CN220933614U - Wireless hand-held remote controller device, butt joint piece and combination thereof - Google Patents

Abstract

The utility model discloses a wireless handheld remote control device, a butt joint part and a combination thereof, wherein the handheld remote control device is used for controlling each part of an electric chair and is inserted into the butt joint part so that the handheld remote control device cannot be misplaced, and the handheld remote control device comprises: the shell is of a parallelepiped structure and comprises a top surface, a rear side surface, a front side surface and a bottom surface; a plurality of control buttons mounted on the top surface for controlling the individual components of the electric chair; and a plurality of control buttons operatively mounted on the front side for controlling individual components of the electric chair, the individual components of the electric chair being controllable by the hand-held remote control device when the hand-held remote control device is placed within the docking member or when the hand-held remote control device is removed from the docking member.

Description

Wireless hand-held remote controller device, butt joint piece and combination thereof

Technical Field

The utility model relates to the technical field of intelligent furniture, in particular to a wireless handheld remote controller device. In addition, a butt joint part and a combination thereof are also related.

Background

Powered lift chairs, powered recliner chairs, and powered lounge chairs are often found in living rooms, home entertainment rooms, study rooms, offices, and bedrooms of homes and offices of businesses. Such chairs are often equipped with a variety of different types of hand-held remote control devices to control the various portions of a particular chair in order to move one or more portions of the chair to a particular desired position. For example, the footrest portion of the chair may be moved to a raised position or a lowered position, the backrest portion of the chair may be moved to an upright position or any of a plurality of reclined positions, the headrest portion of the chair may be moved to various positions in conjunction with the movement of the backrest portion of the chair, and the lumbar support portion of the chair may be moved to a particular position to provide the desired support to the lumbar region of the person while sitting in the chair. The various hand-held remote control devices are substantially similar to one another in that they have various buttons for controlling movement of the footrest, backrest, headrest and lumbar portions of the chair, however, some hand-held remote control devices are hardwired to the chair while others are wireless. Obviously, if the hand-held remote control device is hard wired to the chair, it may be somewhat limited in use, depending on its length or because of the fact that the wire connecting the hand-held remote control device to the chair may become entangled with moving parts of the chair or with objects external to the chair and not associated with the chair at all.

Wireless handheld remote control devices have therefore become more popular. However, wireless handheld remote control devices present their own problems or inconveniences. In the case of wireless and thus completely independent of the various chair parts they are controlling, they can obviously be located anywhere. As a result, they may become inadvertently squeezed between different bolsters or portions of the chair. Or they may be placed on a table adjacent to the chair and then inadvertently covered by something that is also placed on the table. Still further, they may be removed from the table and fall to the floor without the person sitting in the chair being aware of what the remote control is happening, and thus the person sitting in the chair thinks that the remote control is misplaced or temporarily lost, thus requiring someone else in the home or office to spend time looking for the remote control. Still further, since the wireless handheld remote control device is operated by means of a battery instead of the power obtained from the wall power switch to which the handheld remote control device is to be connected by an electric wire, the battery of the wireless remote control device needs to be charged periodically. Although charging devices currently exist for charging other devices, such as cell phones, they are stand alone devices that will not readily fit into a powered chair because the charging device will have to be placed on some external surface of the chair or on a table or counter adjacent to the chair.

There is therefore a need in the art for an improved new wireless handheld remote control device. There is an additional need in the art for an improved new dock for accommodating an improved new wireless handheld remote control device such that the improved new wireless handheld remote control device is not misplaced. There is also a need in the art for an improved new dock for accommodating an improved new wireless handheld remote control device such that the improved new wireless handheld remote control device is not misplaced and can be periodically charged. There is also a need in the art for an improved new dock for accommodating an improved new wireless handheld remote control device such that the improved new wireless handheld remote control device is not misplaced and can be charged periodically, and wherein the improved new dock and the improved new wireless handheld remote control device assembly can be easily incorporated within the overall structure of an electric lift chair, electric recliner or electric leisure chair.

