CN212063054U

CN212063054U - Thing networking power distribution cabinet

Info

Publication number: CN212063054U
Application number: CN202020711435.8U
Authority: CN
Inventors: 李萌萌; 薛会营; 王炳河
Original assignee: Qingdao Shengtaida Power Equipment Co ltd
Current assignee: Qingdao Shengtaida Power Equipment Co ltd
Priority date: 2020-05-04
Filing date: 2020-05-04
Publication date: 2020-12-01
Anticipated expiration: 2030-05-04

Abstract

The utility model discloses a thing networking power distribution cabinet, the intelligent cabinet temperature adjusting device comprises a cabinet body, the both ends lateral wall of the cabinet body all runs through and is equipped with the decurrent louvre of a plurality of slopes, the inside wall of louvre is equipped with clearance mechanism, the both ends lateral wall of the cabinet body all is equipped with a plurality of coupling mechanism, and is a plurality of the equal fixedly connected with mounting panel of coupling mechanism's lateral wall, it is a plurality of the mounting panel is close to the lateral wall of the cabinet body and all is equipped with the shutoff mechanism that extends to rather than relative radiating hole. The utility model has the advantages of reasonable design, not only can be when the rainfall, carry out the shutoff to the louvre, cause the internal circuit element of cabinet to wet emergence short circuit or open circuit phenomenon in avoiding the rainwater to get into the switch board, at the normal heat dissipation of rainfall weather guarantee switch board, can clear up the louvre in addition when avoiding the rainwater to get into the switch board, avoid piling up the dust in the louvre and influence its normal heat dissipation.

Description

Thing networking power distribution cabinet

Technical Field

The utility model relates to a power distribution cabinet technical field especially relates to a thing networking power distribution cabinet.

Background

The internet of things can be accessed through various possible networks, the ubiquitous connection of objects and objects, and the ubiquitous connection of objects and people can be realized, the intelligent sensing, identification and management of objects and processes can be realized, the internet of things is an information bearing body based on the internet, a traditional telecommunication network and the like, all common physical objects which can be independently addressed form an interconnected and intercommunicated network, and in the realization process of the internet of things, a distribution box is required to be used for connecting and wiring power elements.

At present, when thing networking power distribution cabinet used, set up the louvre that the slope set up downwards at the both ends lateral wall of switch board usually and dispel the heat, but when rainfall is great, the rainwater can get into in the switch board through the louvre, make the inside electric power original paper of switch board take place to wet the phenomenon, and the louvre is after long-time the use, can pile up the dust, the dust still can get into inside the switch board through the louvre, adhere to on the electric power original paper, reduce the life of electric power original paper, we have designed thing networking power distribution cabinet for this reason and have solved above problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving and dispel the heat through the louvre among the prior art and can not carry out rain-proof dustproof work effectively, can reduce the life problem of electric power original paper, and the thing networking power distribution cabinet that proposes, it not only can be when the rainfall, carry out the shutoff to the louvre, cause the internal circuit component of cabinet to wet emergence short circuit or open circuit phenomenon in avoiding the rainwater to get into the switch board, at the normal heat dissipation of rainfall weather guarantee switch board, and can be when avoiding the rainwater to get into the switch board, clear up the louvre, it influences its normal heat dissipation to avoid piling up the dust in the louvre.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an Internet of things power distribution cabinet comprises a cabinet body, wherein a plurality of heat dissipation holes which incline downwards are arranged on the side walls of two ends of the cabinet body in a penetrating way, cleaning mechanisms are arranged on the inner side walls of the heat dissipation holes, the side walls at the two ends of the cabinet body are respectively provided with a plurality of connecting mechanisms, the side walls of the connecting mechanisms are respectively and fixedly connected with a mounting plate, the side walls of the mounting plates, which are close to the cabinet body, are respectively provided with a plugging mechanism which extends into a heat dissipation hole opposite to the side walls, the side walls of the plugging mechanisms are opposite to the side poles of the opposite side walls of the cleaning mechanism opposite to the side walls, the bottoms of the mounting plates are respectively and fixedly connected with a water guide plate, the upper end fixedly connected with actuating mechanism of the cabinet body, the upper end fixedly connected with two wire conduits of the cabinet body, it is a plurality of the free end of shutoff mechanism all passes rather than relative wire conduit and establishes on actuating mechanism by winding, be equipped with heat dissipation mechanism on the cabinet body.

