CN107588309B - Mounting device for wall-mounted equipment - Google Patents

Abstract

The invention relates to the technical field of equipment installation, in particular to an installation device for wall-mounted equipment, which comprises: the installation base body is connected with the installation sub body in a sliding manner; the mounting precursors are for fixing to the wall surface, the mounting sub-body is part of the device to be mounted, or the mounting sub-body is for fixing to the device to be mounted. The installation device for the wall installation equipment can be fixedly installed on the wall surface by utilizing the sliding connection of the installation parent body and the installation sub-body. When the equipment is installed on the wall, the installation sub-body only needs to be slid into the installation parent body along the sliding direction, and the installation operation can be completed by one person, so that the time and the labor are saved. And the installation sub-body can be the structure of equipment itself, then need not additionally to increase spare part on equipment, easy to assemble. In addition, due to the adoption of the sliding connection structure, the relative sliding position of the installation parent body and the installation sub-body can be adjusted at any time, so that the installation position of the equipment can be conveniently adjusted after the equipment is installed.

Description

Mounting device for wall-mounted equipment

Technical Field

The invention relates to the technical field of equipment installation, in particular to an installation device for wall-mounted equipment.

Background

It is known that there are two general ways to mount all devices on a wall: the first way is to design a mounting hole or mounting piece specifically directly on the device, bolt the wall, mount the mounting hole or mounting piece on the device on the bolt, in order to fix the device on the wall. The second mode is to install an auxiliary installing support or a hook on the wall, and design hanging ring type buckles are arranged on corresponding equipment, and the equipment is fixedly installed on the wall by installing the hanging ring type buckles on the equipment on the auxiliary installing support or the hook.

The first mounting mode is used, for example, in the case of additionally designing a mounting piece on the equipment, the mounting piece extends out of the equipment body so as to screw the screw, and the overall aesthetic property of the equipment is poor. Or under the condition that a plurality of mounting hole sites are designed on the equipment, the mounting hole sites are in one-to-one correspondence with screw positions, so that the requirement on the mounting size or punching operation is high, the height of the equipment after being mounted can not be adjusted, the position is limited, and the equipment can be completed by matching with a plurality of people.

The second installation mode is used, the hanging ring type buckle can be designed on the back of the equipment, the problem that the equipment is not attractive in the first installation mode is solved, and one person can basically complete the installation mode. However, the auxiliary mounting bracket or the hook is not easy to align with the position during mounting on the front and back sides of the equipment, so that the mounting is time-consuming and labor-consuming.

Disclosure of Invention

Based on this, it is necessary to provide a mounting device for wall mounting equipment which is convenient and attractive in installation and capable of adjusting the height of the equipment after installation, aiming at the problems of poor installation aesthetic property, inconvenient installation and the like of the conventional wall mounting equipment.

The above purpose is achieved by the following technical scheme:

A mounting device for a wall-mounted apparatus, comprising: the installation base body is connected with the installation sub body in a sliding manner;

the mounting precursors are for fixing to the wall surface, the mounting sub-body is part of the device to be mounted, or the mounting sub-body is for fixing to the device to be mounted.

In one embodiment, the mounting base includes a fixed portion and a connecting portion connected to each other, the connecting portion is adapted to slidably connect with the mounting sub-body, and the fixed portion is adapted to fixedly connect with the wall surface.

In one of the embodiments, the fixing portion and the connecting portion are disposed at an angle, forming an accommodation space in which the mounting sub-body is accommodated in a direction parallel to a direction in which the connecting portion and the mounting sub-body relatively slide.

In one embodiment, the mounting sub-body includes a mounting portion extending in a direction in which the mounting parent body and the mounting sub-body slide relative to each other;

The mounting part and the connecting part are in sliding connection by utilizing a guide rail structure.

