CN112910088A - Power distribution room remote monitoring device capable of being installed quickly and installation method thereof - Google Patents

Abstract

The utility model relates to a but distribution room remote monitoring device and installation method that quick installation, relate to the remote monitoring device field, generally need the screw to make it fix on the wall body in order to solve current remote monitoring device, need be with the help of appurtenance through the screw installation, the lower problem of efficiency, it includes device body and device bottom plate, the device bottom plate is fixed on the lateral wall of device body, be provided with the connecting block on the device bottom plate, be provided with the joint board on the lateral wall that the connecting block kept away from device bottom plate direction, the lateral wall area that the joint board is close to the connecting block direction is greater than the area that the connecting block is close to the lateral wall of joint board direction. This application has the effect that improves remote monitoring device's installation effectiveness.

Description

Power distribution room remote monitoring device capable of being installed quickly and installation method thereof

Technical Field

The application relates to the field of remote monitoring devices, in particular to a power distribution room remote monitoring device capable of being installed quickly and an installation method thereof.

Background

The remote monitoring device can be used for carrying out real-time transmission on information needing to be known in an unmanned monitoring state.

Related patent publication No. CN105577996B, provides a camera module capable of removing moisture and foreign substances on a lens, comprising: a camera body having a lens; a first rotating body rotatably coupled to the camera body; a driving member for rotating the first rotating body; a wiper coupled to the first rotating body, the wiper wiping the lens with a rotational force of the first rotating body rotated by a driving force of the driving member; when the camera is installed, the camera is fixed on an object to be monitored through bolts or screws.

In view of the above-mentioned related art, the inventor believes that the screw mounting requires an auxiliary tool and is inefficient.

Disclosure of Invention

In order to improve the installation efficiency of the remote monitoring device, the application provides the power distribution room remote monitoring device capable of being installed rapidly and the installation method thereof.

First aspect, this application provides a but distribution room remote monitoring device of quick installation, adopts following technical scheme:

the utility model provides a but distribution room remote monitoring device of quick installation, includes device body and device bottom plate, the device bottom plate is fixed on the lateral wall of device body, be provided with the connecting block on the device bottom plate, the connecting block is provided with the joint board on keeping away from the lateral wall of device bottom plate direction, the lateral wall area that the joint board is close to the connecting block direction is greater than the area that the connecting block is close to the lateral wall of joint board direction.

By adopting the technical scheme, the clamping plate and the connecting block are inserted into the preset groove, and the whole remote monitoring device is moved until the clamping plate is limited, so that the remote monitoring device is installed; through the installation mode of grafting, spacing formula, improved remote monitoring device's installation effectiveness.

Optionally, a tight supporting groove is formed in the side wall, away from the connecting block, of the clamping plate, an elastic piece is arranged in the tight supporting groove, and the end portion of the elastic piece is connected with the groove bottom of the tight supporting groove.

Through adopting above-mentioned technical scheme, after the joint board is spacing, the elastic component supports tightly on the wall body, makes joint board and wall body offset to the biggest static friction power between joint board and the wall body has been increased, thereby has improved the stability of joint board restriction on the wall body, thereby has improved the stability of remote monitoring device installation.

Optionally, a first magnetic part is embedded in the side wall of the connecting block, a second magnetic part is magnetically attracted to the first magnetic part, and a shielding layer is arranged on the side wall, far away from the first magnetic part, of the second magnetic part.

Through adopting above-mentioned technical scheme, the shielding layer can insert the area of establishing into the wall body to the joint board and play the effect of sheltering from, has reduced the long-pending of dust and has covered.

Optionally, the side wall of the shielding layer is provided with a moving ball, and the moving ball is located at one end of the shielding layer close to the direction of the second magnetic element.

Through adopting above-mentioned technical scheme, the removal ball can make the position of shielding layer tip difficult to remove, removes the ball and has ensured the stability of shielding layer under the action of gravity.

Optionally, the side walls of the two sides of the bottom plate of the device are provided with moving rings.

Through adopting above-mentioned technical scheme, will utilize the shift ring to remove joint board in to the wall body, improved the convenience of removing whole remote monitoring device.

