CN113566096B

CN113566096B - Bracket assembly for equipment installation

Info

Publication number: CN113566096B
Application number: CN202110936108.1A
Authority: CN
Inventors: 李军; 陈伟波; 肖峰; 周金龙
Original assignee: Shenzhen Guoren Wireless Communication Co Ltd
Current assignee: Shenzhen Guoren Wireless Communication Co Ltd
Priority date: 2021-08-16
Filing date: 2021-08-16
Publication date: 2023-09-15
Anticipated expiration: 2041-08-16
Also published as: CN113566096A

Abstract

The invention relates to a bracket assembly for equipment installation, comprising a first part and a sliding block part; the first component is used for being fixed on a mounting surface of bearing equipment, and a chute for accommodating the sliding block component is arranged on the first component; the slider member is adapted to be fixed to the device and to enter the chute upon installation and to be slidably retained in the chute a set distance, such that the device is mounted on the mounting surface. The bracket assembly for equipment installation has the following beneficial effects: the installation of the device is not influenced by the space and light of the installation environment, the installation difficulty is small, and the installation cost is low.

Description

Bracket assembly for equipment installation

Technical Field

The present invention relates to the field of equipment installation, and more particularly, to a bracket assembly for equipment installation.

Background

Some indoor devices, particularly communication devices, often require their installation in more specific locations to facilitate their operation. Such as a wireless router or some kind of forwarding device or wireless access device, etc. Generally, these devices are usually mounted on a wall or ceiling and secured in a room to provide a wide range of applications or better signal conditions. This installation requires the installer to lift the device in place and use fasteners to secure the device to the wall or ceiling. In the whole fixing process, an installer needs to ensure that the equipment position does not move, which not only makes the installation process difficult, but also requires better physical strength, and in some cases, more installers may be required to cooperate when the limited installation space or the light is not good. Therefore, the mounting mode in the prior art is not only difficult to mount, but also high in mounting cost.

Disclosure of Invention

The invention aims to solve the technical problems of the prior art that the difficulty of installation and disassembly is high and the installation cost is high, and provides a bracket component for equipment installation, which is low in installation difficulty and low in installation cost.

The technical scheme adopted by the invention for solving the technical problems is to construct a bracket component for equipment installation, which comprises a first component and a sliding block component; the first component is used for being fixed on a mounting surface of bearing equipment, and a chute for accommodating the sliding block component is arranged on the first component; the sliding block component is used for being fixed on equipment in advance and entering the sliding groove when being installed, and is fixed in the sliding groove, so that the equipment is installed on the installation surface.

Further, the first part comprises two sliding grooves, and the sliding block part comprises two sliding grooves which are respectively fixedly connected at different positions of the equipment and respectively enter the sliding grooves when being installed.

Further, the first part comprises a first thin plate, and two sides of the first thin plate are respectively bent twice to form two sliding grooves respectively; the sliding block comprises a sliding block obtained by bending a second thin plate for multiple times; the external dimension of the sliding block is matched with the dimension of the sliding groove.

Further, the two folds form a side surface and a bottom surface of the chute, respectively, the side surface of the chute is substantially perpendicular to the main body of the first sheet, and the bottom surface of the chute is substantially parallel to the main body of the first sheet.

Still further still include the locking structure that sets up respectively on the spout with the slider, the locking structure is after the slider gets into the spout sets for the distance the slider is fixed the position in the spout.

Still further, the locking structure comprises a positioning hole arranged on the chute, the positioning hole is arranged on a designated side face of the chute, the positioning hole comprises a square hole obtained by digging a section of side face at the designated position of the chute, and the square hole is positioned at the position of the middle part of the side face, which is deviated from one end.

Still further, the locking structure further comprises a spring plate arranged on the sliding block, the spring plate comprises a strip arranged on the appointed side face of the sliding block, a protrusion is arranged in the middle of the strip, and the protrusion is used for being matched with a positioning hole on the sliding groove after the sliding block enters the sliding groove, so that the position of the sliding block in the sliding groove is limited.

