CN215497802U - Weak current module mounting structure and weak current module - Google Patents

Abstract

The utility model relates to the technical field of electrical equipment, in particular to a weak current module mounting structure and a weak current module; four shell fragments respectively with fixture block sliding connection, two press the briquetting respectively with shell fragment fixed connection, a plurality of second springs and bottom plate body fixed connection, four fixed columns respectively with second spring fixed connection, during the installation, aim at the fixture block the recess of bottom plate body and insert, the fixed column compresses the second spring and slides in the second spout, first spout aligns with the second spout, the second spring resets and pushes the fixed column and blocks main fixture block in the first spout, fixed mounting piece and bottom plate, the fixed column supports the shell fragment and will press the briquetting jack-up this moment, when dismantling the weak current module, press the briquetting and promote the shell fragment to slide in first spout according to pressing, and push back the fixed column, part fixture block and bottom plate, solve current weak current module installation and dismantle more troublesome problem.

Description

Weak current module mounting structure and weak current module

Technical Field

The utility model relates to the technical field of electrical equipment, in particular to a weak current module mounting structure and a weak current module.

Background

Along with the development of intelligent, digital distribution technique, must need some weak current modules to carry out digital intelligent processing among the distribution equipment, current weak current module has usually that the structure is complicated, and the wiring is in disorder, difficult assembly.

The existing weak current module is fixedly installed in a weak current box through bolts, so that the installation is troublesome, and the weak current module is damaged by connecting the weak current module through the bolts.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a weak current module mounting structure and a weak current module, and aims to solve the problem that the conventional weak current module is troublesome to mount and dismount.

In order to achieve the above object, the present invention provides a weak current module mounting structure and a weak current module, including a mounting block and a bottom plate, wherein the mounting block includes a fixture block, four spring pieces and two pressing blocks, the fixture block has two first sliding grooves, the two first sliding grooves are located on one side of the fixture block, the four spring pieces are respectively connected with the fixture block in a sliding manner and are located in the first sliding grooves, the two pressing blocks are respectively connected with the spring pieces in a rotating manner and are respectively located on one side of the spring pieces away from the fixture block, the bottom plate includes a bottom plate body, four fixing columns and four second springs, the bottom plate body has a groove and four second sliding grooves, the groove is located on one side of the bottom plate body, the four second sliding grooves are respectively located on the side wall of the groove, the four second springs are respectively connected with the bottom plate body in a fixed manner and are respectively located in the second sliding grooves, the four fixing columns are respectively fixedly connected with the second spring and are respectively positioned in the second sliding groove, and the weak current module is quickly installed and disassembled by the clamping of the installation block and the bottom plate without bolts and tools.

The weak current module is fixedly connected with the clamping blocks and positioned between the two pressing blocks, comprises a telephone submodule, a network submodule, a video interface submodule, a USB interface submodule and an RS232 serial port submodule and is used for digital intelligent power distribution.

The fixing column comprises a column body and a ball, the column body is fixedly connected with the second spring and located in the second sliding groove, the ball is connected with the column body in a rotating mode and located on one side, far away from the second spring, of the column body, the column body slides into the first sliding groove to clamp the clamping block, the mounting block and the bottom plate are fixed, and the ball is arranged to enable the clamping block to be inserted into and taken out of the clamping block, so that the column body clamping owner cannot move.

The mounting block further comprises two first springs, the two first springs are respectively fixedly connected with the elastic pieces and are evenly arranged between the elastic pieces, when the elastic pieces are abutted by the first springs, a reaction force is generated, the elastic pieces are clamped in the first sliding grooves, and the elastic pieces are prevented from being abutted out of the clamping blocks.

The mounting block further comprises a plurality of third springs, the third springs are fixedly connected with the clamping blocks respectively and are located on the sides, away from the clamping blocks, of the pressing block, the third springs are arranged to enable the mounting block to be popped out of the bottom plate after the fixing columns retract, and therefore practicability is improved.

