POWERED SHOP STOOL WITH KNEELING MECHANISM

Abstract

A power shop stool that is battery powered and is a personal lifting device. The combination of components leads to a small compact device and allows a worker to adjust the seat height from 6″ to 24″ from floor lever in a vertical up and down fashion and it has the capability of stopping anywhere in between 6 inches and 24 inches.

Claims

1. A powered shop stool having a vertical working distance of from 6 inches to about 24 inches from a floor surface, said powered shop stool comprising: A) a main support frame having a front end, a back end, and two parallel side bars, said main support frame having four legs attached on a bottom of said main support frame, at least two of said legs mounted directly on said main support frame and at least two legs mounted on a front toe support; said main support frame having a front axle mounted between said parallel side bars; B) an upper seat frame having two side shelfs; C) an actuator for raising and lowering an upper seat frame, said actuator being rotatably mounted on said back of said main support frame, an opposite end of said actuator being mounted to an actuator plate, said actuator plate being mounted on said front axle, said actuator having a piston rod and a tension spring surrounding said piston rod; D) a motor for driving said actuator, said motor being mounted on a side of said main support frame; E) a battery for energizing said motor and, electrical connections between said battery, said motors, and F) duplicate tandem controls for said motor mounted on said side shelfs; G) a pair of left and right parallel articulatable support assemblies, each said assembly comprising: i) a lower tension arm rotatably mounted at a near end to said main support frame and at a distal end to an upper leg member and, a lower leg member rotatably mounted to said main support frame at a near end of said main support frame and to a distal end of said upper leg; ii) an upper tension arm rotatably mounted to said upper seat frame at a near end of said upper seat frame and, near said distal end of said lower leg, such that when actuated, said articulatable support assemblies move said upper seat frame in a vertical up or down motion.

2. A powered shop stool as claimed in claim 1 wherein there is a seat mounted on said upper seat frame.

3. A powered shop stool as claimed in claim 1 wherein said actuator is an electro-hydraulic linear actuator.

4. A powered shop stool as claimed in claim 1 wherein said actuator is a ball screw apparatus.

5. A powered shop stool as claimed in claim 1 wherein said actuator is an air cylinder.

6. A powered shop stool as claimed in claim 1 wherein said actuator is a hand pump.

7. A powered shop stool as claimed in claim 1 wherein said legs are free rolling swivel casters.

8. A powered shop stool as claimed in claim 1 wherein said legs are crawler tracks.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING(S)

[0012] FIG. 1 is a view in perspective of a device of this invention.

[0013] FIG. 2 is full side view of the lifting apparatus of the instant invention.

[0014] FIG. 3 is a full side view of the lifting device of this invention showing the toe plate mounting.

[0015] FIG. 4 is a full side view of this invention showing the mounting of the seat, the actuator, the motor, and the control buttons along with a side shelf.

[0016] FIG. 5 is a full front view of the device of this invention.

DETAILED DESCRIPTION OF THE INVENTION AND DRAWINGS

[0017] Turning now to FIG. 1 there is shown in a side perspective, a device 1 of this invention. There is a main support frame 2 having a front end 3, a back end 4, and two parallel side bars 5 and 5′. The main support frame 2 has a plurality of legs 6 that are attached on a bottom 7 of the main support frame 2. At least two of the legs 6 are mounted directly on the main support frame 2 and at least two legs 6 are mounted on a front toe support 8. For purposes of this invention, the front toe support is a shelf that is configured such that it is higher that the main support frame 2 but is securely attached to the main support frame 2. If casters 6 are used, the casters 6 are 360-degree full swivel so that the device 1 can be moved in any direction during use. The main support frame 2 has a front axle 9 mounted between the parallel side bars 5 and 5′.

[0018] At the top 10 of the device 1 there is an upper seat frame 11 having a front 12, a back 13, and two parallel side rails 14 and 14′ with two side shelfs 10 and 10′ attached thereto. The shelfs 10 and 10′ can be of solid construction or can be collapsible such that they will close against the side rails 13 and 14′ of the upper seat frame 9.

