CN216774061U - Optimized power distribution room with cooling effect - Google Patents

Abstract

The application discloses optimization type power distribution room with cooling effect relates to the power distribution room field, and an optimization type power distribution room with cooling effect, including the room body, be provided with the roof for triangle-shaped on the room body, the front side of the room body is provided with the door, is provided with the doorknob on the door, the inside of the room body is provided with distribution equipment, be provided with the light on the inside of the room body, the radiating groove has been seted up on the right side of the room body, the inside of the radiating groove that the room body was seted up is provided with clearance mechanism, fixedly connected with dampproofing pad and jam-proof layer on the inner wall of the room body. The optimization type who has the cooling effect joins in marriage electrical room for first pivot and first brush rotate, consequently clear up the dust screen, and then avoid the dust screen to produce blocking phenomenon as far as possible, consequently ensure to the normal discharge of high-temperature gas, consequently do not need the manual work regularly to clear up first dust screen, consequently reduce operating personnel's intensity of labour, avoided the potential safety hazard that high altitude construction brought simultaneously as far as possible.

Description

Optimized power distribution room with cooling effect

Technical Field

The application relates to the field of power distribution rooms, in particular to an optimized power distribution room with a cooling effect.

Background

The power distribution room is used as a key node for connecting a power grid side and a user side, and is an important link for power grid operation and maintenance, the traditional power distribution room operation and maintenance management mode cannot meet the user requirements and the power grid lean management requirements, and the defects are obviously reflected in the aspects of working environment, operation and maintenance mode, monitoring means and the like.

Learn according to the relevant literature of inquiry, the present most room of joining in marriage, when dispelling the heat to the internal portion in room, dispel the heat to it through seting up the radiator window usually, so as to reduce the inside temperature in room of joining in marriage, the inside of the room body is entered into through the radiator window for external foreign matter and dust has been prevented simultaneously, can set up the dust screen on the position at radiator window place usually this moment, and then block the entering of external dust and foreign matter, in long-term use, a large amount of dust and impurity of dust screen surface can adhesion, consequently, make the internal portion radiating efficiency speed in room slow down, influence normal radiating efficiency.

SUMMERY OF THE UTILITY MODEL

The aim at of this scheme is at least to solve one of the technical problem that exists among the prior art, provides the excellent optimization type who has the cooling effect and joins in marriage electrical room, can solve in long-term use, and the dust screen surface can a large amount of dusts and impurity of adhesion, consequently makes the internal portion radiating efficiency speed in room slow, influences normal radiating efficiency's problem.

The technical scheme is as follows: the utility model provides an optimization type power distribution room with cooling effect, includes the room body, be provided with the roof for triangle-shaped on the room body, the front side of the room body is provided with the door, is provided with the doorknob on the door, the inside of the room body is provided with distribution equipment, be provided with the light on the inside of the room body, the radiating groove has been seted up on the right side of the room body, the inside of the radiating groove that the room body was seted up is provided with clearance mechanism, fixedly connected with dampproofing pad and jam-proof layer on the inner wall of the room body.

Preferably, the inside top surface fixedly connected with temperature sensor and the automatic control switch of the room body, temperature sensor passes through the PLC circuit board and is connected with the automatic control switch electricity.

Preferably, clearance mechanism includes the support ring of fixed connection on the internal wall in room, the inside of support ring corresponds each other with the heat sink that the room body was seted up, the inside fixedly connected with heat dissipation fan of support ring, the heat dissipation fan is connected with the automatic control switch electricity, the first dust screen of the inside fixedly connected with of support ring, the right side of first dust screen is rotated and is connected with first pivot, the one end fixed connection that first dust screen was kept away from to first pivot is for the first piece that promotes of windmill form, the first brush of the mutual laminating of the first dust screen of fixedly connected with in the first pivot.

Preferably, the inside upper surface of the radiating groove that the room body was seted up has seted up built-in groove, the inside fixedly connected with pivot of built-in groove that the room body set up, the closing plate has been cup jointed in the rotation on the pivot.

