CN220086776U - Intelligent power distribution device with display screen - Google Patents

Abstract

The utility model relates to the technical field of intelligent power distribution equipment, in particular to an intelligent power distribution device for a display screen, which comprises an intelligent power distribution cabinet box, wherein two heat dissipation ports which are symmetrically distributed are correspondingly arranged on the upper box walls of the left side and the right side of the intelligent power distribution cabinet box, two heat dissipation cavity plates are correspondingly arranged at the two heat dissipation ports, a first channel and a second channel which are distributed in a V shape and are mutually communicated are respectively arranged in the two heat dissipation cavity plates, a third channel which is communicated with the communication intersection of the first channel and the second channel is correspondingly communicated with the heat dissipation ports, and a port which is communicated with the outside is arranged at the top end of the other side of the second channel; two heat absorption plates are correspondingly arranged on the inner side of the box wall of the intelligent power distribution cabinet box below the two heat dissipation openings, two heat absorption pipelines are correspondingly arranged on the outer side of the inner side of the box wall, and a plugging part is arranged in the third channel. The problem that heat cannot be dissipated in rainy weather in the prior art is solved; the heat dissipation efficiency is further improved; the heat dissipation effect is improved.

Description

Intelligent power distribution device with display screen

Technical Field

The utility model relates to the technical field of intelligent power distribution equipment, in particular to a display screen energy intelligent power distribution device.

Background

The intelligent power distribution cabinet can also be called as a precise power distribution cabinet, is a power distribution cabinet for comprehensively collecting all energy data aiming at the tail end of a data center machine room, provides high-precision measurement data for a terminal energy monitoring system, reflects power quality data in real time through a display unit, and uploads the power quality data to a background environment control system through digital communication so as to achieve effective management of real-time monitoring and operation quality of the whole power distribution system, help users optimize a network data center, strengthen energy consumption management, improve the operation efficiency of a server rack, and realize that all-round green IDC provides reliable guarantee.

In the outdoor use process of the existing intelligent power distribution cabinet, when rainwater is too large, the rainwater can be poured into the inside of the power distribution cabinet from the radiating holes of the power distribution cabinet, and damage is caused to components inside the power distribution cabinet.

Through retrieving, chinese patent application number CN202123020325.0 discloses an internet-based display screen intelligent power distribution cabinet, including the switch board body, the surface of switch board body articulates there is the cabinet door, the surface mounting of cabinet door has the display screen, the bottom surface fixedly connected with first bracing piece of switch board body. It is through setting up first rain-proof mechanism, can shelter from the rainwater that falls, prevent the inside of rainwater infiltration switch board body, through setting up second rain-proof mechanism, when the rainwater is too big, can block the screening board automatically, prevent that the rainwater from getting into the inside of switch board body through the screening board, through setting up the screening board, not only can dispel the heat the switch board body, but also can prevent debris such as dust entering the inside of switch board body, through the cooperation between support cylinder, first cylinder pole, spacing ring and the second cylinder pole, can not deviate from the direction when not only making the kickboard rise, but also the rising distance of steerable kickboard.

However, the device has the following defects in actual use: the device can block the screening plate automatically when the rainwater is too big, prevents that the rainwater from getting into the inside of switch board body when the screening plate also can make the screening plate block the in-process, and the device loses the heat dissipation function, leads to unable heat dissipation to influence the normal work of switch board inner structure equipment.

Disclosure of Invention

Aiming at the technical problems, the utility model provides an intelligent power distribution device with a display screen.

The technical problems to be solved by the utility model are realized by adopting the following technical scheme:

the utility model provides a display screen can intelligent power distribution device, including intelligent power distribution cabinet case, right side articulates the intelligent power distribution cabinet door in intelligent power distribution cabinet case front side, set up the display screen in intelligent power distribution cabinet case front side, the corresponding two thermovent that are provided with symmetrical distribution on the left and right sides top case wall of intelligent power distribution cabinet case, two thermovent department corresponds and is provided with two heat dissipation die cavity boards, the inside of two heat dissipation die cavity boards all is provided with first passageway and the second passageway that is V style of calligraphy distribution and intercommunication each other, the third passageway that communicates with the intercommunication intersection of first passageway and second passageway, first passageway and thermovent correspond the intercommunication, the opposite side top of second passageway is provided with the through-port with external intercommunication;

the intelligent power distribution cabinet comprises two heat dissipation ports, wherein two heat absorption plates are correspondingly arranged on the inner side of a box wall of the intelligent power distribution cabinet below the two heat dissipation ports, two heat absorption pipelines are correspondingly arranged on the outer side of the inner side of the box wall, an upper inlet and a lower outlet are correspondingly arranged at the upper end and the lower end of each of the two heat absorption pipelines, a third channel is correspondingly communicated with the lower outlet, and a plugging part is arranged in the third channel.