In a second aspect, the present application provides a method for installing a power distribution room remote monitoring device capable of being installed quickly, which adopts the following technical scheme:

a method for installing a power distribution room remote monitoring device capable of being installed quickly comprises the following steps:

s1, arranging a connecting long groove on the wall, arranging a clamping long groove at the bottom of the connecting long groove, and arranging a pre-inserting groove at one end of the connecting long groove in the length direction;

s2, fixing one end of the shielding layer far away from the second magnetic piece on the inner side wall of the long connecting groove close to the direction of the pre-inserting groove;

s3, embedding the connecting block and the clamping and connecting plate into the wall body from the pre-insertion groove, inserting the clamping and connecting plate into the clamping and connecting long groove at the moment, and adsorbing the second magnetic piece on the first magnetic piece;

and S4, moving the clamping and connecting plate towards the length direction of the long connecting groove, and finally attaching the clamping and connecting plate to the inner side wall of the long clamping groove far away from the direction of the pre-inserting groove to finish installation.

Through adopting above-mentioned technical scheme, locate to set up required groove through locating at the wall body in advance, install remote monitoring device on the wall body fast, if need maintain or change, can dismantle from the wall body fast.

Optionally, in step S1, a long covering slot is formed at both ends of the pre-insertion slot in the width direction.

By adopting the technical scheme, the end part of the covering layer is attached to the inner side wall of the covering elongated slot by the covering elongated slot, so that the gap between the covering layer and the connecting elongated slot is reduced, and the dust accumulation is further reduced.

Optionally, in step S1, after the operation on the wall is completed, smooth protective layers are attached to the inner side walls of the connecting long groove, the inner side walls of the clamping long groove, the pre-inserting groove and the covering long groove.

Through adopting above-mentioned technical scheme, smooth protective layer has improved the roughness in the region that slides to reduce the wearing and tearing of joint board, thereby reduced the consume of material.

Optionally, in step S1, before the smooth protective layer is attached, the inner side walls of the connecting long groove, the inner side walls of the clamping long groove, the inner side walls of the pre-insertion groove, and the inner side walls of the covering long groove are all subjected to smoothing treatment.

By adopting the technical scheme, the inner side wall is subjected to smoothing treatment, so that the smooth protective layer is more tightly connected during attachment, and the connection tightness of the smooth protective layer is improved.

In summary, the present application includes at least one of the following beneficial technical effects:

1. inserting the clamping plate and the connecting block into a preset groove, and moving the whole monitoring device until the clamping plate is limited, thereby completing the installation of the remote monitoring device; the installation efficiency of the remote monitoring device is improved by the plug-in and limiting installation mode;

2. the remote monitoring device is quickly installed on the wall body by arranging the required groove on the wall body in advance, and can be quickly detached from the wall body if maintenance or replacement is needed; meanwhile, the abrasion of the clamping plate and the connecting block in the sliding process is reduced through the smooth protective layer.

Drawings

Fig. 1 is a schematic structural diagram of a power distribution room remote monitoring device capable of being installed quickly in an embodiment of the present application.

Fig. 2 is a schematic structural diagram for showing a positional relationship between the connecting block and the clamping plate in the embodiment of the present application.

Fig. 3 is an enlarged schematic view of a portion a in fig. 2.

Fig. 4 is a schematic structural diagram for showing a positional relationship between the shielding layer and the moving ball in the embodiment of the present application.

Fig. 5 is a schematic structural diagram of a wall in an embodiment of the present application.

Description of reference numerals: 1. a device body; 2. a device chassis; 21. a moving ring; 3. connecting blocks; 4. a clamping and connecting plate; 41. abutting against the groove; 411. an elastic member; 42. a first magnetic member; 5. a second magnetic member; 51. a shielding layer; 52. moving the ball; 6. a long connecting groove; 61. covering the long groove; 7. clamping a long slot; 71. pre-inserting the grooves; 8. and (6) smoothing the protective layer.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses distribution room remote monitoring device that can install fast. Referring to fig. 1, the remote monitoring device includes a device body 1 and a device bottom plate 2, the device bottom plate 2 is installed and fixed with the device body 1 in advance, moving rings 21 are arranged on the side walls of both sides of the device bottom plate 2, and the moving rings 21 are fixed on the side walls of both sides of the device bottom plate 2 by welding.