In one embodiment, the guide rail structure comprises a guide rail and a guide groove which are matched, the guide rail is arranged on one of the mounting part or the connecting part, and the guide groove is arranged on the other of the mounting part or the connecting part corresponding to the guide rail;

The guide rail is arranged in the guide groove in a sliding manner, and the guide rail and the guide groove are mutually restricted so as to limit the guide rail to be separated from the guide groove along the direction perpendicular to the relative sliding direction of the guide rail and the guide groove.

In one embodiment, the surface of the guide groove matched with the guide rail is provided with a limit rib, and the limit rib extends along a direction parallel to the relative sliding of the guide rail and the guide groove;

The guide rail is provided with a limit groove corresponding to the limit rib.

In one embodiment, the mounting device for the wall mounting apparatus further comprises a limit structure, the limit structure being arranged on the mounting portion and/or the connecting portion;

the limiting structure is used for limiting the displacement of the relative sliding of the mounting part and the connecting part.

In one embodiment, the spacing structure includes a plurality of spacing holes and a plurality of spacing screws;

Along the gliding direction of installation department and connecting portion, a plurality of spacing holes set up on the connecting portion with the interval, and the tip of a plurality of stop screw is passed a plurality of spacing holes respectively and is pressed on the installation department.

In one embodiment, a plurality of positioning holes are formed in the mounting portion corresponding to the plurality of limiting holes, and the end portions of the plurality of limiting screws respectively penetrate through the plurality of limiting holes to be connected with the plurality of positioning holes.

In one embodiment, the fixing portion is provided with a plurality of fixing holes along a direction parallel to the relative sliding direction of the connecting portion and the mounting sub-body.

The mounting device for the wall-mounted equipment can be fixedly mounted on the wall surface by utilizing the sliding connection between the mounting parent body and the mounting child body which are fixed on the wall surface. When the equipment is installed on the wall, only the installation sub-body needs to be slid into the installation parent body along the sliding direction, so that the installation operation can be completed by only one person, and the time and the labor are saved. And the installation sub-body can be the structure of the equipment, for example, the equipment with the radiating fins, and the installation sub-body is the radiating fin structure of the equipment, so that parts are not required to be additionally added on the equipment. Or the mounting sub-body may be fixedly mounted to the device as a separate component and may be shielded by the device itself without interfering with the overall aesthetics of the device. In addition, due to the adoption of the sliding connection structure, the position of the relative sliding of the installation parent body and the installation sub-body can be adjusted at any time, so that the position of the equipment can be conveniently adjusted after the equipment is installed.

Drawings

FIG. 1 is a view showing a construction of a mounting apparatus for wall-mounted equipment according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a mounting matrix of a mounting device for wall-mounted equipment according to an embodiment of the present invention;

FIG. 3 is a schematic top view of FIG. 1;

FIG. 4 is a cross-sectional view of FIG. 3;

fig. 5 is a partial enlarged view of fig. 4.

Wherein:

100-installing a parent body;

110-a fixing part; 111-fixing holes;

120-connecting part;

130-accommodation space;

140-limiting structure; 141-a limiting hole; 142-limit screws;

200-mounting the sub-body;

210-a mounting portion;

300-a rail structure;

310-a guide rail; 311-limit grooves;

320-a guide slot; 321-limiting ribs;

400-the device to be installed.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the following further details the mounting device for wall-mounted equipment according to the present invention by way of example with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. In contrast, when an element is referred to as being "directly on" another element, there are no intervening elements present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