Preferably, the right side of the house body is fixedly connected with a transverse L-shaped ventilation pipe, the interior of the ventilation pipe is fixedly connected with a second dustproof net, the second dustproof net is rotatably connected with a second rotating shaft, one end of the second rotating shaft, which is far away from the second dustproof net, is fixedly connected with a second pushing block, the second pushing block is also in a windmill shape, and a second brush which is mutually attached to the second dustproof net is fixedly connected to the second rotating shaft.

In summary, the following steps:

the optimization type who has the cooling effect joins in marriage electrical room, when the internal portion temperature in room is higher, temperature sensor with signal transmission to automatic control switch on, consequently the heat dissipation fan starts to pass through the outside discharge of radiating groove with the internal portion temperature in room, first promotion piece receives the influence of wind-force and rotates this moment, and then makes first pivot and first brush rotate, consequently clear up the dust screen, and then avoid the dust screen to produce blocking phenomenon as far as possible, consequently, ensure the normal discharge to high temperature gas, consequently, do not clear up first dust screen at the artifical regular interval of needs, consequently, reduce operating personnel's intensity of labour, the potential safety hazard that high altitude construction brought has been avoided as far as possible simultaneously.

The utility model discloses a cooling effect's optimization type distribution room, through the closing plate that sets up, when the heat dissipation fan starts, the closing plate receives the influence of wind-force and forms the slope form and open, and then make the radiating groove open, consequently make passing through that high-temperature gas can be smooth, and then when the work of stopping of heat dissipation fan is, the closing plate resets according to self weight, consequently seal the radiating groove, and then avoid external debris to enter into the inside of the room body through the radiating groove as far as possible and cause the damage to distribution equipment, consequently avoid distribution equipment to produce the damage as far as possible, and then improve distribution equipment's life.

The optimization type that has the cooling effect joins in marriage electrical room, through the scavenge pipe that sets up, when heat dissipation fan during operation, the internal portion air in room is discharged fast, consequently, the internal portion in room forms the negative pressure, and then the outside air gushes into the inside of the room body through the scavenge pipe, the outside air flow makes the second promote the piece and drive second pivot and second brush rotation this moment, consequently, the second brush clears up the second dust screen, and then ensure the second dust screen to the filter effect of air, avoid the dust to cause the jam to it as far as possible simultaneously, consequently, ensure the normal entering of outside air.

The optimized power distribution room with the cooling effect is through the dampproofing pad that sets up, consequently can effectual isolated external moisture's invasion, and then avoids external moisture to cause corruption and damage to distribution equipment as far as possible, consequently ensures distribution equipment's normal operating, and the setting on jam-proof layer then can effectually block external electromagnetic interference, consequently ensures stability and security when distribution equipment moves, and then ensures the normal transport to electric power.

Drawings

Fig. 1 is a schematic diagram of an optimized power distribution room with a cooling effect according to the present application.

Fig. 2 is a schematic view of the internal structure of the house body according to the present application.

Fig. 3 is a schematic view of the house body connection structure of the present application.

Fig. 4 is a schematic front view of a ventilation tube of the present application.

Fig. 5 is an enlarged schematic view of fig. 3 a of the present application.

Description of reference numerals:

1. a house body; 101. a door; 102. a door handle; 103. a moisture-proof pad; 104. an interference prevention layer; 2. a roof; 3. an illuminating lamp; 4. a power distribution device; 5. a temperature sensor; 6. an automatic control switch; 7. a support ring; 701. a heat dissipation fan; 702. a first dust screen; 703. a first rotating shaft; 704. a first brush; 705. a first pushing block; 8. a heat sink; 801. a sealing plate; 802. a built-in groove; 803. a rotating shaft; 9. a ventilation tube; 901. a second dust screen; 902. a second rotating shaft; 903. a second pushing block; 904. a second brush.

Detailed Description

Please refer to fig. 1-2, an optimization type power distribution room with cooling effect, including the room body 1, be provided with the roof 2 for triangle-shaped on the room body 1, the front side of the room body 1 is provided with door 101, be provided with door knob 102 on the door 101, the inside of the room body 1 is provided with distribution equipment 4, be provided with light 3 on the inside of the room body 1, through the light 3 that sets up, when operating personnel enters into the inside of the room body 1 at night, it can throw light on to start light 3 inside the room body, consequently, make the inside of the room body 1 brighter, radiating groove 8 has been seted up on the right side of the room body 1, the inside of the radiating groove 8 that the room body 1 was seted up is provided with clearance mechanism.