Preferably, clearance mechanism is including seting up the first direction spout on the louvre inside wall, sliding connection has first magnetic path in the first direction spout, be connected with a plurality of first springs between the inside wall of first magnetic path and first direction spout, the preceding lateral wall fixedly connected with of first magnetic path filters the frame, filter the frame and offset and rather than sliding connection with the inside wall of louvre, install the filter screen on the filter frame, the lateral wall fixedly connected with of filtering the frame offsets and rather than sliding connection's annular cleaning brush with the inside wall of louvre.

Preferably, coupling mechanism is including seting up the second direction spout on cabinet side wall, sliding connection has the direction slider in the second direction spout, be connected with a plurality of second springs between the interior top of direction slider and second direction spout, mounting panel fixed connection is at the lateral wall of direction slider.

Preferably, shutoff mechanism is including seting up the shutoff groove on the mounting panel is close to cabinet body one end lateral wall, sliding connection has the shutoff board that extends to rather than in the relative radiating hole in the shutoff groove, be connected with a plurality of third springs between the inside wall in shutoff board and shutoff groove, the lateral wall of shutoff board inlays and is equipped with the second magnetic path opposite with the relative lateral wall magnetic pole of first magnetic path, the lateral wall fixedly connected with stay cord of shutoff board.

Preferably, actuating mechanism includes the humidity inductor of fixed connection in the cabinet body upper end, the upper end fixedly connected with servo motor of the cabinet body, the humidity inductor is controlled servo motor, servo motor's the terminal fixedly connected with reel of output shaft, the free end of stay cord passes the conduit and winds and establish on the reel.

Preferably, heat dissipation mechanism includes the annular storage water tank of fixed connection on the cabinet side wall, the inside wall of the cabinet body inlays and is equipped with first annular heat-conducting plate, the lateral wall of the cabinet body inlays and is equipped with second annular heat-conducting plate, a plurality of radiating fin that extend to in the annular storage water tank of lateral wall fixedly connected with of second annular heat-conducting plate.

Compared with the prior art, the utility model, its beneficial effect does:

1. through the setting of coupling mechanism, shutoff mechanism, actuating mechanism, heat dissipation mechanism, can carry out the shutoff to the louvre when the rainfall, avoid the rainwater to get into the switch board in, cause cabinet body internal circuit component to wet, take place the short circuit or the phenomenon of opening circuit, and can be at the normal heat dissipation of rainfall weather guarantee switch board.

2. Through the setting of second magnetic path, first direction spout, first magnetic path, first spring, filter screen, filter frame, annular clearance brush, can clear up the louvre when avoiding the rainwater to get into the switch board, avoid piling up the dust in the louvre and influence its normal heat dissipation.

To sum up, the utility model has the advantages of reasonable design, not only can be when the rainfall, carry out the shutoff to the louvre, cause the internal circuit element of cabinet to wet and take place short circuit or open circuit phenomenon in avoiding the rainwater to get into the switch board, at the normal heat dissipation of rainfall weather guarantee switch board, can clear up the louvre in addition when avoiding the rainwater to get into the switch board, avoid piling up in the louvre that the dust influences its normal heat dissipation.

Drawings

Fig. 1 is a schematic structural view of an internet-of-things power distribution cabinet provided by the utility model;

FIG. 2 is an enlarged view of the structure at A in FIG. 1;

FIG. 3 is an enlarged view of the structure at B in FIG. 2;

FIG. 4 is an enlarged view of the structure at C in FIG. 1;

fig. 5 is a schematic connection diagram of the heat dissipation hole, the first guide chute, the first magnetic block, and the first spring.