The mounting device for the wall-mounted equipment can be fixedly mounted on the wall surface by utilizing the sliding connection between the mounting parent body and the mounting child body which are fixed on the wall surface. When the equipment is installed on the wall, only the installation sub-body needs to be slid into the installation parent body along the sliding direction, so that the installation operation can be completed by only one person, and the time and the labor are saved. And the installation sub-body can be the structure of the equipment, for example, the equipment with the radiating fins is provided, and the installation sub-body is the radiating fin structure of the equipment, so that parts are not required to be additionally added on the equipment, and after the equipment is wall-mounted, the installation device can not prevent the whole radiating of the radiating fins. In addition, even if the installation sub-body is inconvenient by means of the structural design of the equipment, the installation sub-body can be installed on the back of the equipment as a single component, and at the moment, the installation sub-body can be shielded by the equipment, so that the whole aesthetic property of the equipment is not hindered, and meanwhile, the installation sub-body is easy to align in a sliding connection mode. In addition, due to the adoption of the sliding connection structure, the position of the relative sliding of the installation parent body and the installation sub-body can be adjusted at any time, so that the position of the equipment can be conveniently adjusted after the equipment is installed.

As shown in fig. 1, a mounting apparatus for wall-mounted equipment according to an embodiment of the present invention includes: the mounting base body 100 and the mounting sub-body 200, the mounting base body 100 and the mounting sub-body 200 are connected in a sliding manner; the mounting base 100 is for fixing to a wall surface, the mounting sub-body 200 is a part of the apparatus 400 to be mounted, or the mounting sub-body 200 is for fixing to the apparatus 400 to be mounted.

The device 400 to be mounted illustrated in the drawings in the present invention is a device 400 with heat sink fins, such as an intelligent current transformer device 400. The mounting sub-body 200 is the heat sink fin itself and the mounting base 100 is structured to mate with the structure of the heat sink fin to form a sliding connection. The present invention is described in detail below for mounting a radiator-finned intelligent current transformer apparatus 400 to a wall.

Generally, the intelligent current transformer apparatus 400 has a rectangular parallelepiped shape, and a radiator is disposed at the back of the intelligent current transformer apparatus 400, and fins of the radiator may be disposed at intervals in parallel along the height direction of the intelligent current transformer apparatus 400. The fin shape of the radiator near both sides of the intelligent current transformer apparatus 400 is not limited to the fin shape of the approximate "i-shape" in fig. 3 to 5, and may be a fin of another shape such as an approximate "tree-fork shape" or an approximate "arrow shape". The fins near both sides of the back surface of the intelligent current transformer apparatus 400 form the mounting part 210 for sliding connection with the mounting base 100, and the above-mentioned fin shapes of the both side fins form the guide groove 320 for sliding cooperation with the mounting base 100. The intelligent converter device 400 may be slidably disposed on the mounting base 100 along a vertical direction, or may be slidably disposed on the mounting base 100 along a horizontal direction.

Of course, it will be appreciated that when the mounting apparatus for wall-mounted devices of the present invention is applied to the mounting of other devices 400, the mounting sub-body 200 may be directly welded to the device 400, for example, to the back of the device 400, preferably without affecting the overall appearance of the device 400. For example, the mounting sub-body 200 may include a mounting portion 210, the mounting portion 210 extending in a direction in which the mounting parent body 100 and the mounting sub-body 200 slide relative to each other.

Referring to fig. 2, as an embodiment, the mounting base 100 includes a fixing portion 110 and a connecting portion 120 connected to each other, the connecting portion 120 is slidably connected to the mounting sub-body 200, and the fixing portion 110 is fixedly connected to the wall surface.

The fixing portion 110 may be fixedly connected to the wall surface by a fastening screw. As an embodiment, the fixing portion 110 is provided with a plurality of fixing holes 111 in parallel to a direction in which the connection portion 120 and the mounting sub-body 200 slide relatively.

The connection portion 120 is mainly engaged with the fins (mounting portions 210) on both sides of the back surface to achieve the sliding connection between the mounting base 100 and the mounting sub-body 200, for example, the two are engaged in the form of a rail structure 300.

Referring to fig. 3 to 5, as an embodiment, the guide rail structure 300 includes a guide rail 310 and a guide groove 320, which are adapted, the guide rail 310 is disposed at one of the mounting portion 210 or the connection portion 120, and the guide groove 320 is disposed at the other of the mounting portion 210 or the connection portion 120 corresponding to the guide rail 310; the guide rail 310 is slidably disposed in the guide slot 320, and the guide rail 310 and the guide slot 320 are mutually restricted to limit the guide rail 310 from being separated from the guide slot 320 along a direction perpendicular to the relative sliding direction of the guide rail 310 and the guide slot 320.

