CN216046694U - Bracket for storing fixed remote control device and remote control device - Google Patents

Abstract

The utility model relates to a bracket for storing and fixing a remote control device and the remote control device, wherein the bracket comprises a bracket main body and a back plate; the bracket main body comprises a first bearing structure and a second bearing structure; the first supporting structure and the second supporting structure are connected together in a vertical or obtuse angle manner; the first surface of the first bearing structure and the first surface of the second bearing structure are both planes; the second surface of the second bearing structure is arranged on the back plate through a connecting structure; the back plate is provided with a fixing device; the fixing device is in a nail-shaped structure, a first section of the fixing device is embedded between the second bearing structure and the back plate, and a second section of the fixing device penetrates through the back plate; alternatively, the fixation device is adhesive; a magnetic device is also mounted between the first bearing structure and the back plate. The utility model discloses the appearance structure is very simple, and the first face of first bearing structure and the first face of second bearing structure all are the plane, can be when guaranteeing firm fixed remote controller for taking and placing of remote controller are very convenient.

Description

Bracket for storing fixed remote control device and remote control device

Technical Field

The utility model relates to a remote controller, in particular to a bracket for storing and fixing a remote control device and the remote control device.

Background

The remote controller is easy to be randomly placed after being used. In the prior art, there are various devices for storing and fixing the remote controller, such as a bracket or a support frame, etc., which can fix the remote controller on a wall or other fixing device, but such a bracket or a support frame generally has some snap structures or blocking structures on the side surface, and when the remote controller is placed, the remote controller needs to be aligned with the snap structures or the blocking structures. For example, in patent document CN201320472529.4 entitled mounting bracket assembly for remote controller, it can be seen from fig. 1 of the specification that the left and right sides of the first bracket part have baffles, and the remote controller is fixed in the middle of the baffles. With this arrangement, although the remote control can be securely held, it is relatively cumbersome to take and place, requiring an additional alignment process.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model discloses a bracket for storing a fixed remote control device and the remote control device.

The technical scheme adopted by the utility model is as follows:

a cradle for storing a stationary remote control device includes a cradle body and a back plate; the bracket main body comprises a first bearing structure and a second bearing structure; the first supporting structure and the second supporting structure are connected together in a vertical or obtuse angle manner; the first surface of the first bearing structure and the first surface of the second bearing structure are both planes; the second surface of the second bearing structure is arranged on the back plate through a connecting structure; the back plate is provided with a fixing device; the fixing device is in a nail-shaped structure, a first section of the fixing device is embedded between the second bearing structure and the back plate, and a second section of the fixing device penetrates through the back plate; alternatively, the fixation device is adhesive; a magnetic device is also mounted between the first bearing structure and the back plate.

The further technical scheme is as follows: the connecting structure includes a projection structure and a support structure for supporting the projection structure.

The further technical scheme is as follows: the protruding structure is positioned on the side edge or the upper edge of the second surface of the second bearing structure and protrudes towards the inside of the second surface of the second bearing structure in a direction parallel to the second surface of the second bearing structure; a gap is reserved between the protruding structure and the second surface of the second supporting structure; the supporting structure comprises a clamping surface and a supporting surface; when the protruding structure is embedded in the supporting structure, the clamping surface is positioned in a gap between the protruding structure and the second bearing structure, and the supporting surface supports the protruding structure.

The further technical scheme is as follows: the side edge of the second surface of the second bearing structure and the upper part of the protruding structure also comprise a positioning surface positioned between the protruding structure and the gap of the second surface of the second bearing structure; the length of the clamping surface is smaller than that of the supporting structure along the side edge of the back plate and the direction parallel to the side edge of the back plate.

The further technical scheme is as follows: the protruding structure is positioned on the second surface of the second supporting structure, and a positioning surface positioned between the protruding structure and the gap of the second surface of the second supporting structure is also arranged above the protruding structure; the support structure is fixed on the back plate.

The further technical scheme is as follows: the first bearing structure also comprises a bending plate bent below the first bearing structure, and the bending plate is provided with a dismounting hole; corresponding to the position of the dismounting hole, an elastic plate connected with the back plate is arranged on the back plate.

The further technical scheme is as follows: and a reinforcing rib is arranged at the joint of the second surface of the first bearing structure and the second surface of the second bearing structure.