Disclosure of utility model

The present utility model aims to solve at least one of the technical problems existing in the prior art.

It is a general object of the present invention to provide an improved new wireless handheld remote control device. It is a further general object of the present invention to provide an improved new dock for receiving an improved new wireless handheld remote control device such that the improved new wireless handheld remote control device is not misplaced. It is a further general object of the present invention to provide an improved new dock for receiving an improved new wireless handheld remote control device such that the improved new wireless handheld remote control device is not misplaced and can be periodically charged. It is a further general object of the present invention to provide an improved new dock for receiving an improved new wireless handheld remote control device such that the improved new wireless handheld remote control device is not misplaced and can be periodically charged, and wherein the improved new dock and improved new wireless handheld remote control device assembly can be easily incorporated within the overall structure of an electric lift chair, electric recliner or electric leisure chair.

A wireless handheld remote control device according to an embodiment of the present utility model for controlling respective parts of a power chair and for insertion into a docking member such that the handheld remote control device is not misplaced, the handheld remote control device comprising:

The shell is of a parallelepiped structure and comprises a top surface, a rear side surface, a front side surface and a bottom surface;

A plurality of control buttons mounted on the top surface for controlling the individual components of the electric chair; and

A plurality of control buttons operatively mounted on the front side for controlling individual components of the electric chair, the individual components of the electric chair being controllable by the hand-held remote control device either when the hand-held remote control device is placed within the docking member or when the hand-held remote control device is removed from the docking member.

Preferably, at least one magnetic interface is mounted on the rear side of the hand-held remote control device for cooperating with at least one magnetic interface provided on the docking member for securing the hand-held remote control device within the docking member.

Further preferably, the hand-held remote control device comprises a wireless hand-held remote control device.

Preferably, the wireless handheld remote control device is battery powered and at least one battery used by the wireless handheld remote control device is a lithium ion battery.

Further preferably, it includes:

at least one charging interface disposed on the rear side of the wireless handheld remote control device for mating with at least one charging interface disposed within the docking member to charge the at least one battery of the handheld remote control device when the handheld remote control device is placed within the docking member.

Preferably, it includes:

A recess is defined in the bottom surface of the hand-held remote control device for mating with a protrusion mounted in the docking member so that the hand-held remote control device can only be inserted into the docking member in a predetermined manner.

A docking assembly according to an embodiment of the present utility model for receiving a hand-held remote control device for use in connection with controlling various components of a powered chair, the docking assembly comprising:

The shell is of a cuboid structure and is suitable for being fixed in a frame structure of the electric chair;

a flange structure fixed to a front surface of the housing; and

A mounting slot is defined within the flange structure and extends into the housing to allow a hand-held remote control device to be inserted into the housing through the mounting slot such that the hand-held remote control device is adapted to be stored within the dock.

Preferably, at least one magnetic interface is mounted within the housing of the docking piece for mating with at least one magnetic interface provided on the handheld remote control device to secure the handheld remote control device within the housing of the docking piece.

Further preferably, at least one charging interface is mounted within the housing of the docking piece for cooperating with at least one charging interface provided on the handheld remote control device for charging the handheld remote control device when the handheld remote control device is placed within the housing.

Preferably, it further comprises:

At least one charging port defined within the flange structure of the dock for assisting in charging an electronic device.

Further preferably, it further comprises:

A protrusion mounted inside the housing of the docking member for mating with a recess defined on the hand-held remote control device such that the hand-held remote control device can only be inserted into the docking member in a predetermined manner.

Preferably, it further comprises:

and the reset button is arranged on the flange structure of the butting piece and used for resetting all parts of the electric chair.

Further preferably, it further comprises:

When the docking member is placed within the frame structure of the powered chair, the flange structure of the docking member will engage an outer surface area of the frame structure of the powered chair to secure the docking member within the frame structure of the powered chair.

