-08-08 John A Johnson Invalid bed accessory
US2193497A (en) * 1936-03-19 1940-03-12 Thompson Prod Inc Hydraulic system
US2263784A (en) * 1939-07-21 1941-11-25 Peterson James Lloyd Operating unit for adjustable redframes
US2311864A (en) * 1940-11-13 1943-02-23 John B Parsons Regulator for vehicle windows or the like
US2389164A (en) * 1944-09-11 1945-11-20 Payne William Harvey Mechanism for supporting and automatically adjusting arc furnace electrodes

Patent Citations (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE253397C (en) *
GB126594A (en) * 1919-02-11 1919-05-15 Percival John Mcdermott Improvements in Rotary Engines.
US1595381A (en) * 1924-05-07 1926-08-10 Niels A Christensen Oil pump
US1687523A (en) * 1926-02-15 1928-10-16 Edwin G Staude Fluid-pressure pump for power-propelled vehicle-controlling means
US1948951A (en) * 1929-08-21 1934-02-27 Walker Brooks Hydraulic power unit
US2047898A (en) * 1932-06-06 1936-07-14 Edwin G Staude Power amplifying device
US2065912A (en) * 1932-06-06 1936-12-29 Edwin G Staude Pump construction
US2193497A (en) * 1936-03-19 1940-03-12 Thompson Prod Inc Hydraulic system
US2168649A (en) * 1937-07-03 1939-08-08 John A Johnson Invalid bed accessory
US2263784A (en) * 1939-07-21 1941-11-25 Peterson James Lloyd Operating unit for adjustable redframes
US2311864A (en) * 1940-11-13 1943-02-23 John B Parsons Regulator for vehicle windows or the like
US2389164A (en) * 1944-09-11 1945-11-20 Payne William Harvey Mechanism for supporting and automatically adjusting arc furnace electrodes

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2928243A (en) * 1958-03-12 1960-03-15 Roper Hydraulics Inc Pump control system
US3127619A (en) * 1958-06-02 1964-04-07 United States Bedding Co Contour bed
US3191195A (en) * 1962-03-08 1965-06-29 Royalmetal Corp Bed construction
US3368845A (en) * 1965-03-18 1968-02-13 Shin Meiwa Ind Co Ltd Hydraulic adjustment barber chair
US3311933A (en) * 1965-08-12 1967-04-04 James L Peterson Patient controlled power operated kit for hospital bed
US3324484A (en) * 1965-08-13 1967-06-13 Royalmetal Corp Adjustable bed
US3724003A (en) * 1971-07-08 1973-04-03 Bosch Gmbh Robert Hydraulic adjusting apparatus for hospital beds or the like
US4406123A (en) * 1980-02-19 1983-09-27 Kabushiki Kaisha Morita Seisakusho Hydraulically-actuated control device for operation unit in treatment chair and the like

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