Preferably, the plugging member is located below the communication intersection of the first channel and the second channel, and a part of the third channel above the plugging member and the first channel and the second channel are in a Y-shaped structure.

Preferably, the plugging part comprises an embedded groove formed in the third channel, a plugging plate hinged in the embedded groove and in contact fit with the inner wall of the third channel opposite to the embedded groove, and a light spring arranged in the embedded groove and connected with the lower plate surface of the plugging plate.

Preferably, the through opening is in a flared horn-like structure.

Preferably, be provided with the weather shield on the top outside case wall of intelligent power distribution cabinet case, the weather shield is umbrella-shaped structure, and the left and right sides of weather shield extends to the top that is located the opening of intelligent power distribution cabinet case left and right sides.

Preferably, two groups of collecting and gathering side plates which are symmetrically distributed left and right and are connected with each other are arranged on the umbrella-shaped plate surface of the rain shield, each two groups of collecting and gathering side plates comprises two collecting and gathering side plates which are symmetrically distributed front and back, the distance between the connecting ends of the collecting and gathering side plates in the two groups of collecting and gathering side plates is matched with the width dimension of the rain shield, and the distance between the left end and the right end of the collecting and gathering side plates is matched with the front-back width dimension of the through hole.

Preferably, the area of the weather shield is greater than the upper surface area of the intelligent power distribution cabinet.

Preferably, each of the two heat absorbing pipes is formed by sequentially connecting a plurality of horizontal pipe sections and a plurality of vertical pipe sections end to end.

The beneficial effects of the utility model are as follows:

first: according to the utility model, through the first channel communicated with the heat radiation port and the second channel communicated with the outside, the first channel is communicated with the second channel and is of a V-shaped structure, so that when the hot air is discharged during raining, the outside rainwater can not flow back into the intelligent power distribution cabinet through the first channel and the heat radiation port, the intelligent power distribution cabinet can be still radiated during rainy weather, and the problem that the intelligent power distribution cabinet can not radiate during rainy weather in the prior art is solved;

second,: according to the intelligent power distribution cabinet, the heat absorption plate and the heat absorption pipeline are arranged in the box wall of the intelligent power distribution cabinet, and the heat absorption pipeline is communicated with the third channel, so that rainwater entering the second channel enters the heat absorption pipeline through the third channel in rainy weather, heat is exchanged and taken away, and the heat dissipation efficiency is further improved;

third,: according to the utility model, the plugging part is arranged in the third channel and is normally in a plugging state, so that hot air discharged from the heat radiation port is prevented from entering the heat absorption pipeline through the third channel, and can only be discharged from the through hole of the second channel, and in rainy weather, the plugging part is opened under the influence of water pressure and gravity, so that rainwater can enter the heat absorption pipeline through the third channel;

fourth,: according to the intelligent power distribution cabinet, the rain shielding plate and the collecting and gathering side plate arranged on the rain shielding plate are arranged at the top of the intelligent power distribution cabinet, so that the rainwater can be collected while the rain shielding effect is achieved, and the rainwater is gathered and gathered in the second channel, so that the heat dissipation effect is improved.

Drawings

The utility model is further illustrated by the following examples in conjunction with the accompanying drawings:

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of the internal cross-sectional structure of the present utility model;

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

FIG. 4 is a schematic view of the cross-sectional structure A-A of FIG. 2;

fig. 5 is a schematic top view of the present utility model.

In the figure: 1. an intelligent power distribution cabinet box; 2. an intelligent power distribution cabinet door; 3. a display screen; 4. a heat radiation port; 5. a heat dissipation cavity plate; 6. a first channel; 7. a second channel; 8. a through port; 9. a third channel; 10. a heat absorbing plate; 11. a heat absorption pipe; 12. an upper inlet; 13. a lower outlet; 14. a built-in groove; 15. a plugging plate; 16. a light spring; 17. a rain shield; 18. collecting the gathering side plates.

Detailed Description

In order that the manner in which the utility model is attained, as well as the features and advantages thereof, will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings.

As shown in fig. 1 to 5, a display screen energy intelligent power distribution device comprises an intelligent power distribution cabinet 1, an intelligent power distribution cabinet door 2 hinged to the front side of the intelligent power distribution cabinet 1 on the right side, and a display screen 3 arranged on the front side of the intelligent power distribution cabinet 1.

