CN220964187U - High-efficient radiating high-voltage wire inlet cabinet - Google Patents

Abstract

The utility model relates to the technical field of control cabinets and discloses a high-pressure wire inlet cabinet capable of efficiently radiating, which comprises a main body mechanism, a radiating mechanism and a safety mechanism, wherein the radiating mechanism is positioned on the surface of the main body mechanism, the safety mechanism is positioned on the surface of the radiating mechanism, the main body mechanism comprises a wire inlet cabinet main body, the surface of the wire inlet cabinet main body is fixedly connected with a first rotating shaft, the surface of the first rotating shaft is fixedly connected with a second rotating shaft, and the surface of the second rotating shaft is fixedly connected with a wire inlet cabinet control cabinet door.

Description

High-efficient radiating high-voltage wire inlet cabinet

Technical Field

The utility model relates to the technical field of control cabinets, in particular to a high-voltage wire inlet cabinet capable of efficiently radiating heat.

Background

In the current power supply system, a high-voltage wire inlet cabinet is generally designed into a metal-enclosed double-cabinet structure and consists of a main cabinet and a wire turning cabinet, a bus enters from the upper end of the wire turning cabinet, then enters the main cabinet from the bottom of the wire turning cabinet, and finally is led out from a bus chamber. With the wide application of the power electronic technology, higher harmonics generated by nonlinear loads of modern industrial and mining enterprises enter a power system, and the existence of the higher harmonics increases the loss of power equipment, increases the temperature, and ages insulation. But the heat dissipation of the existing high-voltage wire inlet cabinet is weak, so that heat dissipation is limited, and a large amount of heat is accumulated to enable the temperature of the high-voltage wire inlet cabinet to be excessively high, so that a power utilization accident is most likely to happen when the high-voltage wire inlet cabinet operates for a long time.

According to the disclosure CN209150599U, the high-voltage wire inlet cabinet comprises a cabinet body and a plurality of components, wherein the cabinet body comprises a cabinet plate and a partition plate, the cabinet plate and the partition plate divide an inner cavity of the cabinet body into a main bus chamber, a handcart chamber, a relay chamber and a cable chamber, and the components are respectively arranged in the main bus chamber, the handcart chamber, the relay chamber and the cable chamber; the cabinet plate and the partition plate have the same structure and comprise a first plate, a second plate and a third plate, wherein a heat superconducting pipeline is arranged between the first plate and the second plate, the heat superconducting pipeline is a closed pipeline, heat transfer working media are filled in the heat superconducting pipeline, and a forced heat dissipation channel is arranged between the second plate and the third plate. According to the utility model, the cabinet plate and the partition plate utilize the phase change heat transfer inhibiting technology, heat is radiated according to the phase change principle, the heat radiation performance is good, the safe and reliable operation of the high-voltage wire inlet cabinet is ensured, and the service life is prolonged.

Such setting can reach the radiating effect, has prolonged the life of inlet wire cabinet, but once nevertheless the radiating mechanism appears damaging, is difficult to carry out repair work to it, so needs a convenient maintenance and better radiating high-pressure inlet wire cabinet of heat dispersion.

Disclosure of utility model

In order to solve the technical problems, the utility model adopts the following technical scheme: the high-voltage wire inlet cabinet with high-efficiency heat dissipation comprises a main body mechanism, a heat dissipation mechanism and a safety mechanism, wherein the heat dissipation mechanism is positioned on the surface of the main body mechanism, and the safety mechanism is positioned on the surface of the heat dissipation mechanism; the main part mechanism includes the inlet wire cabinet main part, the first pivot of fixed surface of inlet wire cabinet main part, the fixed surface of first pivot is connected with the second pivot, the fixed surface of second pivot is connected with inlet wire cabinet control cabinet door, the first cabinet door handle of fixed surface of inlet wire cabinet control cabinet door, the fixed surface of second pivot is connected with relay cabinet door, the fixed surface of relay cabinet door is connected with observation window, the fixed surface of relay cabinet door is connected with second cabinet door handle, the bottom fixedly connected with rubber anti-skidding base of inlet wire cabinet main part, the inside fixedly connected with busbar room of inlet wire cabinet main part, the inside fixedly connected with relay room of inlet wire cabinet main part, the inside fixedly connected with inlet wire room of inlet wire cabinet main part.

Through above-mentioned technical scheme, can open the cabinet door through the cabinet door handle and carry out maintenance inspection work, can prevent the slope of inlet wire cabinet main part through rubber anti-skidding base, guaranteed the steady of inlet wire cabinet.

Further, the number of the first rotating shafts is eight, two of the eight first rotating shafts are located on the side face of the control cabinet door of the incoming line cabinet, the rest of the first rotating shafts are evenly distributed on the side face of the relay cabinet door, the number of the second cabinet door handles is two, and the two second cabinet door handles are symmetrically distributed by taking the center of the surface of the relay cabinet door as a middle point.