According to the docking assembly of the embodiment of the utility model, the docking assembly is used for accommodating the handheld remote control device used in combination with each part for controlling the electric chair,

The docking piece comprises a shell, wherein the shell is of an upper cuboid structure and is suitable for being fixed in a frame structure of the electric chair;

the flange structure is fixed on the front surface of the shell;

the hand-held remote controller device includes: a housing, said housing being of parallelepiped configuration and comprising a top surface, a rear side surface, a front side surface and a bottom surface; and

A mounting slot is defined within the flange structure of the dock and extends into the housing of the dock to allow the handheld remote control device to be inserted into the housing of the dock through the mounting slot such that the handheld remote control device is adapted to be stored within the dock.

Preferably, it further comprises:

a first magnetic interface disposed within the housing of the dock; and

And a second magnetic interface mounted on the rear side of the handheld remote control device for mating with the first magnetic interface disposed within the housing of the dock to secure the handheld remote control device within the housing of the dock.

Further preferably, the hand-held remote control device comprises a wireless hand-held remote control device.

Preferably, the wireless handheld remote control device is battery powered and at least one battery used by the wireless handheld remote control device is a lithium ion battery.

Further preferably, it further comprises:

a first charging interface, the first magnetic interface disposed within the housing of the dock; and

A second charging interface mounted on the rear side of the handheld remote control device for mating with the first charging interface disposed within the housing of the dock such that the second charging interface is adapted to charge at least one of the lithium ion batteries of the handheld remote control device when the handheld remote control device is placed within the housing of the dock.

Preferably, wherein:

When the docking member is placed within the frame structure of the powered chair, the flange structure of the docking member will engage an outer surface of the frame structure of the powered chair to ensure that the docking member is secured within the frame structure of the powered chair.

Additional features and advantages of the utility model will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model. The objectives and other advantages of the utility model will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

In order to make the above objects, features and advantages of the present utility model more comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

Various other features and attendant advantages of the present invention will be more fully appreciated from the following detailed description when considered in connection with the accompanying drawings in which like reference characters designate like or corresponding parts throughout the several views, and wherein:

FIG. 1 is a right front perspective view of a conventional prior art power chair;

FIG. 2 is a right front perspective view of the improved new dock and the improved new wireless handheld remote control device;

FIG. 3 is a side view of the improved new wireless handheld remote control device shown placed within the improved new dock when the improved new wireless handheld remote control device is to be stored within the improved new dock;

FIG. 4 is an enlarged side detail view of one face of the improved new dock and the improved new wireless handheld remote control device;

FIG. 5 is an enlarged front view showing a first embodiment of the improved novel wireless handheld remote control device with various control buttons mounted thereon; and

Fig. 6 is an enlarged front view showing a second embodiment of the improved novel wireless handheld remote control device with various control buttons mounted thereon.

Detailed Description

The following describes specific embodiments of the present utility model in detail with reference to the drawings. It should be understood that the detailed description and specific examples, while indicating and illustrating the utility model, are not intended to limit the utility model.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "configured," and "connected" are to be construed broadly, and for example, the term "connected" may be a fixed connection, a removable connection, or an integral connection; either directly or indirectly via an intermediate medium, or in communication with each other or in interaction with each other. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Referring to fig. 1, a conventional powered lift chair, powered recliner or powered leisure chair is indicated by reference numeral 100. Wherein the chair 100 comprises a seat 102 and a backrest 104 that are movable between an upright position and one or more reclined positions; a lumbar support 106, which is actually a part of the backrest 104, is positionable and independently operable so as to be able to contact a lumbar region of the back of the torso of a person seated in the chair 100; and a headrest 108 that can be moved to various positions as required by a person sitting in the chair 100 such that the headrest 108 is disposed at a specific position that is most comfortable for the person sitting in the chair 100.