The further technical scheme is as follows: a second surface of the first bearing structure is provided with a dismounting hole; the back plate is provided with an elastic plate connected with the back plate corresponding to the position of the dismounting hole; and a supporting block for supporting the elastic plate is arranged at the corner of the reinforcing rib corresponding to the position of the elastic plate.

The further technical scheme is as follows: when the fixing device is in a nail-shaped structure, the fixing device penetrates out of the back plate through the oval mounting hole in the back plate; the fixing device is provided with two groups of fixing holes, and the long axis directions of the ellipses of the two corresponding mounting holes are mutually vertical.

A remote control device for use with a cradle for holding a remote control device as defined in any one of the preceding claims, the remote control device comprising a case; a magnetic device is arranged in the box body; the magnetic device is close to the second surface of the box body; the first surface of the box body is placed on the first surface of the first bearing structure; the second face of the box body leans on the first face of the second bearing structure and is adsorbed on the first face of the second bearing structure.

The utility model has the following beneficial effects:

the remote controller is simple in appearance structure, the first surface of the first bearing structure and the first surface of the second bearing structure are both planes, no other structure is arranged, the first bearing structure is used for supporting the bottom when the remote controller is placed on the first bearing structure, and the second bearing structure is used for adsorbing the bottom and the back plate by the magnetic device, so that the remote controller can be firmly fixed, the remote controller can be conveniently taken and placed, and the position alignment is not needed.

The utility model is also suitable for the existing common touch remote controller, and because no other gear device or clamping device is arranged, the control surface of the remote controller can not be blocked, and the remote controller is convenient to operate.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a schematic view of another angle of fig. 1.

Fig. 3 is a structural schematic view of an embodiment of the bracket main body.

FIG. 4 is a schematic structural diagram of an embodiment of a backplane.

Fig. 5 is a schematic view in another direction of fig. 4.

Fig. 6 is an enlarged schematic view of region B in fig. 5.

Fig. 7 is an enlarged schematic view of the region a in fig. 3.

Fig. 8 is a schematic view of the state of use of the present invention.

In the figure: 1. a bracket main body; 2. a back plate; 3. a first support structure; 4. a second support structure; 5. a fixing device; 6. a first projecting structure; 7. a second projection structure; 8. a third projection structure; 9. a first support structure; 10. a second support structure; 11. a third support structure; 12. a clamping surface; 13. a support surface; 14. A bending plate; 15. disassembling the hole; 16. an elastic plate; 17. reinforcing ribs; 18. a support block; 19. a fixing hole; 20. a remote control device.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

Fig. 1 is a schematic structural diagram of an embodiment of the present invention. Fig. 2 is a schematic view of another angle of fig. 1. As shown in fig. 1 and 2, a cradle for storing a stationary remote control device includes a cradle main body 1 and a back plate 2. The carrier body 1 comprises a first holding structure 3 and a second holding structure 4. The first bearing structure 3 and the second bearing structure 4 are joined together substantially vertically. By substantially vertical is meant here that the first bearing structure 3 and the second bearing structure 4 are perpendicular to each other. Alternatively, the first surface of the first supporting structure 3 and the first surface of the second supporting structure 4 may also be at an obtuse angle, that is, when the first surface of the first supporting structure 3 is horizontal, the first surface of the second supporting structure 4 tilts backward slightly, for example, can tilt backward by 0 to 30 °.

The first face of the first bearing structure 3 and the first face of the second bearing structure 4 are both planar. As shown in figure 1, the first face of the first supporting structure 3 and the first face of the second supporting structure 4 are each free of any other structure and are purely planar.

The second face of the second bearing structure 4 is mounted to the back plate 2 by a connecting structure.

The fixing device 5 is used for fixing the backboard 2 on a wall surface or other fixing structure.

The fixing device 5 is a nail-like structure, such as a screw, and a first section of the fixing device 5, i.e. a screw cap, is embedded between the second supporting structure 4 and the back plate 2, and a second section of the fixing device 5, i.e. a screw rod, passes through the back plate 2 and can be nailed to a wall or other fixing structures. In the present embodiment, the fixing device 5 is a screw, two sets of screws are provided, and the back plate 2 is provided with fixing holes 19 for passing through screw rods, preferably, the fixing holes 19 are oval, and the major axes of the two fixing holes 19 are perpendicular to each other. Thus, even if the connecting direction after the two groups of bolts are fixed is not completely horizontal, the back plate 2 can be conveniently adjusted, and the transverse edge of the back plate 2 is in the horizontal direction.