Further, the appointed side surface of the sliding block corresponds to the outer side surface of the sliding groove after the sliding block enters the sliding groove; one end of the appointed side surface of the sliding block is provided with an opening, one end of the elastic piece extends into the sliding block from the position where the opening is located and is connected to the inner side of the appointed side surface, and the protrusion of the elastic piece is exposed out of the sliding block from the position where the opening is located.

Still further, the first member is provided with a mounting hole for fixing the first member to the mounting surface by a fastener, and the mounting hole is provided between two slide grooves of the first member.

Further, the slider is provided with a device mounting hole for connecting the slider and the device together by a fastener, the device mounting hole being provided on a side of the slider adjacent to the specified side.

The bracket assembly for equipment installation has the following beneficial effects: the first component and the sliding block component are arranged, and the first component is only required to be fixed on the mounting surface during mounting, and the sliding block is connected to the mounted equipment, so that the sliding block is only required to be respectively placed in the sliding grooves during mounting, and the equipment is pushed, so that the wall hanging or suspended ceiling mounting of the equipment can be realized. Therefore, the installation of the device is not influenced by the space and light of the installation environment, the installation difficulty is low, and the installation cost is low.

Drawings

FIG. 1 is a schematic view of the construction of a first component of an embodiment of a bracket assembly for equipment mounting of the present invention;

FIG. 2 is a schematic view of the structure of the slider member in the embodiment;

FIG. 3 is a schematic view of the structure of the slider member in one instance of the embodiment;

FIG. 4 is a schematic illustration of the position of the slider member entering the chute on the first member in the embodiment;

fig. 5 is a schematic view of the mounting position of the bracket assembly on the device in the embodiment.

Detailed Description

Embodiments of the present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1 and 2, in the bracket assembly for equipment installation of the present invention, the bracket assembly for equipment installation includes a first member 1 (see fig. 1) and a slider member 2 (see fig. 2); the first component 1 is used for being fixed on a mounting surface of bearing equipment, such as a wall surface or a ceiling; the first part 1 is provided with a chute 12 for accommodating the slider part 2; the slide block part 2 is used for being fixed on equipment in advance and enters the sliding groove 12 when being installed, and is fixed in the sliding groove 12, so that the equipment is installed on the installation surface. In this embodiment, as shown in fig. 1, the first member 1 is a workpiece obtained by performing a specific process on a first sheet having an approximately rectangular shape, specifically, two sides of the first sheet are respectively bent twice, so that square sliding grooves 12 are respectively formed on two sides of the first sheet, and a sheet body 11 is formed between the two sliding grooves 12; thus, the first part 1 comprises two slide grooves 12, which slide grooves 12 are located on both sides of the first part 1, respectively, and between the two slide grooves 12 is a thin plate body 11. Since the number of the slide grooves 12 is two, the slide block parts 2 are also provided with two slide block parts 2, which are respectively used for being fixedly connected to different positions of equipment to be installed (usually communication equipment installed indoors) before the installation assembly is assembled, and the slide block parts 2 are respectively led into the two slide grooves 12 when the installation assembly is assembled. In this embodiment, as shown in fig. 2, the specific structure of the slider member 2 is also a workpiece which is obtained by bending a thin plate a plurality of times and has a square shape; the external dimension of the sliding block part 2 is matched with the dimension of the sliding groove 12, so that the sliding block part 2 can enter the sliding groove 12 and move, and the conditions of shaking and the like caused by too much difference can be avoided.

In the present embodiment, the two folds forming the chute 12 form the side surfaces 13 and the bottom surface 14 of the chute, respectively, the side surfaces 13 are substantially perpendicular to the sheet main body 11, and the bottom surface 14 is substantially parallel to the sheet main body 11, thereby forming the square chute 12. In this embodiment, the width of the bottom surface 14 is small so as not to interfere with the connection of the slider member 2 to the tape mounting apparatus. After the formation of the two square slide grooves 12, it is only necessary that the slide block 2 is limited to the slide groove 12 when the slide block 2 is entered into the slide groove 12, that is, the width of the end face 14 may be only 1/4 or 1/5 of the width of the slide block 2 as compared with the width of the slide block 2, and such width can limit the slide block 2 in the slide groove 12 without affecting the connection relationship between the slide block 2 and the apparatus.