As described above, the present invention is used to install the intelligent current transformer apparatus 400 with radiator fins to a wall, and the radiator fins near both sides of the intelligent current transformer apparatus 400 are formed in a shape of either an "i-shape", or a "tree-shape", or an "arrow-shape" to form the guide grooves 320 for being fitted with the guide rails 310. That is, in this embodiment, the guide groove 320 is provided on the mounting portion 210, and the guide rail 310 is provided on the connection portion 120.

In other embodiments, the guide groove 320 and the guide rail 310 may be transposed, i.e., the guide rail is disposed on the mounting portion 210 and the guide groove is disposed on the connection portion 120. The cross-sectional shape of the guide groove 320 may be the "i-shaped", "bifurcated" or "arrow-shaped" shape.

Based on the fin shapes (corresponding to the shape of the guide groove 320) on both sides of the back surface, the cross-sectional shape of the guide rail 310 is adapted to the cross-sectional shape of the guide groove 320, and when the guide rail 310 is slidably provided in the guide groove 320, both can be restrained to each other, so that the guide rail 310 cannot be separated from the guide groove 320 in other directions than along the guide groove 320.

Optionally, the surface of the guide groove 320 matching with the guide rail 310 is provided with a limit rib 321, and the limit rib 321 extends along a direction parallel to the relative sliding direction of the guide rail 310 and the guide groove 320; the guide rail 310 is provided with a limit groove 311 corresponding to the limit rib 321. The positions of the limit rib 321 and the limit groove 311 may also be exchanged, for example, the limit rib is disposed on the guide rail 310, and the limit groove is disposed on the guide groove 320.

In other embodiments, the stop rib 321 may be replaced by a stop protrusion or the like.

Referring to fig. 1 and 2, as one embodiment, the fixing portion 110 and the connection portion 120 are disposed at an angle to form a receiving space 130 in a direction parallel to a direction in which the connection portion 120 slides relative to the mounting sub-body 200, and the mounting sub-body 200 is received in the receiving space 130. Alternatively, the angle is 90 °.

By such design, the installation parent body 100 can be basically integrated with the intelligent current transformer device 400 when the intelligent current transformer device 400 is installed, and the connecting part 120 and the fixing part 110 of the installation parent body 100 can be respectively attached to two adjacent side surfaces of the intelligent current transformer device 400 when the intelligent current transformer device 400 is specifically used. For example, the fixing portion 110 is attached to the heat radiating fins on the back surface of the intelligent current transformer apparatus 400, and the connecting portion 120 is engaged with the heat radiating fins on the side surface close to the back surface of the intelligent current transformer apparatus 400, which are "i-shaped", or "tree-shaped", or "arrow-shaped". After the intelligent current transformer apparatus 400 is installed, the installation base 100 is not substantially visible. Also, by such design, after the intelligent current transformer apparatus 400 is wall-mounted, the area of the mounting parent 100 shielding the heat dissipation fins can be minimized to avoid interfering with the heat dissipation of the heat dissipation fins.

Of course, in other embodiments, the fixing portion 110 and the connecting portion 120 may be disposed at other angles, such as 180 °. In a specific design, the adaptation may be made according to the shape of the device 400 to be installed.

Referring to fig. 1, 2 and 4, as an embodiment, the mounting device for the wall-mounted device 400 further includes a limit structure 140 disposed on the mounting portion 210 and/or the connection portion 120; the limiting structure 140 is used for limiting the displacement of the mounting portion 210 and the connecting portion 120 in a sliding manner. In this way, the relative position of the device 400 to be installed and the wall can be located, and in some cases, the position of the device 400 to be installed can be easily adjusted after the device 400 to be installed is installed.