Further, the cooling mechanism comprises a cooling cabinet main body, the fixed surface of cooling cabinet main body is connected with the temperature display, the fixed surface of cooling cabinet main body is connected with cooling cabinet control panel, the inside fixedly connected with installing cabinet of cooling cabinet main body, the inside fixedly connected with air exhauster of installing cabinet, the fixed surface of installing cabinet is connected with the heat dissipation filter screen, the left surface fixedly connected with cooling plate of cooling cabinet main body, the inside fixedly connected with condenser tube of cooling plate.

Further, the quantity of installing cabinet sets up to a plurality of, and a plurality of installing cabinet is at the inside evenly distributed of heat dissipation cabinet, the quantity of air exhauster sets up to a plurality of, and a plurality of the air exhauster is located the inside of a plurality of installing cabinet respectively, the quantity of condenser pipe sets up to a plurality of, and a plurality of the condenser pipe is at the inside evenly distributed of cooling plate.

Further, the safety mechanism comprises an intelligent networking box, the surface of the intelligent networking box is fixedly connected with an alarm, and the surface of the intelligent networking box is fixedly connected with a warning lamp.

Further, the intelligent networking box is connected with the temperature display through a line.

Compared with the prior art, the utility model has the beneficial effects that:

According to the utility model, the radiating cabinet is arranged, and particularly, the radiating cabinet control panel is used for sending out an instruction, the condensing pipe in the cooling plate starts to refrigerate, so that the temperature in the inlet cabinet is quickly reduced, the air in the inlet cabinet is circularly flowed through the exhaust fan, and the cooling and radiating functions are provided for the inlet cabinet.

According to the intelligent network cabinet, the intelligent network cabinet is connected with the circuit of the temperature display, the intelligent network cabinet can obtain real-time data of the internal temperature of the wire inlet cabinet, and the real-time data are sent to the remote control terminal through the network, so that damage to the wire inlet cabinet, which is caused by the fact that the wire inlet cabinet is not found abnormal in time, is greatly reduced, and the service life of the wire inlet cabinet is prolonged to a certain extent.

Drawings

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

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

FIG. 3 is a schematic view illustrating the disassembly of the present utility model;

FIG. 4 is a schematic cross-sectional view of the present utility model;

In the figure: 1. a main body mechanism; 101. a wire inlet cabinet main body; 102. the incoming line cabinet controls the cabinet door; 103. a relay cabinet door 103; 104. a first cabinet door handle; 105. a second cabinet door handle; 106. an observation window; 107. a rubber anti-slip base; 108. a first rotating shaft; 109. a second rotating shaft; 110. a bus bar chamber; 111. a relay chamber; 112. a wire inlet chamber; 2. a heat dissipation mechanism; 201. a heat sink cabinet body; 202. a temperature display; 203. a heat dissipation cabinet control panel; 204. a heat dissipation filter screen; 205. an exhaust fan; 206. installing a cabinet; 207. a cooling plate; 208. a condensing tube; 3. a safety mechanism; 301. an intelligent networking box; 302. an alarm; 303. a warning light.

Detailed Description

Referring to fig. 1-4, a high-voltage wire inlet cabinet with efficient heat dissipation in this embodiment includes a main body mechanism 1, a heat dissipation mechanism 2 and a safety mechanism 3, wherein the heat dissipation mechanism 2 is located on the surface of the main body mechanism 1, and the safety mechanism 3 is located on the surface of the heat dissipation mechanism 2; the main part mechanism 1 includes inlet wire cabinet main part 101, the first pivot 108 of fixed surface connection of inlet wire cabinet main part 101, the second pivot 109 of fixed surface connection of first pivot 108, the fixed surface of second pivot 109 is connected with inlet wire cabinet control cabinet door 102, the first cabinet door handle 104 of fixed surface connection of inlet wire cabinet control cabinet door 102, the fixed surface of second pivot 109 is connected with relay cabinet door 103, the fixed surface of relay cabinet door 103 is connected with observation window 106, the fixed surface of relay cabinet door 103 is connected with second cabinet door handle 105, the bottom fixedly connected with rubber anti-skidding base 107 of inlet wire cabinet main part 101, the inside fixedly connected with busbar room 110 of inlet wire cabinet main part 101, the inside fixedly connected with relay room 111 of inlet wire cabinet main part 101, the inside fixedly connected with inlet wire room 112 of inlet wire cabinet main part 101.

The number of the first rotating shafts 108 is eight, two of the eight first rotating shafts 108 are located on the side face of the incoming line cabinet control cabinet door 102, the rest of the first rotating shafts 108 are evenly distributed on the side face of the relay cabinet door 103, the number of the second cabinet door handles 105 is two, and the two second cabinet door handles 105 are symmetrically distributed by taking the center of the surface of the relay cabinet door 103 as a middle point.