In the figure: the

cabinet body

1, 2 louvres, 3 first direction spout, 4 first magnetic path, 5 first springs, 6 filter screens, 7 filter frames, 8 annular cleaning brushes, 9 second direction spouts, 10 direction sliders, 11 second springs, 12 mounting panels, 13 shutoff grooves, 14 shutoff boards, 15 third springs, 16 stay ropes, 17 humidity inductor, 18 servo motor, 19 reels, 20 annular storage water tanks, 21 first annular heat-conducting plates, 22 second annular heat-conducting plates, 23 radiating fins, 24 second magnetic paths.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-5, an internet of things power distribution cabinet comprises a cabinet body 1, wherein a plurality of heat dissipation holes 2 which incline downwards are formed in the side walls of two ends of the cabinet body 1 in a penetrating manner, cleaning mechanisms are arranged on the inner side walls of the heat dissipation holes 2 and comprise first guide chutes 3 which are formed in the inner side walls of the heat dissipation holes 2, first magnetic blocks 4 are connected in the first guide chutes 3 in a sliding manner, a plurality of first springs 5 are connected between the first magnetic blocks 4 and the inner side walls of the first guide chutes 3, filter frames 7 are fixedly connected to the front side walls of the first magnetic blocks 4, the filter frames 7 abut against and are in sliding connection with the inner side walls of the heat dissipation holes 2, filter screens 6 are mounted on the filter frames 7, annular cleaning brushes 8 which abut against and are in sliding connection with the inner side walls of the heat dissipation holes 2 are fixedly connected to the side walls of the filter frames 7, and attention, the heat dissipation hole 2 can be protected, dust is prevented from being accumulated in the heat dissipation hole 2 to influence normal heat dissipation of the heat dissipation hole 2, or the dust is prevented from entering the cabinet body 1 through the heat dissipation hole 2 to influence the service life of an electric power original in the cabinet body 1, when the first magnetic block 4 drives the filter frame 7 to slide in the heat dissipation hole 2, the annular cleaning brush 8 can clean the inner side wall of the heat dissipation hole 2, the dust accumulated on the inner side wall of the heat dissipation hole 2 is pushed out of the heat dissipation hole 2, normal heat dissipation of the heat dissipation hole 2 is guaranteed, the first spring 5 is a tension spring, and the first magnetic block 4 can be pulled to slide in the first guide sliding;

the side walls of two ends of the cabinet body 1 are respectively provided with a plurality of connecting mechanisms, the side walls of the plurality of connecting mechanisms are respectively and fixedly connected with a mounting plate 12, each connecting mechanism comprises a second guide sliding chute 9 arranged on the side wall of the cabinet body 1, a guide sliding block 10 is slidably connected in the second guide sliding chute 9, a plurality of second springs 11 are connected between the guide sliding block 10 and the inner top of the second guide sliding chute 9, the mounting plate 12 is fixedly connected to the side wall of the guide sliding block 10, and it is noted that the second springs 11 are elastic springs and can push the guide sliding block 10 to slide downwards in the second guide sliding chutes 9 in a natural state;

the side walls of the mounting plates 12 close to the cabinet body 1 are respectively provided with a plugging mechanism extending into the heat dissipation holes 2 opposite to the mounting plates, the plugging mechanisms are opposite to the side wall magnetic poles of the opposite cleaning mechanism, each plugging mechanism comprises a plugging groove 13 formed in the side wall of one end of the mounting plate 12 close to the cabinet body 1, a plugging plate 14 extending into the heat dissipation hole 2 opposite to the plugging groove is connected in the plugging groove 13 in a sliding manner, a plurality of third springs 15 are connected between the plugging plate 14 and the inner side wall of the plugging groove 13, a second magnetic block 24 opposite to the side wall magnetic pole of the first magnetic block 4 is embedded in the side wall of the plugging plate 14, the side wall of the plugging plate 14 is fixedly connected with a pull rope 16, it needs to be noted that the plugging plate 14 is matched with the heat dissipation holes 2, the heat dissipation holes 15 of the third springs are elastic springs, when the plugging grooves 13 are opposite to the heat dissipation holes 2, the third springs 15 can push, the phenomenon that the circuit elements in the cabinet body 1 are damped to generate short circuit or open circuit due to the fact that rainwater enters the cabinet body 1 is avoided, and the second magnetic block 24 and the first magnetic block 4 can generate attractive acting force, so that the first magnetic block 4 pulls the filter frame 7 and the annular cleaning brush 8 to slide in the heat dissipation hole 2;