To prevent the slider part 2 from sliding over the head during sliding into the chute 12, a stop 17 is provided at one end of the chute 12, the stop 17 serving to block the position of the slider part 2 entering the chute 12 so that it does not pass through the chute 12. When the first part 1 is mounted to an inclined or vertical mounting surface, the baffle 17 should be located at the lower end of the chute 12, and the slider part 2 enters the chute 12 from above down, the weight of the equipment to which it is connected being borne by the above-mentioned baffle 17. The baffle 17 may be formed by bending a corresponding position of the first sheet, and the baffle 17 is perpendicular to both the side surface 13 and the bottom surface 14 of the chute 12.

Furthermore, in order to prevent the slide block 2 from sliding out of the above-mentioned slide groove 12 when the first component 1 is mounted to a horizontal mounting surface, the bracket assembly further comprises a catch structure provided on the slide groove 12 and the slide block 2, respectively, which catch structure secures the position of the slide block 2 in the slide groove 12 after the slide block 2 has entered the slide groove 12 a set distance. Specifically, the locking structure includes a positioning hole 15 provided on the chute 12, the positioning hole 15 is provided on a specified side 13 (i.e., an outer side, please refer to fig. 1) of the chute 12, the positioning hole 15 includes a square hole obtained by cutting a section of the specified position of the side 13 of the chute 12, and the positioning hole 15 is preferably located near the inlet end of the chute 12. The locking structure further comprises a spring piece arranged on the sliding block part 2, the spring piece comprises a strip-shaped object 23 arranged on the appointed side face of the sliding block part 2, a protrusion 24 is arranged at the middle position of the strip-shaped object 23, one side of the protrusion 24 is provided with a smooth chamfer, so that the protrusion 24 is gradually pressed to enable the protrusion 24 to enter the positioning hole 15 in the sliding block part 2 sliding process of the sliding groove 12, and the other side of the protrusion 24 is not provided with a chamfer so as to prevent the protrusion 24 from being separated from the positioning hole 15, and thus the sliding part 2 is prevented from sliding out of the sliding groove 12.

In this embodiment, the protrusion 24 is disposed on a designated side 21 of the slider member 2, and the rear side 21 of the slider member 2 entering the chute 12 corresponds to the outer side 13 of the chute 12; i.e. in contact with or adjacent to the outer side 13 of the chute 12 after entering the chute 12. The slider member 2 has an opening 22 at one end of the designated side 21, one end of the elastic piece (i.e., one end of the strip 23 disposed or near the protrusion 24) extends into the slider member 2 from the position of the opening 22 and is connected to the inner side of the designated side 21 through a fixing hole 25, and the protrusion 24 of the elastic piece exposes the slider member 2 from the position of the opening 22. That is, in the present embodiment, since the slider member 2 is formed by bending a sheet a plurality of times, specifically, by bending a sheet three times to obtain four bending surfaces, the middle portion thereof is hollow; when the setting side 21 of the slider component 2 is provided with an opening 22, one end of the elastic piece (i.e. the combination of the strip 23 and the protrusion 24) (the end where the protrusion 24 is not provided) may extend from the opening 22 into the middle of the slider component 2; when the one end of the protruding piece is fastened to the inside of the slider member 2 through the fastening hole 25, the other end of the elastic piece (the end provided with the projection 24) is exposed out of the slider member 2 through the opening 22. When the slider member 2 moves or travels a predetermined distance in the slide groove 12, the protrusion 24 enters the positioning hole 15 provided in the slide groove 12 and cooperates with the positioning hole 15, so that the slider member 2 is restricted in the slide groove 12.

It will be appreciated that when it is desired to slide the slider part 2 out of the chute 12, the end of the bar 23 can be pressed away from the positioning hole 15 using the projection 24, so that the slider part 2 can be slid out of the chute 12.

It should be noted that fig. 2 shows the structure of the slider member 2 in one case of the present embodiment. In some cases in this embodiment, both slider parts 2 may be of such a construction that both runners 12 on the first part 1 are required to be provided with the above-mentioned locating holes 15 in the appropriate positions for cooperation with the above-mentioned slider parts 2. It will be appreciated that it is also possible to provide a spring plate on only one slider part 2, which slider part 2 is as shown in fig. 2; the other slider member 2 is not provided with a spring, and as shown in fig. 3, the slide groove 12 into which the slider member 2 enters may not be provided with the positioning hole 15.