Two heat dissipation ports 4 which are symmetrically distributed are correspondingly arranged on the upper box walls of the left side and the right side of the intelligent power distribution cabinet 1, and the two heat dissipation ports 4 play a role in discharging heat generated by the internal equipment of the intelligent power distribution cabinet 1; two heat dissipation cavity plates 5 are correspondingly arranged at the two heat dissipation ports 4, a first channel 6 and a second channel 7 which are distributed in a V shape and are mutually communicated, and a third channel 9 which is communicated with the communication intersection of the first channel 6 and the second channel 7 are respectively arranged in the two heat dissipation cavity plates 5, the first channel 6 is correspondingly communicated with the heat dissipation ports 4, a through port 8 which is communicated with the outside is arranged at the top end of the other side of the second channel 7, and the through port 8 has two functions, on one hand, the function of discharging hot air is achieved; on the other hand, in the case of rain, rainwater can be collected into the heat dissipation cavity plate 5, and further, in order to increase the heat dissipation area and collect the rainwater area, the through hole 8 is in an outward-expanding horn-shaped structure. Two heat absorption plates 10 are correspondingly arranged on the inner side of the inner part of the box wall of the intelligent power distribution cabinet 1 below the two heat dissipation openings 4, two heat absorption pipelines 11 are correspondingly arranged on the outer side of the inner part of the box wall, the heat absorption plates 10 play a role in absorbing heat generated by the internal equipment of the intelligent power distribution cabinet 1, and the heat dissipation effect and the efficiency are improved by matching with the heat dissipation openings 4; the upper ends and the lower ends of the two heat absorption pipelines 11 are respectively provided with an upper inlet 12 and a lower outlet 13 correspondingly, a third channel 9 is communicated with the lower outlet 13 correspondingly, and a plugging part is arranged in the third channel 9. In addition, in order to increase the heat exchange area and improve the heat exchange efficiency, the two heat absorbing pipes 11 are each composed of a plurality of horizontal pipe sections and a plurality of vertical pipe sections which are sequentially connected end to end.

Further, the plugging member is located below the communication intersection of the first channel 6 and the second channel 7, and a part of the third channel 9 above the plugging member and the first channel 6 and the second channel 7 are in a Y-shaped structure, by the structure, when in rainy weather, rainwater enters the second channel 7 through the opening 8, and then is temporarily collected in a part of the third channel 9 above the plugging member, so as to meet the water pressure gravity for opening the plugging member; after the water pressure is increased to the gravity to open the blocking part, the blocking part is opened, and rainwater enters the heat absorption pipeline 11 through the third channel 9 to exchange heat so as to take away the heat on the heat absorption plate 10, so that the heat dissipation purpose is achieved.

As a further improvement of the embodiment, the plugging member comprises a built-in groove 14 arranged in the third channel 9, a plugging plate 15 hinged in the built-in groove 14 and in contact fit with the inner wall of the third channel 9 opposite to the built-in groove 14, and a light spring 16 arranged in the built-in groove 14 and connected with the lower plate surface of the plugging plate 15. The light spring 16 serves to return the blocking plate 15.

As a further improvement of the embodiment, a rain shielding plate 17 is arranged on the outer side wall of the top of the intelligent power distribution cabinet 1, and the area of the rain shielding plate 17 is larger than the upper surface area of the intelligent power distribution cabinet 1 so as to realize the effect of shielding the intelligent power distribution cabinet 1 from rain; the rain shield 17 is umbrella-shaped, and rainwater falls onto the rain shield 17 and can be split to the left and right sides.

Further, the left and right ends of the rain shielding plate 17 extend to the upper parts of the through holes 8 on the left and right sides of the intelligent power distribution cabinet 1, and rainwater split by the rain shielding plate 17 is converged into the heat dissipation cavity plate 5.

Still further, two groups of collecting and gathering side plates 18 which are symmetrically distributed left and right and are connected with each other are arranged on the umbrella-shaped plate surface of the rain shielding plate 17, each group of collecting and gathering side plate 18 comprises two collecting and gathering side plates 18 which are symmetrically distributed front and back, the distance between the connecting ends of the collecting and gathering side plates 18 in the two groups of collecting and gathering side plates 18 is matched with the width dimension of the rain shielding plate 17, and the distance between the left end and the right end of the collecting and gathering side plates 18 is matched with the front and back width dimension of the through hole 8. The collecting and gathering side plates 18 play a role in collecting and gathering rainwater; rainwater can be prevented from flowing out from the front side and the rear side of the rain shield 17 so as to be converged into the heat dissipation cavity plate 5 from the left side and the right side of the rain shield 17.