In addition, the chair 100 also includes a footrest 110, and the footrest 110 can be moved to various positions as needed by a person sitting in the chair 100 in a similar manner to the headrest 108 so that the footrest 110 is disposed in a position where the person sitting in the chair 100 feels the most comfortable. Finally, the chair 100 includes a pair of oppositely disposed left and right side armrests 112, 114.

In the present invention, referring to fig. 2-4, a wireless handheld remote control device is disclosed, indicated generally by the reference numeral 200, and a docking member for receiving the wireless handheld remote control device 200 when the wireless handheld remote control device 200 is to be stored therein, wherein the docking member is indicated generally by the reference numeral 300. More specifically, the interface 300 is adapted to be secured within the overall structural frame of a power lift chair, a power recliner or a power lounge chair, and more specifically, the interface 300 is adapted to be secured to one of the left side arm rest 112 and the right side arm rest 114 of the chair 100 that are oppositely disposed. More specifically, the interface element 300 includes a hollow box or housing 302 having a rectangular parallelepiped configuration defined along a longitudinal extent or axis L and a transverse extent or axis W. The front face of the hollow box or housing 302 of the docking piece 300 includes an oval or elliptical flange structure 304 secured to or integrally defined on the front face or side wall of the box or housing 302, and a mounting slot 306 integrally formed or disposed within the flange structure 304 of the box or housing 302 so as to extend inwardly into the interior of the hollow box or housing 302. When the box or housing 302 of the docking member 300 is adapted to be secured to either the left side rail 112 or the right side rail 114 of the chair 100, the flange structure 304 of the docking member 300 will engage and be flush with the outer surface of either the left side rail 112 or the right side rail 114 of the chair 100. And the wireless handheld remote control device 200 is adapted to be inserted through a mounting slot 306 formed in a flange structure 304 of the docking member 300 and moved into the hollow interior of the box or housing 302 for storage therein.

As best seen in fig. 3, the width dimension of the central portion of the mounting slot 306 is substantially wider than the width dimension of the ends thereof in order to accommodate the various control buttons as disclosed in fig. 2 and discussed more fully in fig. 5.

Referring to fig. 4, it should also be noted that the wireless handheld remote control device 200 is adapted to be secured within the docking member 300 by a magnetic interface defined between the docking member 300 and the wireless handheld remote control device 200.

More specifically, as can be seen and appreciated in fig. 4, a pair of laterally spaced magnets 308 are incorporated into or mounted on the interior rear wall portion of the dock 300 and a pair of laterally spaced ferromagnetic plates 202 are mounted within the rear sidewall portion 204 of the wireless handheld remote control device 200 such that when the wireless handheld remote control device 200 is inserted into the dock 300, the ferromagnetic plates 202 of the wireless handheld remote control device 200 mounted on the rear sidewall portion 204 can be aligned with the magnets 308 mounted on the interior rear wall of the dock 300, thereby enabling the wireless handheld remote control device 200 to be secured within the dock 300.

Further, a first charging interface 310 is provided on an inner rear wall portion of the docking member 300, and the rear side wall portion 204 of the wireless handheld remote control device 200 is correspondingly provided with a second charging interface 206, whereby the battery of the wireless handheld remote control device 200 may be automatically charged when the wireless handheld remote control device 200 is placed within the docking member 300, such that the wireless handheld remote control device 200 always has sufficient power to transmit control signals when it may be necessary to control movement of various portions of the chair 100 (e.g., the footrest portion 110, the backrest portion 104, the headrest portion 108, and the lumbar support portion 106). The battery may be any type of suitable rechargeable battery, such as a lithium ion battery, among others.