Alternatively, the fixing device 5 is adhesive, and the fixing device 5 may be a back glue layer coated on the back surface of the back plate 2, so that the back plate 2 can be adhered to a wall surface or other fixing structures.

Magnetic means are also mounted between the second supporting structure 4 and the back plate 2.

Fig. 3 is a structural schematic view of an embodiment of the bracket main body. FIG. 4 is a schematic structural diagram of an embodiment of a backplane. Fig. 5 is a schematic view in another direction of fig. 4. As shown in fig. 3 to 5, the connection structure includes a projection structure and a support structure for supporting the projection structure. The shape of the protruding structures and the support structures may be varied in many embodiments. In the embodiment shown in the figures, three specific implementations are shown, namely: the protruding structures comprise a first protruding structure 6, a second protruding structure 7 and a third protruding structure 8, and correspondingly the support structures comprise a first support structure 9, a second support structure 10 and a third support structure 11.

As shown in figure 3, the first projecting structures 6 have one or more, located at the upper edge of the second face of the second supporting structure 4, projecting towards the inside of the second face of the second supporting structure 4, in a direction parallel to the second face of the second supporting structure 4. There is a gap between the first protruding structure 6 and the second face of the second bearing structure 4. As shown in fig. 4 and 5, the first supporting structure 9 is located at the upper edge of the back plate 2. Fig. 6 is an enlarged schematic view of region B in fig. 5. As shown in fig. 6, the first supporting structure 9 includes a retaining surface 12 and a supporting surface 13, when the first protruding structure 6 is embedded in the first supporting structure 9, the retaining surface 12 is located in the gap between the first protruding structure 6 and the second supporting structure 4, and the supporting surface 13 supports the first protruding structure 6.

The second projecting structures 7 are located at the lateral edges of the second face of the second supporting structure 4, one or more of which are present at each of the two lateral edges, projecting towards the inside of the second face of the second supporting structure 4, in a direction parallel to the second face of the second supporting structure 4. There is a gap between the second projecting structure 7 and the second face of the second bearing structure 4. Further, as shown in fig. 3, the second protrusion structure 7 further includes a positioning surface located between the second protrusion structure 7 and the gap of the second surface of the second supporting structure 4, so that the second protrusion structure 7 is in an inverted L shape as a whole. As shown in fig. 6, the second supporting structure 10 is located at the side edge of the backboard 2 and includes a clamping surface 12 and a supporting surface 13. In a direction parallel to the side edges of the back panel 2, the height of the locking surface 12 is less than the height of the second support structure 10, i.e. a space is left at the locking surface 12 to facilitate the insertion of the second projection structure 7 from above. When the second protrusion structure 7 is engaged with the second supporting structure 10, the engaging surface 12 is located in the gap between the second protrusion structure 7 and the second supporting structure 4, and the supporting surface 13 supports the positioning surface of the second protrusion structure 7.

The third protrusion structure 8 is located in the middle of the second surface of the second supporting structure 4, a gap is formed between the third protrusion structure 8 and the second surface of the second supporting structure 4, the upper side of the third protrusion structure 8 further comprises a positioning surface located between the gap between the third protrusion structure 8 and the second surface of the second supporting structure 4, and the third protrusion structure 8 is of a structure of an overall inverted L shape. As shown in fig. 4, the third support structure 11 is located in the middle of the backboard 2 with a gap from the backboard 2. When the third protrusion structure 8 is embedded in the third supporting structure 11, the third supporting structure 11 is located in a gap between the third protrusion structure 8 and the second surface of the second supporting structure 4, and supports the positioning surface of the third protrusion structure 8.

Fig. 7 is an enlarged schematic view of the region a in fig. 3. Referring to fig. 3 and 7, in order to facilitate the installation and removal of the bracket body 1 from the back plate 2 after the back plate 2 is fixed, the first supporting structure 3 further includes a bending plate 14 bent under the first supporting structure 3, and the bending plate 14 is provided with a removal hole 15. Corresponding to the position of the removal hole 15, an elastic plate 16 connected to the backboard 2 but tiltable with respect to the backboard 2 is provided on the backboard 2. A finger can be inserted into the detachment hole 15 to facilitate separation of the tray main body 1 from the rear plate 2.

Furthermore, there are several groups of reinforcing ribs 17 for reinforcing the whole structure at the junction of the second face of the first supporting structure 3 and the second face of the second supporting structure 4. At the location of the elastic plate 16, the reinforcing rib 17 is further provided with a plurality of protruding support blocks 18 for supporting the elastic plate 16.