Optionally, the limiting structure 140 includes a plurality of limiting holes 141 and a plurality of limiting screws 142; along the sliding direction of the mounting portion 210 and the connecting portion 120, a plurality of limiting holes 141 are arranged on the connecting portion 120 at intervals, and the ends of the plurality of limiting screws 142 respectively pass through the plurality of limiting holes 141 and are pressed on the mounting portion 210.

For example, taking the case that the intelligent current transformer apparatus 400 is slidably disposed in the mounting matrix 100 in the vertical direction to implement the wall-mounting, after the mounting matrix 100 is fixed to the wall surface by the fixing portion 110, the intelligent current transformer apparatus 400 is slidably disposed on the connection portion 120 by the fins (mounting portions 210) on both sides of the back surface thereof, and the ends of the limit screws 142 are passed through the limit holes 141 on the connection portion 120 by tightening the limit screws 142 and are pressed against the fins (mounting portions 210) on both sides of the back surface, so that the intelligent current transformer apparatus 400 can be fixed at a certain height with respect to the wall. When the position of the intelligent current transformer apparatus 400 needs to be adjusted, that is, the intelligent current transformer apparatus 400 needs to be fixed at a slightly higher position or a slightly lower position, the plurality of limit screws 142 can be unscrewed outwards, the intelligent current transformer apparatus 400 is moved to the required position, and then the limit screws 142 are screwed.

Alternatively, a plurality of positioning holes may be provided in the fins (mounting portions 210) on both sides of the back surface, the pair of positioning holes corresponds to the plurality of limiting holes 141, and the ends of the plurality of limiting screws 142 respectively pass through the plurality of limiting holes 141 and are connected to the plurality of positioning holes. In this way, the fixing of the intelligent current transformer apparatus 400 is made more reliable.

There may be various situations where the length of the mounting base 100 and the length of the mounting sub-body 200 are identical, such as the mounting base 100 being longer than the mounting sub-body 200, or the mounting base 100 being shorter than the mounting sub-body 200, or both. For example, referring to fig. 1, the radiating fins (mounting sub-body 200) of the intelligent current transformer apparatus 400 may be relatively long in length, but the mounting parent 100 is not necessarily so long, and if the mounting parent 100 is made long, hiding of the mounting parent 100 is inconvenient. For example, when the intelligent transformer apparatus 400 is installed slightly higher, the lower end of the installation base 100 is integrally exposed, which is disadvantageous for the overall aesthetic appearance of the wall-mounted intelligent transformer apparatus 400. In particular use, the mounting precursor 100 and the mounting sub-body 200 may be specifically designed according to the shape and size of the device 400 to be mounted.

In other embodiments, the limiting structure 140 may be a stop plate disposed on the mounting portion 210 or the connecting portion 120. For example, taking the case that the intelligent current transformer apparatus 400 is slidably disposed in the mounting base 100 along the vertical direction to implement wall mounting, a stop plate is disposed at the lower end of the connection portion 120 of the mounting base 100, when the intelligent current transformer apparatus 400 is slidably connected to the mounting base 100 by sliding the fins (mounting portions 210) on both sides of the back into the connection portion 120, the stop plate can limit the sliding displacement of the fins (mounting portions 210) on both sides of the back, and when the lower end of the fins (mounting portions 210) on both sides of the back are abutted against the stop plate, the intelligent current transformer apparatus 400 is fixed at a fixed position on the wall surface. In this embodiment, however, the height position where the intelligent current transformer apparatus 400 is installed cannot be adjusted conveniently.