In addition, one end of the inner lower wall portion 312 of the docking member 300 is provided with a smoothly curved laterally extending projection 314, which may be an upstanding projection or a projection extending laterally inwardly from the open end of the mounting slot 306 into and across the interior hollow area of the docking member box or housing 302 into which the wireless handheld remote control device 200 is to be inserted. Correspondingly, one end of the lower face 208 of the wireless handheld remote control device 200 is provided with a laterally extending recessed recess 210 for receiving a protrusion 314 of the docking piece 300, and the front side wall portion 212 of the wireless handheld remote control device 200 is provided with an outer face wall 214 adapted to engage the curved protrusion 314 when the wireless handheld remote control device 200 is fully or completely inserted into the docking piece 300. In this manner, the wireless handheld remote control device 200 can only be inserted into the dock 300 in a predetermined manner or orientation so as to ensure that the first magnetic interface 202, the second magnetic interface 308, the first charging interface 206, and the second charging interface 310 are aligned with one another, and that the wireless handheld remote control device 200 is virtually fully inserted into the dock 300 and allows easy access to the plurality of control buttons mounted on the front side wall of the wireless handheld remote control device 200.

Referring to fig. 5, a first embodiment of a wireless handheld remote control device is disclosed and is generally indicated by reference numeral 200. More specifically, it can be seen that in accordance with the teachings and principles of the present invention, a first embodiment of the wireless handheld remote control device 200 is seen to include a main or top surface 216 that is provided with a plurality of control buttons for controlling movement of various portions of the chair (e.g., the footrest, backrest and headrest portions of the chair). More specifically, it should be noted that the plurality of control buttons mounted on the main or top surface 216 include a first control button 218, a second control button 220 for controlling the extension of the headrest 108 of the chair 100 and the retraction or return to normal operation of the headrest 108 of the chair 100, respectively. Similarly, third and fourth control buttons 222, 224 are provided on the main or top surface 216 of the wireless handheld remote control device 200 for controlling the extension or recline motion of the back portion 104 of the chair 100 and the retraction or return to normal motion of the back portion 104 of the chair 100, respectively. Continuing further, fifth and sixth control buttons 226, 228 are provided on the major or top surface 216 of the wireless handheld remote control device 200 for controlling the extending or lifting motion of the footrest section 110 of the chair 100 and the retracting or return to normal motion of the footrest section 110 of the chair 100, respectively. Of course, additional control buttons, not shown, may also be provided for controlling the extension and retraction of the lumbar region 106 of the chair 100.

Still further, it can be seen that the main or top surface 216 of the wireless handheld remote control device 200 is provided with a first memory control button 230 and a second memory control button 232 labeled M1, M2 such that when these buttons are pressed individually, the various portions of the chair 100 can automatically move to the preset positions. In a similar manner, a TV button 234 labeled TV is also provided on the main or top surface 216 of the wireless handheld remote control device 200 to automatically move the various portions of the chair 100 to predetermined television positions.

Also, ZG buttons 236 labeled ZG are also provided on the major or top surface 216 of the wireless handheld remote control device 200 to automatically move the various portions of the chair 100 to a predetermined zero gravity position in which the headrest 108 of the chair 100, the backrest 104 of the chair 100, and the footrest 110 of the chair 100 are in fact in positions that define a horizontal plane or planar arrangement. Wherein the headrest 108 of the chair 100 is at a height slightly below the footrest 110 of the chair 100. In this manner, movement of the footrest 110, backrest 104, and headrest 108 of the chair 100 may also be controlled when the wireless handheld remote control device 200 is removed from the dock 300.

Finally, as best seen in fig. 2, 3 and 5, the front side wall portion 212 of the wireless handheld remote control device 200 is also provided with a plurality of first 238, second 240, third 242 control buttons for controlling movement of the various portions of the chair (e.g., the footrest portion 110, the backrest portion 104, and the headrest portion 108 of 100), respectively. In this manner, the movement of the footrest 110, backrest 104, and headrest 108 of the chair 100 may also be controlled by a person sitting in the chair 100 when the wireless handheld remote control device 200 is inserted into the docking member 300. Finally, a homing button 244 is provided on the major or top surface 216 of the wireless handheld remote control device 200 to automatically move all of the various portions of the chair 100 to the normal or default seating position.