Fig. 8 is a schematic view of the state of use of the present invention. As shown in fig. 8, the present invention is used to store a stationary remote control device 20, the remote control device 20 including a case. A magnetic device is arranged in the box body. The magnetic device is close to the second surface of the box body. The first face of the box is placed on the first face of the first bearing structure 3. The second face of the box rests on the first face of the second bearing structure 4 and is attracted to the first face of the second bearing structure 4 by magnetic means between the second bearing structure 4 and the back plate 2.

The foregoing description is illustrative of the present invention and is not to be construed as limiting the utility model, which is defined by the scope of the appended claims, as the utility model may be modified in any manner without departing from the essential structure thereof.

Claims (10)

1. A cradle for storing a stationary remote control device, comprising: comprises a bracket main body and a back plate; the bracket main body comprises a first bearing structure and a second bearing structure; the first supporting structure and the second supporting structure are connected together in a vertical or obtuse angle manner; the first surface of the first bearing structure and the first surface of the second bearing structure are both planes; the second surface of the second bearing structure is arranged on the back plate through a connecting structure; the back plate is provided with a fixing device; the fixing device is in a nail-shaped structure, a first section of the fixing device is embedded between the second bearing structure and the back plate, and a second section of the fixing device penetrates through the back plate; alternatively, the fixation device is adhesive; a magnetic device is also mounted between the first bearing structure and the back plate.

2. A cradle for storing a stationary remote control device according to claim 1, wherein: the connecting structure includes a projection structure and a support structure for supporting the projection structure.

3. A cradle for storing a stationary remote control device according to claim 2, wherein: the protruding structure is positioned on the side edge or the upper edge of the second surface of the second bearing structure and protrudes towards the inside of the second surface of the second bearing structure in a direction parallel to the second surface of the second bearing structure; a gap is reserved between the protruding structure and the second surface of the second supporting structure; the supporting structure comprises a clamping surface and a supporting surface; when the protruding structure is embedded in the supporting structure, the clamping surface is positioned in a gap between the protruding structure and the second bearing structure, and the supporting surface supports the protruding structure.

4. A cradle for storing a stationary remote control device according to claim 3, wherein: the side edge of the second surface of the second bearing structure and the upper part of the protruding structure also comprise a positioning surface positioned between the protruding structure and the gap of the second surface of the second bearing structure; the length of the clamping surface is smaller than that of the supporting structure along the side edge of the back plate and the direction parallel to the side edge of the back plate.

5. A cradle for storing a stationary remote control device according to claim 2, wherein: the protruding structure is positioned on the second surface of the second supporting structure, and a positioning surface positioned between the protruding structure and the gap of the second surface of the second supporting structure is also arranged above the protruding structure; the support structure is fixed on the back plate.

6. A cradle for storing a stationary remote control device according to claim 1, wherein: the first bearing structure also comprises a bending plate bent below the first bearing structure, and the bending plate is provided with a dismounting hole; corresponding to the position of the dismounting hole, an elastic plate connected with the back plate is arranged on the back plate.

7. A cradle for storing a stationary remote control device according to claim 1, wherein: and a reinforcing rib is arranged at the joint of the second surface of the first bearing structure and the second surface of the second bearing structure.

8. A cradle for storing a stationary remote control device according to claim 7, wherein: a second surface of the first bearing structure is provided with a dismounting hole; the back plate is provided with an elastic plate connected with the back plate corresponding to the position of the dismounting hole; and a supporting block for supporting the elastic plate is arranged at the corner of the reinforcing rib corresponding to the position of the elastic plate.

9. A cradle for storing a stationary remote control device according to claim 1, wherein: when the fixing device is in a nail-shaped structure, the fixing device penetrates out of the back plate through the oval mounting hole in the back plate; the fixing device is provided with two groups of fixing holes, and the long axis directions of the ellipses of the two corresponding mounting holes are mutually vertical.

10. A remote control device for use with a cradle for holding a stationary remote control device according to any one of claims 1 to 9, the remote control device comprising a case; a magnetic device is arranged in the box body; the magnetic device is close to the second surface of the box body; the first surface of the box body is placed on the first surface of the first bearing structure; the second face of the box body leans on the first face of the second bearing structure and is adsorbed on the first face of the second bearing structure.

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