the bottoms of the mounting plates 12 are fixedly connected with water guide plates, it is noted that the upper ends of the mounting plates 12 are obliquely arranged to prevent rainwater from being accumulated on the upper ends, the water guide plates can guide the rainwater, the upper end of the cabinet body 1 is fixedly connected with a driving mechanism, the upper end of the cabinet body 1 is fixedly connected with two conduits, the free ends of the plugging mechanisms penetrate through the conduits opposite to the free ends and are wound on the driving mechanism, the driving mechanism comprises a humidity sensor 17 fixedly connected to the upper end of the cabinet body 1, the upper end of the cabinet body 1 is fixedly connected with a servo motor 18, the humidity sensor 17 controls the servo motor 18, the tail end of an output shaft of the servo motor 18 is fixedly connected with a reel 19, the free end of a pull rope 16 penetrates through the conduits and is wound on the reel 19, it is noted that rainfall weather exists, and the humidity sensor 17 can sense humidity, the servo motor 18 is driven to perform paying-off work, so that the mounting plate 12 slides downwards, the plugging plate 14 extends into the heat dissipation hole 2 to plug the heat dissipation hole, when rainfall stops, the humidity sensor 17 can drive the servo motor 18 to perform wire winding work, the plugging plate 14 is pulled out from the heat dissipation hole 2, the mounting plate 12 is pulled to slide upwards, and the heat dissipation hole 2 is opened to perform heat dissipation work;

be equipped with heat dissipation mechanism on the cabinet body 1, heat dissipation mechanism includes annular storage water tank 20 of fixed connection on the lateral wall of the cabinet body 1, the inside wall of the cabinet body 1 inlays and is equipped with first annular heat-conducting plate 21, the lateral wall of the cabinet body 1 inlays and is equipped with second annular heat-conducting plate 22, a plurality of radiating fin 23 that extend to in the annular storage water tank 20 of lateral wall fixedly connected with of second annular heat-conducting plate 22, when rainfall weather, plugging plate 14 carries out the shutoff to louvre 2, the rainwater is concentrated and is collected in annular storage water tank 20, first annular heat-conducting plate 21, second annular heat-conducting plate 22 can derive the heat that the interior electric power original paper of the cabinet body 1 produced, radiating fin 23 and.

The utility model discloses its functional principle is explained to following mode of operation of accessible:

in the utility model, the humidity sensor 17 can sense the humidity in the air in the rainy weather to drive the servo motor 18 to pay off, the mounting plate 12 slides downward under the elastic force of the second spring 11, and when the blocking groove 13 is opposed to the heat radiating hole 2, under the action of the elastic force of the third spring 15, the blocking plate 14 extends into the heat dissipation hole 2 to block the heat dissipation hole, rainwater is prevented from entering the heat dissipation hole, the second magnetic block 24 attracts the first magnetic block 4 to drive the filter frame 7 and the annular cleaning brush 8 to slide in the heat dissipation hole 2 to clean the inner side wall of the heat dissipation hole, rainwater falls into the annular water storage tank 20 through the water guide plate to be collected in a centralized manner, the first annular heat conduction plate 21 and the second annular heat conduction plate 22 can guide out heat generated by electric power elements in the cabinet body 1, and the heat dissipation fins 23 are in contact with rainwater in the annular water storage tank 20 to dissipate heat, so that normal heat dissipation in the rainfall weather cabinet body 1;

after the rainfall stops, humidity inductor 17 can drive servo motor 18 and receive line work, pull out closure plate 14 from louvre 2 earlier, pull mounting panel 12 upwards and slide again, make louvre 2 open and carry out the work of dispelling the heat, at the in-process of closure plate 14 follow louvre 2 interior roll-off, under the suction effect of second magnetic path 24, first magnetic path 4 drives filter frame 7, annular clearance brush 8 slides in louvre 2, release the dust in louvre 2, rainwater in the annular storage water tank 20 still can carry out the work of dispelling the heat at the in-process of natural evaporation, the staff only needs regularly to clear up the inside of annular storage water tank 20.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims

1. The power distribution cabinet based on the Internet of things comprises a cabinet body (1) and is characterized in that a plurality of downward-inclined heat dissipation holes (2) are formed in the side walls of the two ends of the cabinet body (1) in a penetrating mode, cleaning mechanisms are arranged on the inner side walls of the plurality of heat dissipation holes (2), a plurality of connecting mechanisms are arranged on the side walls of the two ends of the cabinet body (1), mounting plates (12) are fixedly connected to the side walls of the plurality of mounting plates (12) close to the cabinet body (1), plugging mechanisms extending into the heat dissipation holes (2) opposite to the mounting plates are arranged on the side walls of the plurality of mounting plates, the plugging mechanisms are opposite to the side poles of the opposite side walls of the cleaning mechanisms opposite to the plugging mechanisms, water guide plates are fixedly connected to the bottoms of the mounting plates (12), a driving mechanism is fixedly connected to the upper end of the cabinet body (1), and two wire guide pipes are fixedly, the free ends of the plugging mechanisms penetrate through the corresponding wire conduits and are wound on the driving mechanism, and the cabinet body (1) is provided with a heat dissipation mechanism.

2. The Internet of things power distribution cabinet according to claim 1, wherein the cleaning mechanism comprises a first guide sliding groove (3) formed in the inner side wall of the heat dissipation hole (2), a first magnetic block (4) is connected in the first guide sliding groove (3) in a sliding mode, a plurality of first springs (5) are connected between the first magnetic block (4) and the inner side wall of the first guide sliding groove (3), a filter frame (7) is fixedly connected to the front side wall of the first magnetic block (4), the filter frame (7) abuts against the inner side wall of the heat dissipation hole (2) and is in sliding connection with the inner side wall of the heat dissipation hole (2), a filter screen (6) is installed on the filter frame (7), and an annular cleaning brush (8) which abuts against the inner side wall of the heat dissipation hole (2) and is in sliding connection with the inner side wall of the filter frame (7) is connected with.

3. The Internet of things power distribution cabinet according to claim 1, wherein the connecting mechanism comprises a second guide sliding groove (9) formed in the side wall of the cabinet body (1), a guide sliding block (10) is connected to the second guide sliding groove (9) in a sliding mode, a plurality of second springs (11) are connected between the guide sliding block (10) and the inner top of the second guide sliding groove (9), and the mounting plate (12) is fixedly connected to the side wall of the guide sliding block (10).

4. The Internet of things power distribution cabinet of claim 2, wherein the blocking mechanism comprises a blocking groove (13) formed in a side wall of the mounting plate (12) close to one end of the cabinet body (1), a blocking plate (14) extending into the heat dissipation hole (2) opposite to the blocking groove is connected in the blocking groove (13) in a sliding mode, a plurality of third springs (15) are connected between the blocking plate (14) and the inner side wall of the blocking groove (13), a second magnetic block (24) opposite to the magnetic pole of the opposite side wall of the first magnetic block (4) is embedded in the side wall of the blocking plate (14), and a pull rope (16) is fixedly connected to the side wall of the blocking plate (14).

5. The Internet of things power distribution cabinet according to claim 4, wherein the driving mechanism comprises a humidity sensor (17) fixedly connected to the upper end of the cabinet body (1), a servo motor (18) is fixedly connected to the upper end of the cabinet body (1), the humidity sensor (17) controls the servo motor (18), a reel (19) is fixedly connected to the tail end of an output shaft of the servo motor (18), and the free end of the pull rope (16) penetrates through the wire conduit and is wound on the reel (19).

6. The Internet of things power distribution cabinet according to claim 1, wherein the heat dissipation mechanism comprises an annular water storage tank (20) fixedly connected to the side wall of the cabinet body (1), a first annular heat conduction plate (21) is embedded in the inner side wall of the cabinet body (1), a second annular heat conduction plate (22) is embedded in the outer side wall of the cabinet body (1), and a plurality of heat dissipation fins (23) extending into the annular water storage tank (20) are fixedly connected to the side wall of the second annular heat conduction plate (22).