Referring to fig. 2, a connecting block 3 is fixed on the device bottom plate 2 by gluing, the connecting block 3 is positioned on the side wall of the device bottom plate 2 far away from the device body 1, and the end wall of the connecting block 3, which is attached to the device bottom plate 2, is circular; there is joint board 4 through sticky fixed on connecting block 3, and joint board 4 is located connecting block 3 and keeps away from the lateral wall of 2 directions of device bottom plate, and joint board 4 is close to the lateral wall area of 3 directions of connecting block and is greater than the area that connecting block 3 is close to the lateral wall of 4 directions of joint board.

Referring to fig. 2, a abutting groove 41 is formed in a side wall of the clamping plate 4 away from the connecting block 3, an elastic member 411 is arranged in the abutting COA, the elastic member 411 may be a spring, and one end of the elastic member 411 inserted in the abutting groove 41 is fixed to the bottom of the abutting groove 41 by gluing.

Referring to fig. 2 and 3, a first magnetic member 42 is disposed on a side wall of the connection block 3, the first magnetic member 42 may be a magnet, and the first magnetic member 42 is adhered to the side wall of the connection block 3 by an embedding adhesive; the second magnetic piece 5 is arranged on the first magnetic piece 42, the second magnetic piece 5 can be a magnet, the second magnetic piece 5 is magnetically attracted on the first magnetic piece 42, the side wall of the second magnetic piece 5, which is far away from the first magnetic piece 42, is provided with the shielding layer 51, the shielding layer 51 is fixed on the side wall of the second magnetic piece 5 through gluing, and the shielding layer 51 can be made of plastic.

Referring to fig. 4, the side walls of the shielding layer 51 are provided with moving balls 52, the moving balls 52 are located at one end of the shielding layer 51 close to the second magnetic element 5, and the moving balls 52 are fixed on the side walls of the shielding layer 51 by gluing.

The implementation principle of the power distribution room remote monitoring device capable of being installed quickly is as follows: inserting the clamping plate 4 and the connecting block 3 into a preset groove, and moving the whole monitoring device until the clamping plate 4 is limited, thereby completing the installation of the remote monitoring device; through the installation mode of grafting, spacing formula, improved remote monitoring device's installation effectiveness.

The embodiment of the application further discloses an installation method of the power distribution room remote monitoring device capable of being installed rapidly. Referring to fig. 2 and 5, the following steps are included:

s1, forming a connecting long groove 6 in the wall body through a drill bit, forming a clamping long groove 7 at the bottom of the connecting long groove 6, and forming a pre-inserting groove 71 at one end of the connecting long groove 6 in the length direction;

a covering long groove 61 is formed in one end of the pre-insertion groove 71 in the width direction, and the covering long groove 61 is located on one side of the pre-insertion groove 71 close to the ground;

smoothing the inner side wall of the connecting elongated slot 6, the inner side wall of the clamping elongated slot 7, the inner side wall of the pre-inserting slot 71 and the inner side wall of the covering elongated slot 61, smoothing by using a small wall surface grinding machine, and absorbing ground dust by using a small dust collector after smoothing;

after the smoothing treatment, the smooth protective layer 8 is adhered to the inner side wall of the connecting long groove 6, the inner side wall of the clamping long groove 7, the inner side wall of the pre-inserting groove 71 and the inner side wall of the covering long groove 61 through gluing, and the smooth protective layer 8 can be an iron sheet.

S2, the end of the shielding layer 51 away from the second magnetic member 5 is fixed by gluing to the inner side wall of the connecting slot 6 in the direction close to the pre-insertion slot 71, wherein the moving ball 52 is placed at the covering slot 61.

S3, embedding the connecting block 3 and the clamping plate 4 into the wall from the connecting long groove 6, inserting the clamping plate 4 into the clamping long groove 7 at the moment, and adsorbing the second magnetic piece 5 on the first magnetic piece 42;

s4, the moving ring 21 is used to move the clamping plate 4 in the length direction of the connecting long slot 6, and the moving ball 52 moves in the covering long slot 61, so that the clamping plate 4 is finally attached to the inner side wall of the clamping long slot 7 away from the pre-insertion slot 71, and the installation is completed, and at this time, the elastic member 411 abuts against the bottom of the clamping long slot 7.