Referring to fig. 2 and 3, it can also be seen that the flange structure 304 of the docking piece is also provided with a homing button 309 and a first charging port 310, a second charging port 312 for charging the auxiliary electronic device, said charging ports comprising for example a C-type charging port or a 1.0-type charging port.

Referring to fig. 6, a second embodiment of an improved new wireless handheld remote control device developed in accordance with the principles and teachings of the present invention is generally indicated by reference numeral 400. It should be noted that the second embodiment 400 of the improved new wireless handheld remote control device is generally similar to the first embodiment 200 of the improved new wireless handheld remote control device, except that the discussion will be more fully hereinafter and accordingly, the components of the second embodiment 400 of the improved new wireless handheld remote control device that correspond to the components of the first embodiment 200 of the improved new wireless handheld remote control device will be designated by the 400 series.

More specifically, it can be seen that the main face or top surface 416 of the second embodiment 400 of the improved novel wireless handheld remote control device includes a fourth control button 418, a fifth control button 420 for controlling the extension or recline motion of the back 104 and headrest 108 of the chair 100, respectively, and the retraction or return to normal motion of the back 104 and headrest 108 of the chair 100, wherein the back 104 and headrest 108 of the chair 100 have in fact been integrated together, rather than moved separately or independently with respect to each other as is the case with the first embodiment 200 of the improved novel wireless handheld remote control device. In addition, control buttons six 426, seven 428 are provided on the main or top surface 416 of the second embodiment 400 of the improved new wireless handheld remote control device for controlling the extension or elevation motion of the footrest section 110 of the chair 100 and the retraction or return to normal motion of the footrest section 110 of the chair 100, respectively.

Also as in the case of the first embodiment 200 of the improved new wireless handheld remote control device, the major face or top surface portion 416 of the second embodiment 400 of the improved new wireless handheld remote control device is also provided with a home button, labeled M1 memory button 430, M2 memory button 432, television button 434, and zero gravity button ZG436.

Finally, as is also the case with the first embodiment 200 of the improved new wireless handheld remote control device, the front side wall portion 412 of the second embodiment 400 of the improved new wireless handheld remote control device is also provided with control buttons eight 438 and nine 440 for controlling the headrest 108, backrest 104 and footrest portion 110 of the chair 100.

In the description of the present specification, reference to the terms "one embodiment," "some embodiments," "illustrative embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above-described preferred embodiments according to the present utility model are intended to suggest that, from the above description, various changes and modifications can be made by the worker in question without departing from the technical spirit of the present utility model. The technical scope of the present utility model is not limited to the description, but must be determined as the scope of the claims.

Claims (19)

1. A wireless handheld remote control device for controlling various components of a powered chair and for insertion into a docking member such that the handheld remote control device is not misplaced, the handheld remote control device comprising:

The shell is of a parallelepiped structure and comprises a top surface, a rear side surface, a front side surface and a bottom surface;

A plurality of control buttons mounted on the top surface for controlling the individual components of the electric chair; and

A plurality of control buttons operatively mounted on the front side for controlling individual components of the electric chair, the individual components of the electric chair being controllable by the hand-held remote control device either when the hand-held remote control device is placed within the docking member or when the hand-held remote control device is removed from the docking member.

2. The wireless handheld remote control device of claim 1, wherein,

At least one magnetic interface mounted on the rear side of the hand-held remote control device for mating with at least one magnetic interface provided on the docking member to secure the hand-held remote control device within the docking member.

3. The wireless handheld remote control device of claim 1, wherein said handheld remote control device comprises a wireless handheld remote control device.

4. The wireless handheld remote control device of claim 3, wherein:

The wireless handheld remote control device is battery powered, and at least one battery used by the wireless handheld remote control device is a lithium ion battery.