The bottom plate further comprises two clamping jaws, the two clamping jaws are respectively rotatably connected with the bottom plate body and are located at the top of the bottom plate body, and the clamping jaws further enhance the fixing effect of the clamping blocks and the bottom plate body.

The mounting block further comprises a plurality of heat dissipation columns, the heat dissipation columns are fixedly connected with the clamping block respectively and are evenly distributed on one side of the clamping block, and the weak current module dissipates heat through the heat dissipation columns.

The mounting block further comprises a plurality of radiating fins, the radiating fins are fixedly connected with the radiating columns respectively and are located on one sides, away from the clamping blocks, of the radiating columns, and the radiating effect of the radiating columns is further enhanced by the radiating fins.

In the weak current module mounting structure and the weak current module, during mounting, a worker aligns the clamping block with the groove of the bottom plate body and inserts the clamping block, the fixing column is stressed to compress the second spring and slides in the second sliding groove of the bottom plate body, when the first sliding groove of the clamping block is aligned with the second sliding groove of the bottom plate body, the fixing column is not stressed any more, the second spring is reset to push the fixing column into the first sliding groove to clamp the clamping block, so that the mounting block is fixed with the bottom plate, the fixing column props against the elastic sheet in the first sliding groove, the elastic sheet is stressed to jack up the pressing block, during dismounting, the worker presses down the pressing block by hand, the pressing block moves downwards to push the elastic sheet to slide in the first sliding groove, so that the fixing is pushed to retract into the second sliding groove, the clamping block is separated from the bottom plate body, tools are not needed, the installation and the disassembly are convenient and quick, and the problem that the existing weak current module is troublesome to install and disassemble is solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a weak current module and a weak current module mounting structure provided in the present invention

Fig. 2 is a side view of a weak current module mounting structure and a weak current module according to the present invention;

fig. 3 is a top view of a weak current module mounting structure and a weak current module provided in the present invention;

FIG. 4 is a cross-sectional view taken along plane A-A of FIG. 2;

fig. 5 is an enlarged view of detail B of fig. 1.

In the figure: 1-mounting block, 2-bottom plate, 3-weak current module, 11-clamping block, 12-spring plate, 13-pressing block, 14-first sliding groove, 15-first spring, 16-third spring, 17-heat dissipation column, 18-heat dissipation sheet, 21-bottom plate body, 22-fixing column, 23-second spring, 24-clamping jaw, 25-groove, 26-second sliding groove, 221-column body and 222-ball.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the utility model and are not to be construed as limiting the utility model.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1 to 5, the present invention provides a weak current module mounting structure and a weak current module, including a mounting block 1 and a bottom plate 2, where the mounting block 1 includes a fixture block 11, four spring pieces 12 and two pressing blocks 13, the fixture block 11 has two first sliding grooves 14, the two first sliding grooves 14 are located on one side of the fixture block 11, the four spring pieces 12 are respectively connected with the fixture block 11 in a sliding manner and are all located in the first sliding grooves 14, the two pressing blocks 13 are respectively connected with the spring pieces 12 in a rotating manner and are respectively located on one side of the spring pieces 12 away from the fixture block 11, the bottom plate 2 includes a bottom plate body 21, four fixing posts 22 and a plurality of second springs 23, the bottom plate body 21 has a groove 25 and four second sliding grooves 26, the groove 25 is located on one side of the bottom plate body 21, the four second sliding grooves 26 are respectively located on a side wall of the groove 25, the four second springs 23 are respectively and fixedly connected with the bottom plate body 21 and respectively located in the second sliding grooves 26, and the four fixing columns 22 are respectively and fixedly connected with the second springs 23 and respectively located in the second sliding grooves 26.