When the remote monitoring device needs to be disassembled, the device bottom plate 2 is pulled by the moving ring 21, the clamping plate 4 is moved towards the direction close to the pre-insertion groove 71, and when the clamping plate 4 is completely located at one end close to the direction of the pre-insertion groove 71, the first magnetic piece 42 is separated from the second magnetic piece 5, and the clamping plate 4 can be taken out from the wall body.

The implementation principle of the installation method of the power distribution room remote monitoring device capable of being installed quickly in the embodiment of the application is as follows: the remote monitoring device is quickly installed on the wall body by arranging the required groove on the wall body in advance, and can be quickly detached from the wall body if maintenance or replacement is needed; meanwhile, the abrasion of the clamping plate 4 and the connecting block 3 in the sliding process is reduced through the smooth protective layer 8.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a but distribution room remote monitoring device of quick installation, includes device body (1) and device bottom plate (2), device bottom plate (2) are fixed on the lateral wall of device body (1), its characterized in that: be provided with connecting block (3) on device bottom plate (2), be provided with joint board (4) on the lateral wall that device bottom plate (2) direction was kept away from in connecting block (3), the lateral wall area that joint board (4) are close to connecting block (3) direction is greater than the area that connecting block (3) are close to the lateral wall of joint board (4) direction.

2. A quick-installable power distribution room remote monitoring apparatus as claimed in claim 1, wherein: the side wall of the clamping plate (4) far away from the direction of the connecting block (3) is provided with a abutting groove (41), an elastic piece (411) is arranged in the abutting groove (41), and the end part of the elastic piece (411) is connected with the groove bottom of the abutting groove (41).

3. A quick-installable power distribution room remote monitoring apparatus as claimed in claim 1, wherein: the side wall of the connecting block (3) is embedded with a first magnetic part (42), a second magnetic part (5) is arranged on the first magnetic part (42) in a magnetic attraction mode, and a shielding layer (51) is arranged on the side wall, far away from the first magnetic part (42), of the second magnetic part (5).

4. A quick-installable power distribution room remote monitoring apparatus as claimed in claim 3, wherein: the side walls of the shielding layers (51) are provided with moving balls (52), and the moving balls (52) are located at one end of the shielding layers (51) close to the direction of the second magnetic piece (5).

5. A quick-installable power distribution room remote monitoring apparatus as claimed in claim 1, wherein: the device is characterized in that moving rings (21) are arranged on the side walls of the two sides of the bottom plate (2).

6. The method for installing a distribution room remote monitoring apparatus capable of being installed quickly according to any one of claims 1 to 5, comprising the steps of:

s1, arranging a connecting long groove (6) on the wall, arranging a clamping long groove (7) at the bottom of the connecting long groove (6), and arranging a pre-inserting groove (71) at one end of the connecting long groove (6) in the length direction;

s2, fixing one end of the shielding layer (51) far away from the second magnetic piece (5) on the inner side wall of the long connecting groove (6) close to the direction of the pre-insertion groove (71);

s3, embedding the connecting block (3) and the clamping and connecting plate (4) into the wall body from the pre-insertion groove (71), inserting the clamping and connecting plate (4) into the clamping and connecting long groove (7), and adsorbing the second magnetic piece (5) on the first magnetic piece (42);

s4, moving the clamping and connecting plate (4) to the length direction of the long connecting groove (6), and finally attaching the clamping and connecting plate (4) to the inner side wall of the long clamping and connecting groove (7) far away from the direction of the pre-inserting groove (71) to complete installation.

7. The method for installing a power distribution room remote monitoring device capable of being installed quickly according to claim 6, wherein the method comprises the following steps: in step S1, long covering grooves (61) are formed at both ends of the pre-insertion groove (71) in the width direction.

8. The method for installing a power distribution room remote monitoring device capable of being installed quickly according to claim 6, wherein the method comprises the following steps: in the step S1, after the operation on the wall is finished, smooth protective layers (8) are attached to the inner side walls of the connecting elongated slots (6), the inner side walls of the clamping elongated slots (7), the inner side walls of the pre-inserting slots (71) and the inner side walls of the covering elongated slots (61).

9. The method of claim 8, wherein the method comprises the steps of: in the step S1, before the smooth protective layer (8) is attached, the inner side walls of the connecting long groove (6), the clamping long groove (7), the pre-insertion groove (71) and the covering long groove (61) are all subjected to smoothing treatment.

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