The heat dissipation mechanism 2 comprises a heat dissipation cabinet main body 201, a temperature display 202 is fixedly connected to the surface of the heat dissipation cabinet main body 201, a heat dissipation cabinet control panel 203 is fixedly connected to the surface of the heat dissipation cabinet main body 201, an installation cabinet 206 is fixedly connected to the inside of the heat dissipation cabinet main body 201, an exhaust fan 205 is fixedly connected to the inside of the installation cabinet 206, a heat dissipation filter screen 204 is fixedly connected to the surface of the installation cabinet 206, a cooling plate 207 is fixedly connected to the left side surface of the heat dissipation cabinet main body 201, and a condensation pipe 208 is fixedly connected to the inside of the cooling plate 207.

The quantity of installing cabinet 206 sets up to a plurality of, and a plurality of installing cabinet 206 is at the inside evenly distributed of heat dissipation cabinet, and the quantity of air exhauster 205 sets up to a plurality of, and a plurality of air exhauster 205 is located the inside of a plurality of installing cabinet 206 respectively, and the quantity of condenser pipe 208 sets up to a plurality of, and a plurality of condenser pipe 208 is at the inside evenly distributed of cooling plate 207.

The safety mechanism 3 includes intelligent networking case 301, and intelligent networking case 301's fixed surface is connected with alarm 302, and intelligent networking case 301's fixed surface is connected with warning light 303.

The intelligent networking box 301 is wired to the temperature display 202.

The working principle of the utility model is as follows: the cooling cabinet control panel 203 is used for sending out an instruction, the condensing tube 208 in the cooling plate 207 is used for starting to refrigerate, so that the temperature inside the inlet cabinet is quickly reduced, the air inside the inlet cabinet is circulated and flows through the exhaust fan 205, the intelligent networking box 301 is connected with the circuit of the temperature display 202, real-time data of the temperature inside the inlet cabinet can be obtained through the intelligent networking box 301, the real-time data are sent to the remote control terminal through the network, and when the temperature display 202 finds that the temperature inside the inlet cabinet is abnormal, the intelligent networking box 301 obtains the data, and the alarm 302 and the warning lamp 303 are started to remind workers nearby and feed back to a remote monitoring person.

Claims (6)

1. The high-voltage wire inlet cabinet is characterized by comprising a main body mechanism, a heat dissipation mechanism and a safety mechanism, wherein the heat dissipation mechanism is positioned on the surface of the main body mechanism, and the safety mechanism is positioned on the surface of the heat dissipation mechanism; the main part mechanism includes the inlet wire cabinet main part, the first pivot of fixed surface of inlet wire cabinet main part, the fixed surface of first pivot is connected with the second pivot, the fixed surface of second pivot is connected with inlet wire cabinet control cabinet door, the first cabinet door handle of fixed surface of inlet wire cabinet control cabinet door, the fixed surface of second pivot is connected with relay cabinet door, the fixed surface of relay cabinet door is connected with observation window, the fixed surface of relay cabinet door is connected with second cabinet door handle, the bottom fixedly connected with rubber anti-skidding base of inlet wire cabinet main part, the inside fixedly connected with busbar room of inlet wire cabinet main part, the inside fixedly connected with relay room of inlet wire cabinet main part, the inside fixedly connected with inlet wire room of inlet wire cabinet main part.

2. The high-pressure wire inlet cabinet with high-efficiency heat dissipation according to claim 1, wherein: the number of the first rotating shafts is eight, two of the eight first rotating shafts are located on the side face of the control cabinet door of the incoming line cabinet, the rest of the first rotating shafts are evenly distributed on the side face of the relay cabinet door, the number of the second cabinet door handles is two, and the two second cabinet door handles are symmetrically distributed by taking the center of the surface of the relay cabinet door as a middle point.

3. The high-pressure wire inlet cabinet with high-efficiency heat dissipation according to claim 1, wherein: the cooling mechanism comprises a cooling cabinet main body, a temperature display is fixedly connected to the surface of the cooling cabinet main body, a cooling cabinet control panel is fixedly connected to the surface of the cooling cabinet main body, an installation cabinet is fixedly connected to the inside of the cooling cabinet main body, an exhaust fan is fixedly connected to the inside of the installation cabinet, a cooling filter screen is fixedly connected to the surface of the installation cabinet, a cooling plate is fixedly connected to the left side face of the cooling cabinet main body, and a condensing pipe is fixedly connected to the inside of the cooling plate.

4. A high-pressure inlet cabinet with efficient heat dissipation as defined in claim 3, wherein: the quantity of installing cabinet sets up to a plurality of, and a plurality of installing cabinet is at the inside evenly distributed of heat dissipation cabinet, the quantity of air exhauster sets up to a plurality of, and a plurality of the air exhauster is located the inside of a plurality of installing cabinet respectively, the quantity of condenser pipe sets up to a plurality of, and a plurality of the condenser pipe is at the inside evenly distributed of cooling plate.

5. The high-pressure wire inlet cabinet with high-efficiency heat dissipation according to claim 1, wherein: the safety mechanism comprises an intelligent networking box, an alarm is fixedly connected to the surface of the intelligent networking box, and a warning lamp is fixedly connected to the surface of the intelligent networking box.

6. The high-pressure wire inlet cabinet with high-efficiency heat dissipation according to claim 5, wherein: the intelligent networking box is connected with the temperature display through a line.