In this embodiment, during installation, a worker aligns the fixture block 11 with the groove 25 of the bottom plate body 21 and inserts the fixture block 11, the fixing post 22 is forced to compress the second spring 23 and slide in the second sliding slot 26 of the bottom plate body 21, when the first sliding slot 14 of the fixture block 11 is aligned with the second sliding slot 26 of the bottom plate body 21, the fixing post 22 is no longer forced, the second spring 23 is reset to push the fixing post 22 into the first sliding slot 14 to clamp the fixture block 11, so as to fix the installation block 1 and the bottom plate 2, at this time, the fixing post 22 abuts against the elastic sheet 12 in the first sliding slot 14, the elastic sheet 12 is forced to jack up the pressing block 13, during disassembly, the worker presses the pressing block 13 with a hand, the pressing block 13 moves downwards to push the elastic sheet 12 to slide in the first sliding slot 14, therefore, the fixing column 22 is pushed to retract into the second sliding groove 26, the clamping block 11 is separated from the bottom plate body 21, tools are not needed, the installation and the disassembly are convenient and quick, and the problem that the existing weak current module is troublesome to install and disassemble is solved.

Further, the weak current module 3 is fixedly connected with the fixture block 11 and is located between the two pressing blocks 13.

In this embodiment, the weak current module 3 includes a telephone sub-module, a network sub-module, a video interface sub-module, a USB interface sub-module, and an RS232 serial port sub-module, and is used for digital intelligent power distribution.

Further, the mounting block 1 still includes two first springs 15, a plurality of third springs 16, a plurality of heat dissipation post 17 and a plurality of fin 18, two first spring 15 respectively with shell fragment 12 fixed connection equally divide and do not be located between the shell fragment 12, it is a plurality of third spring 16 respectively with fixture block 11 fixed connection all is located fixture block 11 is kept away from press block 13 one side, it is a plurality of heat dissipation post 17 respectively with fixture block 11 fixed connection equally divide and do not be located fixture block 11 one side, it is a plurality of fin 18 respectively with heat dissipation post 17 fixed connection all is located heat dissipation post 17 is kept away from fixture block 11 one side.

In this embodiment, when the elastic sheet 12 is abutted by the first spring 15, a reaction force is generated to clamp the elastic sheet 12 in the first sliding groove 14, so as to prevent the elastic sheet 12 from being abutted out of the clamping block 11, the third spring 16 is arranged to eject the mounting block 1 out of the bottom plate 2 after the fixing column 22 is retracted, so that the practicability is improved, the heat dissipation column 17 dissipates heat of the weak current module 3, the heat dissipation column 17 is made of pure copper and has good heat conduction performance, the heat dissipation sheet 18 increases the contact area of the heat dissipation column 17 and air, and further enhances the heat dissipation effect of the heat dissipation column 17.

Further, the bottom plate 2 further includes two claws 24, the two claws 24 are respectively connected with the bottom plate body 21 in a rotating manner and are located at the top of the bottom plate body 21, the fixing column 22 includes a column 221 and a ball 222, the column 221 is fixedly connected with the second spring 23 and is located in the second chute 26, and the ball 222 is connected with the column 221 in a rotating manner and is located at a side of the column 221 away from the second spring 23.

In this embodiment, the cylinder 221 drives the ball 222 to slide into the first sliding groove 14 to clamp the latch 11, and fix the mounting block 1 and the bottom plate 2, the ball 222 is disposed to prevent the cylinder 221 from being locked and unable to move when the latch 11 is inserted and removed, and the claw 24 further enhances the fixing effect of the latch 11 and the bottom plate body 21.