Similarly, a stopper plate may be provided at the upper ends of the fins (mounting portions 210) on both sides of the back surface of the intelligent current transformer apparatus 400, and the stopper plate may limit the displacement of the sliding of the fins (mounting portions 210) on both sides of the back surface when the intelligent current transformer apparatus 400 is slidably connected to the mounting matrix 100 by the sliding of the fins (mounting portions 210) on both sides of the back surface into the connecting portion 120, and the intelligent current transformer apparatus 400 is fixed at a fixed position on the wall surface when the stopper plate abuts against the upper end of the mounting matrix 100. This embodiment also cannot facilitate adjusting the height position at which the intelligent current transformer apparatus 400 is installed.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (7)

1. A mounting device for a wall-mounted apparatus, comprising: a mounting parent body (100) and a mounting child body (200), wherein the mounting parent body (100) is in sliding connection with the mounting child body (200);

the mounting parent body (100) is used for being fixed on a wall surface, and the mounting child body (200) is a part of equipment (400) to be mounted;

The installation parent body (100) comprises a fixed part (110) and a connecting part (120) which are connected, the installation sub-body (200) comprises an installation part (210), the installation part (210) and the connecting part (120) form sliding connection by utilizing a guide rail structure (300), the installation part (210) extends along the direction of relative sliding of the installation parent body (100) and the installation sub-body (200), and the fixed part (110) is used for being fixedly connected with a wall surface;

The guide rail structure (300) comprises a guide rail (310) and a guide groove (320) which are matched, the guide rail (310) is arranged on one of the installation part (210) or the connecting part (120), and the guide groove (320) is arranged on the other of the installation part (210) or the connecting part (120) corresponding to the guide rail (310);

The guide rail (310) is slidably arranged in the guide groove (320), and the guide rail (310) and the guide groove (320) are mutually restricted so as to limit the guide rail (310) to be separated from the guide groove (320) along the direction perpendicular to the relative sliding direction of the guide rail (310) and the guide groove (320);

The device to be installed (400) is intelligent converter equipment, the installation sub-body (200) is a radiating fin on the intelligent converter equipment, fins on two sides of the back of the intelligent converter equipment form the installation part (210), and the fins on two sides are in an I shape, a Y-shaped shape or an arrow shape, and form the guide groove (320).

2. The mounting device for wall-mounted equipment according to claim 1, characterized in that the fixing portion (110) and the connecting portion (120) are arranged at an angle forming an accommodation space (130) in a direction parallel to the relative sliding of the connecting portion (120) and the mounting sub-body (200), the mounting sub-body (200) being accommodated in the accommodation space (130).

3. The mounting device for wall-mounted equipment according to claim 1, characterized in that the surface of the guide groove (320) that cooperates with the guide rail (310) is provided with a limit rib (321), the limit rib (321) extending in a direction parallel to the relative sliding of the guide rail (310) and the guide groove (320);

the guide rail (310) is provided with a limiting groove (311) corresponding to the limiting rib (321).

4. The mounting arrangement for wall-mounted equipment according to claim 1, further comprising a limit structure (140), the limit structure (140) being provided on the mounting portion (210) and/or the connection portion (120);

The limiting structure (140) is used for limiting the displacement of the mounting part (210) and the connecting part (120) in a relative sliding mode.

5. The mounting device for wall-mounted equipment according to claim 4, characterized in that the limit structure (140) comprises a plurality of limit holes (141) and a plurality of limit screws (142);

Along the direction that the installation part (210) and the connecting part (120) slide relatively, the plurality of limiting holes (141) are arranged on the connecting part (120) at intervals, and the end parts of the plurality of limiting screws (142) respectively penetrate through the plurality of limiting holes (141) to be pressed on the installation part (210).

6. The mounting device for wall mounting equipment according to claim 5, wherein a plurality of positioning holes are provided on the mounting portion (210) corresponding to the plurality of limiting holes (141), and ends of the plurality of limiting screws (142) are respectively connected with the plurality of positioning holes through the plurality of limiting holes (141).

7. The mounting device for wall-mounted equipment according to claim 1, wherein the fixing portion (110) is provided with a plurality of fixing holes (111) in a direction parallel to the direction in which the connecting portion (120) and the mounting sub-body (200) slide relatively.