Further, a moisture-proof pad 103 and an interference-proof layer 104 are fixedly connected to the inner wall of the house body 1.

Through the dampproofing pad 103 that sets up, consequently can effectual isolated external moisture's invasion, and then avoid external moisture to cause corruption and damage to distribution equipment 4 as far as possible, consequently ensure distribution equipment 4's normal operating, the setting of jam-proof layer 104, then can effectually block external electromagnetic interference, stability and security when consequently ensuring distribution equipment 4 operation, and then ensure the normal transport to electric power.

Referring to fig. 3-5, a temperature sensor 5 and an automatic control switch 6 are fixedly connected to the inner top surface of the room body 1, and the temperature sensor 5 is electrically connected to the automatic control switch 6 through a PLC circuit board.

Clearance mechanism includes support ring 7 of fixed connection on the internal wall of room 1, and the inside of support ring 7 corresponds each other with the heat sink 8 that the room body 1 was seted up, and the inside fixedly connected with heat dissipation fan 701 of support ring 7, heat dissipation fan 701 are connected with automatic control switch 6 electricity, and heat dissipation fan 701 is when rotating for gas flows towards the outside of the room body 1.

Further, a transverse L-shaped ventilation pipe 9 is fixedly connected to the right side of the house body 1, a second dust screen 901 is fixedly connected to the inside of the ventilation pipe 9, and a second rotating shaft 902 is rotatably connected to the second dust screen 901.

One end of the second rotating shaft 901, which is far away from the second dust screen 901, is fixedly connected with a second pushing block 903, the second pushing block 903 is also windmill-shaped, and a second brush 904 which is attached to the second dust screen 901 is fixedly connected to the second rotating shaft 902.

Through the scavenge pipe 9 that sets up, when heat dissipation fan 701 during operation, the inside air in the room body 1 is discharged fast, consequently, the inside negative pressure that forms in the room body 1, and then the outside air gushes into the inside in the room body 1 through scavenge pipe 9, the outside air flow makes the second promote piece 903 to drive second pivot 902 and second brush 904 and rotate this moment, consequently, second brush 904 clears up second dust screen 901, and then ensure the filter effect of second dust screen 901 to the air, avoid the dust to cause the jam to it as far as possible simultaneously, consequently, ensure the normal entering of outside air.

Further, a first dust screen 702 is fixedly connected inside the support ring 7, a first rotating shaft 703 is rotatably connected to the right side of the first dust screen 702, a first pushing block 705 with a windmill-shaped appearance is fixedly connected to one end of the first rotating shaft 703, which is far away from the first dust screen 702, and a first brush 704, which is attached to the first dust screen 702, is fixedly connected to the first rotating shaft 703.

When the temperature in the room body 1 is high, the temperature sensor 5 transmits a signal to the automatic control switch 6, so that the automatic control switch 6 controls the heat dissipation fan 701 to start to discharge high-temperature gas in the room body 1 through the heat dissipation groove 8, at the moment, the first pushing block 705 is influenced by wind power to rotate, the first rotating shaft 703 and the first brush 704 are made to rotate, the first dust screen 702 is cleaned, the first dust screen 702 is prevented from being blocked as much as possible, and normal discharge of the high-temperature gas is ensured.

Further, the inner upper surface of the heat sink 8 formed in the room body 1 is provided with an inner groove 802, the inner portion of the inner groove 802 formed in the room body 1 is fixedly connected with a rotating shaft 803, and the rotating shaft 803 is rotatably sleeved with a sealing plate 801.

Through the sealing plate 801 who sets up, when heat dissipation fan 701 starts, sealing plate 801 receives the influence of wind-force and forms the slope form and open, and then make radiating groove 8 open, consequently make the outflow that high temperature gas can be smooth to the outside, and then when heat dissipation fan 701 stop work, sealing plate 801 resets according to self weight, consequently seal radiating groove 8, and then avoid external debris to enter into the inside of room body 1 through radiating groove 8 as far as possible and cause the damage to distribution equipment 4, consequently avoid distribution equipment 4 to produce the damage as far as possible, and then improve distribution equipment's life.