The utility model relates to a weak current module mounting structure and a weak current module, which comprises a mounting block 1 and a bottom plate 2, wherein the mounting block 1 comprises a clamping block 11, four elastic sheets 12, two pressing blocks 13, two first springs 15, a plurality of third springs 16, a plurality of heat dissipation columns 17 and a plurality of heat dissipation fins 18, the clamping block 11 is provided with two first sliding grooves 14, the bottom plate 2 comprises a bottom plate body 21, four fixed columns 22, four second springs 23 and two clamping claws 24, the bottom plate body 21 is provided with a groove 25 and two second sliding grooves 26, the fixed columns 22 comprise columns 221 and balls 222, the weak current module 3 is used for digital intelligent power distribution, heat generated by the operation of the weak current module 3 is dissipated through the heat dissipation columns 17, when the weak current module 3 is mounted, a worker aligns the clamping block 11 with the groove 25 of the bottom plate body 21 and inserts the clamping block 11, at this time, the third spring 16 is forced to compress, the ball 222 is forced to push the cylinder 221 to compress the second spring 23 and slide in the second sliding groove 26 of the bottom plate body 21, when the first sliding groove 14 of the fixture block 11 is aligned with the second sliding groove 26 of the bottom plate body 21, the fixing column 22 is no longer forced, the second spring 23 is reset to push the fixing column 22 into the first sliding groove 14 to clamp the fixture block 11, the claw 24 is rotated to fix the side surface of the fixture block 11 and the bottom plate body 21, at this time, the fixing column 22 abuts against the elastic sheet 12 in the first sliding groove 14, the elastic sheet 12 is forced to jack up the pressing block 13, when the weak current module 3 is disassembled, a worker firstly rotates the claw 24 with a hand to separate the claw 24 from the fixture block 11, and presses the pressing block 13 again with the hand, the pressing block 13 moves downwards to push the elastic sheet 12 to slide in the first sliding groove 14, so that the fixing column 22 is pushed to retract into the second sliding groove 26, the third spring 16 resets to bounce the fixture block 11, and the fixture block 11 is separated from the bottom plate body 21.

While the utility model has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the utility model.

Claims (8)

1. A weak current module mounting structure is characterized in that,

the mounting block comprises a clamping block, four elastic sheets and two pressing blocks, the clamping block is provided with two first sliding grooves, the two first sliding grooves are located on one side of the clamping block, the four elastic sheets are respectively in sliding connection with the clamping block and are located in the first sliding grooves, the two pressing blocks are respectively in rotating connection with the elastic sheets and are respectively located on one sides of the elastic sheets, which are far away from the clamping block, the bottom plate comprises a bottom plate body, four fixing columns and four second springs, the bottom plate body is provided with a groove and four second sliding grooves, the groove is located on one side of the bottom plate body, the four second sliding grooves are respectively located on the side walls of the groove, the four second springs are respectively and fixedly connected with the bottom plate body and are respectively located in the second sliding grooves, and the four fixing columns are respectively and fixedly connected with the second springs, are respectively positioned in the second sliding grooves.

2. A weak current module applied to a weak current module mounting structure as claimed in claim 1,

the weak current module is fixedly connected with the clamping block and is positioned between the two pressing blocks.

3. A weak current module mounting structure as set forth in claim 1,

the fixed column comprises a column body and a ball, the column body is fixedly connected with the second spring and is located in the second sliding groove, and the ball is connected with the column body in a rotating mode and is located on one side, far away from the second spring, of the column body.

4. A weak current module mounting structure as set forth in claim 1,

the mounting block further comprises two first springs, and the two first springs are fixedly connected with the elastic pieces respectively and are located between the elastic pieces respectively.

5. A weak current module mounting structure as set forth in claim 1,

the mounting block further comprises a plurality of third springs, the third springs are fixedly connected with the clamping blocks respectively and are located on one sides, far away from the pressing block, of the clamping blocks.

6. A weak current module mounting structure as set forth in claim 1,

the bottom plate still includes two jack catchs, two the jack catch respectively with the bottom plate body rotates to be connected, all is located bottom plate body top.

7. A weak current module mounting structure as set forth in claim 1,

the mounting block further comprises a plurality of heat dissipation columns, the heat dissipation columns are fixedly connected with the clamping blocks respectively and are located on one sides of the clamping blocks respectively.

8. A weak current module mounting structure as claimed in claim 7,

the mounting block further comprises a plurality of radiating fins, and the radiating fins are fixedly connected with the radiating columns respectively and are located on one sides, far away from the clamping blocks, of the radiating columns.

Images