This invention relates to apparatus for positioning a table or tray adjacent to and over a bed for use by a person in the bed that may be used in hospitals, institutions, homes and the like. The new overbed table has electronic devices, such as, motors, positioning devices, connectors and processors for a table and frame to allowing positioning and use of the table electronically, except for moving the overbed table structure to a bed.
Overbed tables may be known that are simple mechanically operated structures for raising and lowering a table member on a vertical support column, as well as, rotating the table member about the longitudinal axis of the support column. The table member may also be rotated about its longitudinal axis to be slanted relative to vertical for uses other than food or tray service, for example, for reading. These types of mechanical overbed tables may have a simple table positioned on a generally vertical column that is attached to a base support that may have beam members with casters or wheels at corners.
The mechanically operated overbed table apparatus may have bearings, latches, rollers and the like for positioning and ease of movement of rotating or linear positioning of members. There may also be hand or foot brakes and friction and latching devices to control the movement and positioning of the overbed table. These overbed table devices may difficult to operate by a person reclined in a bed and may require operation by a servicing person.
The mechanical operated overbed tables may have electrical systems that have power cords, solar cells and batteries; and processing units, table position detectors, and electronic connectors or ports to support electronic devices used on the table of the overbed table apparatus. There may also be overbed table apparatus that incorporate power assist devices to aid in vertical positioning of the table element above the base support member, such as, hydraulic or gas actuators, or electric motors with rack and pinion devices in telescoping vertical support columns.
There is a need for a more automated, light weight structure, simple overbed table apparatus to aid service persons for use with bedridden persons, for example, in hospitals. This would reduce the time spent in servicing bedridden persons and may further reduce service time if the bedridden person can make overbed table adjustments with a remote control device.
The present invention is directed to overbed table apparatus for positioning a table over a bed. An overbed table may have a base support frame with at least three casters and a rechargeable battery. A motor housing with a top wall having an opening may be attached to the base support and a telescoping column that is hollow tubular is attached at a bottom end to the motor housing over the opening to extend upwardly. A linear motor is positioned in the motor housing with a linear motor actuator projecting through the opening and into the telescoping housing wherein an extension member of the linear motor actuator is attached at a top end to a slidable table column member of the telescoping housing. Servo housing is attached at a top end of the slidable table column member with a servomechanism attached in the servo housing positioned for a rotating shaft of the servomechanism to engage a circular bracket attached adjacent to a first end of a table wherein the circular bracket is rotatably engaged with the servo housing. The rechargeable battery is in electrical communication with a control processor of a control panel attached adjacent the first end of the table, to the linear motor and to the servomechanism.
These and other features, aspects and advantages of the present invention will become better understood with reference to the following drawings, description and claims.
The following detailed description represents the best currently contemplated modes for carrying out the invention. The description is not to be taken in a limiting sense, but is made merely for the purpose of illustrating the general principles of the invention.
Referring to
The bottom frame 20 has a battery 30 that may be a 12 VDC, 8 amp-hour lithium ion battery for light weight, recharging, extended storage features. The battery 30 may be chargeable for 8 to 12 hours of power. A retractable power cord 32 may be attached to a 110/220 VAC to 12 VDC trickle charger 34 for use in charging the battery 30. There may also be a 12 VDC to 115 VAC inverter 36 to supply AC power for the overbed table 10.
The bottom frame 20 may be made of thermoplastic or other suitable high strength, light weight material. There may be an impact resistant housing 38 positioned over the bottom frame 20 and the devices attached to the bottom frame 20 for protection of the base support 16. The housing 38 may be ABS impact resistant. There may also be at least one base support beam 18.
A motor housing 40 is attached to the base housing 38 and a telescoping column 44 is attached to the top wall 42 of the motor housing 40. The telescoping column 44 has a base column member 46 attached at a bottom end 48 to the top wall 42 and is slidably engaged at its upper portion with a table column member 50. The top end 52 of the table column member 50 is attached to a servo housing 54 that is rotatably attached to a circular bracket 56 that is attached adjacent a first end 60 of the table 12.
The motor housing 40, telescoping column 44, and servo housing 54 are general hollow wall structures. The motor housing 40 has an opening 58 in the top wall 42 positioned for a linear motor 80 that is positioned in the motor housing 40 and attached to the base support 16 by a motor support bracket 88 to extend a linear motor actuator 82 device through the opening 58 into the telescoping column 44. The linear motor actuator 82 extension member 84 is attached at a top end 86 to the movable table column member 50 to raise and lower approximately 48 inches.
A rotatable electric motor or servomechanism 70 is attached in the servo housing 54 with a rotating shaft 72 attached to the circular bracket 56 of the table 12. The table 12 may then be rotated adjacent the first end 60 to move the table 12 about the rotating shaft 72 to move its longitudinal axis 74 approximately 90 degrees right or left relative to the longitudinal axis 76 of the base support 16, as best viewed in
The top surface 68 of the table 12 may have an antibacterial surface material.
Referring to
The use of the automated, light weight, simple overbed table apparatus should reduce the time nurses and other care givers spend managing overbed tables for patients. This time spent is currently estimated as approximately 20 to 30 minutes. In addition a bedridden patient can adjust the overbed table themselves for various uses once the overbed table is positioned relative to the bed.
A linear motor actuator 82 with a screw drive, ball bearing rod and heavy duty 12 VDC motor 80 rated to lift 200 pounds provides a compact, effect elevation control device for the overbed table 10 operation. This in combination with a relatively flat 12 VDC gear motor 70 provide an efficient, electric power overbed table 10, without undue complexity, for persons reclined in a bed because of health issues. The actuator 82 and motor 70 are mass produced items, such as, for the automotive industry and can be purchased at very competitive prices.
While the invention has been particularly shown and described with respect to the illustrated embodiments thereof, it will be understood by those skilled in the art that the foregoing and other changes in form and details may be made therein without departing from the spirit and scope of the invention.
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