5. A wireless handheld remote control device according to claim 3, comprising:

at least one charging interface disposed on the rear side of the wireless handheld remote control device for mating with at least one charging interface disposed within the docking member to charge the at least one battery of the handheld remote control device when the handheld remote control device is placed within the docking member.

6. The wireless handheld remote control device of claim 1, wherein said wireless handheld remote control device comprises:

A recess is defined in the bottom surface of the hand-held remote control device for mating with a protrusion mounted in the docking member so that the hand-held remote control device can only be inserted into the docking member in a predetermined manner.

7. A docking member for receiving a hand-held remote control device for use in connection with controlling various components of an electric chair, characterized in that,

The docking member comprises:

The shell is of a cuboid structure and is suitable for being fixed in a frame structure of the electric chair;

a flange structure fixed to a front surface of the housing; and

A mounting slot is defined within the flange structure and extends into the housing to allow a hand-held remote control device to be inserted into the housing through the mounting slot such that the hand-held remote control device is adapted to be stored within the dock.

8. A docking member according to claim 7 wherein,

At least one magnetic interface mounted within the housing of the dock for mating with at least one magnetic interface provided on the handheld remote control device to secure the handheld remote control device within the housing of the dock.

9. The dock of claim 7, wherein at least one charging interface is mounted within the housing of the dock for mating with at least one charging interface provided on the handheld remote control device to charge the handheld remote control device when the handheld remote control device is placed within the housing.

10. The dock of claim 7, further comprising:

At least one charging port defined within the flange structure of the dock for assisting in charging an electronic device.

11. The dock of claim 7, further comprising:

A protrusion mounted inside the housing of the docking member for mating with a recess defined on the hand-held remote control device such that the hand-held remote control device can only be inserted into the docking member in a predetermined manner.

12. The dock of claim 7, further comprising:

and the reset button is arranged on the flange structure of the butting piece and used for resetting all parts of the electric chair.

13. The dock of claim 7, further comprising:

When the docking member is placed within the frame structure of the powered chair, the flange structure of the docking member will engage an outer surface area of the frame structure of the powered chair to secure the docking member within the frame structure of the powered chair.

14. A docking assembly for receiving a docking assembly of a hand-held remote control device for use in connection with controlling various components of an electric chair, characterized in that,

The docking piece comprises a shell, wherein the shell is of an upper cuboid structure and is suitable for being fixed in a frame structure of the electric chair;

the flange structure is fixed on the front surface of the shell;

the hand-held remote controller device includes: a housing, said housing being of parallelepiped configuration and comprising a top surface, a rear side surface, a front side surface and a bottom surface; and

A mounting slot is defined within the flange structure of the dock and extends into the housing of the dock to allow the handheld remote control device to be inserted into the housing of the dock through the mounting slot such that the handheld remote control device is adapted to be stored within the dock.

15. The dock assembly of claim 14, further comprising:

a first magnetic interface disposed within the housing of the dock; and

And a second magnetic interface mounted on the rear side of the handheld remote control device for mating with the first magnetic interface disposed within the housing of the dock to secure the handheld remote control device within the housing of the dock.

16. The dock assembly of claim 14, wherein the handheld remote control device comprises a wireless handheld remote control device.

17. The dock assembly of claim 16, wherein the wireless handheld remote control device is battery powered and at least one battery used by the wireless handheld remote control device is a lithium ion battery.

18. The dock assembly of claim 17, further comprising:

A first charging interface disposed within the housing of the dock; and

A second charging interface mounted on the rear side of the handheld remote control device for mating with the first charging interface disposed within the housing of the dock such that the second charging interface is adapted to charge at least one of the lithium ion batteries of the handheld remote control device when the handheld remote control device is placed within the housing of the dock.

19. The dock assembly of claim 14, wherein:

When the docking member is placed within the frame structure of the powered chair, the flange structure of the docking member will engage an outer surface of the frame structure of the powered chair to ensure that the docking member is secured within the frame structure of the powered chair.