The working principle and the using flow of the utility model are as follows:

in normal weather, the blocking plate 15 is in a blocking state, heat is discharged from the through hole 8 through the heat radiation hole 4, the first passage 6 and the second passage 7, and heat is absorbed through the heat absorbing plate 10; when in rainy weather, on the one hand, heat is still discharged from the through holes 8 through the heat dissipation holes 4, the first channels 6 and the second channels 7, and on the other hand, the rainwater is gathered through the collecting gathering side plates 18 on the rain shielding plate 17, is concentrated and converged into the heat dissipation cavity plate 5 through the left side and the right side of the rain shielding plate 17 and through the through holes 8, is converged into a part of the third channels 9 above the blocking plate 15 through the second channels 7, when the gravity of the rainwater is increased to meet the water pressure gravity for opening the blocking part, the blocking plate 15 is opened downwards by the water pressure gravity, the rainwater enters the heat absorption pipeline 11 through the third channels 9 and the upper inlet 12 to exchange heat so as to take away the heat on the heat absorption plate 10, and finally, the rainwater after heat exchange is discharged through the lower outlet 13.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a display screen can intelligent power distribution device, includes intelligent power distribution cabinet case (1), right side articulates intelligent power distribution cabinet door (2) at intelligent power distribution cabinet case (1) front side, sets up in display screen (3) of intelligent power distribution cabinet case (1) front side, its characterized in that: two heat dissipation ports (4) which are symmetrically distributed are correspondingly arranged on the upper box walls on the left side and the right side of the intelligent power distribution cabinet (1), two heat dissipation cavity plates (5) are correspondingly arranged at the two heat dissipation ports (4), a first channel (6) and a second channel (7) which are distributed in a V shape and are mutually communicated are arranged in the two heat dissipation cavity plates (5), a third channel (9) which is communicated with the communication cross position of the first channel (6) and the second channel (7) is arranged in the two heat dissipation cavity plates, the first channel (6) is correspondingly communicated with the heat dissipation ports (4), and a port (8) which is communicated with the outside is formed in the top end of the other side of the second channel (7);

the intelligent power distribution cabinet box (1) below the two heat dissipation ports (4) is provided with two heat absorbing plates (10) correspondingly on the inner side of the box wall, two heat absorbing pipelines (11) are provided on the outer side of the inner side of the box wall correspondingly, an upper inlet (12) and a lower outlet (13) are provided on the upper end and the lower end of the two heat absorbing pipelines (11) correspondingly, a third channel (9) is communicated with the lower outlet (13) correspondingly, and a plugging part is arranged in the third channel (9).

2. The display screen intelligent power distribution device according to claim 1, wherein: the blocking part is positioned below the communication intersection of the first channel (6) and the second channel (7), and a part of the third channel (9) above the blocking part and the first channel (6) and the second channel (7) are in a Y-shaped structure.

3. The display screen intelligent power distribution device according to claim 2, wherein: the plugging part comprises a built-in groove (14) arranged in the third channel (9), a plugging plate (15) hinged in the built-in groove (14) and in contact fit with the inner wall of the third channel (9) opposite to the built-in groove (14), and a light spring (16) arranged in the built-in groove (14) and connected with the lower plate surface of the plugging plate (15).

4. The display screen intelligent power distribution device according to claim 1, wherein: the through opening (8) is in an outward-expansion horn-shaped structure.

5. The display screen intelligent power distribution device according to claim 1, wherein: the top outside wall of intelligent power distribution cabinet (1) is provided with weather shield (17), and weather shield (17) are umbrella-shaped structure, and both ends extend to the top that is located opening (8) of intelligent power distribution cabinet (1) left and right sides about weather shield (17).

6. The intelligent power distribution device with display screen as claimed in claim 5, wherein: two groups of collecting and gathering side plates (18) which are symmetrically distributed left and right and are connected with each other are arranged on an umbrella-shaped plate surface of the rain shielding plate (17), the two groups of collecting and gathering side plates (18) comprise two collecting and gathering side plates (18) which are symmetrically distributed front and back, the distance between connecting ends of the collecting and gathering side plates (18) in the two groups of collecting and gathering side plates (18) is matched with the width dimension of the rain shielding plate (17), and the distance between the left end and the right end of the collecting and gathering side plates (18) is matched with the front and back width dimension of the through hole (8).

7. The intelligent power distribution device with display screen as claimed in claim 5, wherein: the area of the rain shielding plate (17) is larger than the upper surface area of the intelligent power distribution cabinet (1).

8. The display screen intelligent power distribution device according to claim 1, wherein: the two heat absorption pipelines (11) are formed by sequentially connecting a plurality of horizontal pipeline sections and a plurality of vertical pipeline sections end to end.