Fig. 4 shows the positional relationship between the first part and the slider part when the slider part 2 enters the chute 12 and is defined. In this embodiment, referring to fig. 1, the first member 1 is provided with a first member mounting hole 16 for fixing the first member 1 to the mounting surface by a fastener, and the first member mounting hole 16 is provided on the thin plate body 11 between the two slide grooves 12 of the first member 1. These first component mounting holes 16 may include a plurality and may be provided at different positions of the above-described thin plate body 11. Further, referring to fig. 2, the slider member 2 is provided with a device mounting hole 26 for connecting the slider member 2 with a device by a fastener, the device mounting hole 26 being provided on a side of the slider member adjacent to the specified side 21, in fig. 2, on the top and bottom surfaces of the slider member 2. Fig. 5 shows the positional relationship in which the apparatus and the slider member 2 are connected, and the positional relationship in which the slider member 2 enters and is defined in the first member 1 in one case in the present embodiment.

The foregoing examples illustrate only a few embodiments of the invention and are described in detail herein without thereby 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

1. A bracket assembly for equipment mounting, comprising a first component and a slider component; the first component is used for being fixed on a mounting surface of bearing equipment, and a chute for accommodating the sliding block component is arranged on the first component; the first part comprises a first thin plate, and two sides of the first thin plate are respectively bent twice to form two sliding grooves; the sliding block component is used for being fixed on equipment and enters the sliding groove and is limited in the sliding groove after sliding for a set distance when being installed, so that the equipment is installed on the installation surface; the sliding block part is arranged on the sliding groove, and the sliding block part is arranged on the sliding groove; the locking structure comprises a positioning hole arranged on the sliding chute, and the positioning hole is arranged on the appointed side surface of the sliding chute; the locking structure further comprises a spring piece arranged on the sliding block component, wherein the spring piece comprises a strip-shaped object arranged on the appointed side surface of the sliding block component; the first ends of the strips extend into and are fixed to the inside of the sliding block part, and the second ends of the strips are exposed out of the sliding block part along the direction of the sliding grooves; the strip is provided with a protrusion near the second end, and the protrusion is used for being matched with a positioning hole on the chute after the sliding block part enters the chute to limit the position of the sliding block part in the chute; one side of the bulge is provided with a smooth chamfer so that the bulge is gradually pressed into the positioning hole in the process of sliding the sliding block part into the sliding groove, and the other side of the bulge is not provided with a chamfer so as to prevent the bulge from being separated from the positioning hole; the second end of the strip can be pressed to enable the protrusion to leave the positioning hole, so that the sliding block part can slide out of the sliding groove; one end of the sliding groove is provided with a baffle plate, and the baffle plate is used for limiting the maximum depth of the sliding part sliding into the sliding groove.

2. The bracket assembly for equipment installation according to claim 1, wherein the first part comprises two sliding grooves, and the sliding block part comprises two sliding grooves which are respectively fixedly connected at different positions of the equipment and respectively enter the sliding grooves when being installed.

3. The bracket assembly for equipment mounting according to claim 2, wherein the slider member includes a slider obtained by bending the second sheet a plurality of times; the external dimension of the sliding block is matched with the dimension of the sliding groove.

4. A bracket assembly for equipment mounting according to claim 3, wherein the two folds form a side and a bottom surface of the chute, respectively, the side of the chute being substantially perpendicular to the body of the first sheet and the bottom surface of the chute being substantially parallel to the body of the first sheet.

5. A bracket assembly for equipment mounting according to claim 1, wherein the first member is provided with a first member mounting hole for securing the first member to the mounting surface by a fastener.

6. The bracket assembly for equipment mounting according to claim 1, wherein the slider member is provided with an equipment mounting hole for connecting the slider member and equipment together by a fastener; the device mounting holes are provided on the top and bottom surfaces of the slider member adjacent to the specified side surfaces of the slider member; the bottom surface of the sliding groove is an end surface adjacent to the appointed side surface of the sliding groove, the end surface is in contact with the bottom surface of the sliding block part, and the width of the end surface is 1/4 or 1/5 of the width of the bottom surface of the sliding block part.