[0019] There is an actuator 15 for raising and lowering the upper seat frame 11, the actuator 15 is rotatably mounted on the back 4 of the main support frame 2 and the opposite end 16 of the actuator 15 is rotatably mounted to an actuator plate 17. The actuator plate 17 is mounted on the front axle 9 which allows for a partial rotation of the connections of an actuator 15 during the raising and lowering of the upper seat frame 11. The actuator 15 for purposes of illustration is shown in FIG. 1 as an electrical hydraulic linear actuator. Other types of actuators can be used in this invention, for example ball screws, air cylinders, hand pumps and the like.

[0020] The actuator 15 is powered by a motor 18 which motor 18 is energized by an electrical connection (shown in FIG. 1) to a battery 19 that is located behind a seat (discussed infra). The motor has an 18 to 28 volt capacity in order to move the loaded device 1. The battery 19 also energizes the control switches 20 (detailed infra) which are electrically connected (not shown in FIG. 1). The actuator 15 has a piston rod 21 and there is a die spring 22 surrounding the piston rod 21. Leads 23 for the electrically energizing the actuator 15 can be found in FIG. 1.

[0021] Turning now to FIG. 2, there is shown a full side view of the articulatable lifting apparatus 25 of the instant invention. For purposes of this invention, by “articulatable lifting apparatus” it is meant the device of this invention having the described “kneeling mechanism”. The device 1 of this invention has two, side by side lifting apparatus 25 (the “kneeling mechanism”). They are parallel to each other and spaced apart about the width of the main support frame 2, that is, there is a left side and a right side, and a front 24 and a back 26. They each consist of a lower tension arm 27 rotatably mounted at a near end 28 to the main support frame 2 and at a distal end 29 to an upper leg member 30. A lower leg member 31 is rotatably mounted to the main support frame 2 by a near end 32 and to a distal end 33 of an upper leg member 30.

[0022] An upper tension arm 34 is rotatably mounted to the upper seat frame 11 at a near end 35 of the upper seat frame 11 and near the distal end 36 of said lower leg 31 such that when actuated, said articulatable support assemblies 25 move the upper seat frame 11 in a vertical up or down motion.

[0023] The control mechanism 20 referred—to Supra includes dual control members 37 in which one such member is shown in FIG. 4. There is an identical control button 37 on the opposite side of the seat 38 also shown in FIG. 4. The control button 37 are configured such that both up buttons and both down buttons have to be touched at the same time in order to move the lifting apparatus 25. In addition, there are small wells 39 (shown in FIG. 5 in phantom) beside the control buttons 37 in which the user's hands will fit. This means of control is a safety factor in that neither hand can go under or around the moving mechanism because both hands need to stay in the wells 39 and on the control buttons 37 to operate the mechanism.

[0024] The shelfs 40 alluded to Supra are also shown in FIG. 5.

[0025] The devices of this invention are small, compact and allow the worker to adjust the heat height. Powered by an actuator, and in certain cases a battery, the operation is able to adjust the height of the stool to less than 6 inches from the floor to over 24 inches higher in a vertical fashion and can stop anywhere in between.

[0026] The kneeling mechanism (crouching action) tension arms transfer the seat load to the upper arms of the device to reduce radial loads on the actuator. The tension arms pivot around the knee pins used to make the connections of the lifting apparatus 25 in such a manner to keep the seat parallel to the floor throughout the entire range of motion. The lower tension arm attachment points are cantilevered from the knee joint. The kneeling design allows open clearance area beneath the user. The mechanism is designed to occupy the same amount of floor space as the user. The control arms under tension cause the upper and lower legs to hinge at their meeting points like a human knee, and the legs to operate in a crouching action. The dual hand controls are safety oriented to reduce likelihood of hand injuries in using the mechanism. The U-shaped lower frame section is to reduce racking. A four-wheeled design can be used for enhancing off-axis stability of the device. The device raises and lowers using a unique kneeling mechanism featuring tension arms to eliminate the cross bars found on conventional scissor mechanisms. The kneeling mechanism allows the device to move closer to the floor to access work at that level.