The working principle is as follows: when the temperature in the room body 1 is high, the temperature sensor 5 transmits a signal to the automatic control switch 6, so that the heat dissipation fan 701 is started to discharge high-temperature gas in the room body 1 through the heat dissipation groove 8, at the moment, the first pushing block 705 is influenced by wind power to rotate, the first rotating shaft 703 and the first brush 704 are further made to rotate, the first dust screen 702 is cleaned, the first dust screen 702 is further prevented from being blocked as much as possible, and therefore the high-temperature gas is discharged normally.

When heat dissipation fan 701 during operation, the inside air in the room body 1 is discharged fast, consequently, the inside negative pressure that forms in the room body 1, and then the outside air gushes into the inside of the room body 1 through scavenge pipe 9, the outside air flows this moment and makes the second promote piece 903 drive second pivot 902 and rotate with second brush 904, consequently, second brush 904 clears up second dust screen 901, and then ensure the filter effect of second dust screen 901 to the air, avoid the dust to cause the jam to it as far as possible simultaneously, consequently, ensure the normal entering of outside air.

Through the inside air of the circulation room body 1 for the circulation of inside air to the high efficiency reduces the inside temperature of the room body 1, with the inside equipment of the better protection room body 1, does not damage easily because of the high temperature.

Claims (8)

1. The utility model provides a power distribution room of optimization type with cooling effect, includes the room body (1), its characterized in that: the power distribution equipment (4) is arranged inside the room body (1), the right side of the room body (1) is provided with a heat dissipation groove (8), and a cleaning mechanism is arranged inside the heat dissipation groove (8) formed in the room body (1);

clearance mechanism includes support ring (7) of fixed connection on the room body (1) inner wall, radiating groove (8) are seted up with the room body (1) to the inside of support ring (7) and correspond each other, the inside fixedly connected with heat dissipation fan (701) of support ring (7), heat dissipation fan (701) are connected with automatic control switch (6) electricity.

2. The optimized power distribution room with the cooling effect as claimed in claim 1, wherein: the inner wall of the house body (1) is fixedly connected with a moisture-proof pad (103) and an anti-interference layer (104).

3. The optimized power distribution room with the cooling effect as claimed in claim 1, wherein: the inside top surface fixedly connected with temperature sensor (5) and automatic control switch (6) of the room body (1), temperature sensor (5) are connected with automatic control switch (6) electricity through the PLC circuit board.

4. The optimized power distribution room with the cooling effect as claimed in claim 1, wherein: be provided with roof (2) for triangle-shaped on the room body (1), the front side of the room body (1) is provided with door (101), is provided with doorknob (102) on door (101), be provided with light (3) on the inside of the room body (1).

5. The optimized power distribution room with the cooling effect as claimed in claim 1, wherein: the inside fixedly connected with first dust screen (702) of support ring (7), the right side of first dust screen (702) is rotated and is connected with first pivot (703), the one end fixed connection that first dust screen (702) was kept away from in first pivot (703) is for windmill shape first promotion piece (705), first brush (704) of the mutual laminating of first dust screen (702) of fixedly connected with are gone up in first pivot (703).

6. The optimized power distribution room with cooling effect as claimed in claim 1, wherein: the heat dissipation device is characterized in that a built-in groove (802) is formed in the upper surface of the interior of a heat dissipation groove (8) formed in the room body (1), a rotating shaft (803) is fixedly connected to the interior of the built-in groove (802) formed in the room body (1), and a sealing plate (801) is sleeved on the rotating shaft (803) in a rotating mode.

7. The optimized power distribution room with the cooling effect as claimed in claim 1, wherein: the right side of the house body (1) is fixedly connected with a transverse L-shaped ventilation pipe (9), the interior of the ventilation pipe (9) is fixedly connected with a second dustproof net (901), and the second dustproof net (901) is rotatably connected with a second rotating shaft (902).

8. The optimized power distribution room with the cooling effect as claimed in claim 7, wherein: one end, far away from the second dustproof net (901), of the second rotating shaft (902) is fixedly connected with a second pushing block (903), the second pushing block (903) is also windmill-shaped, and a second brush (904) which is attached to the second dustproof net (901) is fixedly connected to the second rotating shaft (902).

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