CN116683317A - High-voltage electrical cabinet based on electric control isolating switch - Google Patents

Abstract

The invention relates to the field of electrical cabinets and discloses a high-voltage electrical cabinet based on an electric control isolating switch, which comprises a cabinet body, wherein an electrical module is arranged in the cabinet body and is in sliding connection with the inner wall of the cabinet body, and the electrical module can rotate around the rear end of the electrical module after sliding to the front of the cabinet body; a heat dissipation assembly mounted below the electrical module; the wire casing, the wire casing is installed at the back inner wall of the cabinet body, the wire casing is interior to have electric wire blast apparatus. According to the invention, the electric module and the cabinet body are movably arranged, so that the electric module can slide to the front open end of the cabinet body during maintenance, thereby being convenient for maintenance personnel to maintain the electric module, and the electric module can rotate at a certain angle when sliding to the front of the cabinet body, so that the electric module can be in an inclined state, and further the maintenance convenience is improved.

Description

High-voltage electrical cabinet based on electric control isolating switch

Technical Field

The invention relates to the technical field of electrical cabinets, in particular to a high-voltage electrical cabinet based on an electric control isolating switch.

Background

The electric cabinet is formed by processing steel materials and is used for protecting components from working normally; the electric cabinet is opened and closed, controlled and protected in the processes of power generation, power transmission, power distribution and electric energy conversion. High-voltage elements such as a high-voltage circuit breaker, a high-voltage isolating switch, a high-voltage load switch, a high-voltage operating mechanism and the like are arranged in the high-voltage circuit breaker; the electrical cabinet is generally composed of a distribution box, a high-voltage switch cabinet, a power control cabinet, a socket cabinet, a filter cabinet, a lightning arrester cabinet, a branch distribution cabinet and the like; the electric cabinet is essential to the safe and stable operation of the power system and is an indispensable device;

inside components and parts of regulator cubicle of prior art are fixed in the inside of the cabinet body through mounting such as screw generally, and when the maintainer overhauld, need examine and repair the components and parts of the internal portion of cabinet with the help of instrument such as ladder, the process of overhauling is inconvenient.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides a high-voltage electrical cabinet based on an electrically-controlled isolating switch, which aims to solve the problems in the prior art.

(II) technical scheme

In order to achieve the above purpose, the present invention provides the following technical solutions:

the utility model provides a high voltage electrical cabinet based on electric control isolator, includes the cabinet body, the inside of the cabinet body has:

the electric module is connected with the inner wall of the cabinet body in a sliding way, and can rotate around the rear end of the electric module after sliding to the front of the cabinet body;

a heat dissipation assembly mounted below the electrical module;

the wire casing, the wire casing is installed at the back inner wall of the cabinet body, the wire casing is interior to have the electric wire.

Preferably, the heat dissipation assembly includes:

a blower device;

the cooling box is internally provided with a heat-conducting medium, and the air of the air blowing device blows to the electric module after passing through the cooling box so as to achieve the heat dissipation effect on the electric module;

through setting up to mobilizable setting between electric module and the cabinet body, electric module can slide to the place ahead open end of the cabinet body when overhauling to can make things convenient for the maintainer to overhaul electric module, and when electric module slides to the place ahead of the cabinet body, can also carry out the rotation of certain angle, consequently electric module can be the state of slope, thereby further improved the convenience of overhauling.

Preferably, the cooling tank is composed of a plurality of flat tanks, gaps are formed among the plurality of tanks, and the air of the air blowing device can blow into the gaps to exchange heat with the heat conducting medium in the cooling tank, so that the temperature of the air around the cooling tank is reduced.

Preferably, the both ends of cooling tank are connected with communicating pipe, communicating pipe and the inside intercommunication of a plurality of boxes to the passageway that the intercommunication formed is "S" shape, the mid-mounting of communicating pipe has the circulating pump, the circulating pump drives communicating pipe and the inside heat-conducting medium of cooling tank and flows in communicating pipe and the inside "S" shape cavity that the cooling tank formed, in order to reach even radiating purpose, circulates the heat-conducting medium in the cooling tank through the circulating pump to let the heat-conducting medium evenly be heated, exchange with outside air, reach the purpose that lets the heat-conducting medium cool down.

Preferably, one end of the cabinet body is an open end, a cabinet door is arranged on the front face of the open end, the cabinet door is movably connected with the cabinet body through a hinge, a plurality of placing tables are arranged in the cabinet body and used for bearing the electrical modules, the bottoms of the electrical modules are slidably connected with the top surfaces of the placing tables, and the electrical modules can slide on the placing tables so as to achieve the purpose of convenient maintenance.

Preferably, a space is formed between one side of the placing table far away from the open end of the cabinet body and the inner wall of the cabinet body, the distance between the space is defined as alpha, the space is used for loading the wire slots, the space is internally provided with the filter plates, and the distance alpha between the space is larger than the sum of the thicknesses of the wire slots and the filter plates.

Preferably, the wire casing still has the apron, the one end joint of the one end wire casing of apron, the wire casing has still been seted up to the side of wire casing, the wire casing is used for drawing forth the electric wire, the externally mounted of the cabinet body has electric isolator, electric wire and electric isolator electric connection can control the break-make of circuit through electric isolator.

Preferably, the upper end and the lower end of the electric module are provided with heat dissipation holes, the middle part of the placing table is provided with an opening corresponding to the heat dissipation holes, the front end of the placing table is provided with a notch, the notch is used for accommodating the pulled out electric wire, and when the electric module is pulled out by arranging the notch, the electric wire is not easy to be extruded by the electric module and the front end of the placing table, so that the electric wire is protected.

Preferably, the both ends of electric module are connected with the slider, vertical spout and horizontal spout have been seted up to the lateral wall of the cabinet body, horizontal spout is parallel with placing the platform, vertical spout is perpendicular with placing the platform and be located the front end of the cabinet body, electric module slides to the cabinet body along horizontal spout to when the slider is located the cross position of horizontal spout and vertical spout, electric module can follow vertical spout downwardly moving to change electric module's position, conveniently overhaul.

Preferably, the vertical chute is provided with the locking groove, the shape of the locking groove is matched with that of the sliding block, the inner wall of the locking groove is connected with the locking column, the sliding block moves downwards with the locking column, the sliding block slides in the vertical chute, and then the sliding block stays in one of the locking grooves on the vertical chute when moving to the position of the locking groove, so that the locking hole on the sliding block at the rear end of the electric module is inclined with the locking column on the inner wall of the locking groove, thereby the electric module hovers and forms an inclined angle, further convenient maintenance is realized, when the electric module is required to be maintained, the cabinet door is firstly opened, then the electric module is pulled towards the open end of the cabinet body, the sliding block at the rear end of the electric module slides in the horizontal chute, the sliding block moves downwards with the electric module when sliding to the forefront end of the horizontal chute, the sliding block stays in the vertical chute, and then the electric module is separated from the support, the locking hole on the sliding block is clamped with the locking column on the inner wall of the locking groove, so that the electric module is fixed in the locking groove, and the electric module can be maintained in an inclined state.

Compared with the prior art, the invention provides the high-voltage electrical cabinet based on the electric control isolating switch, which has the following beneficial effects:

1. according to the invention, the electric module and the cabinet body are movably arranged, so that the electric module can slide to the front open end of the cabinet body during maintenance, thereby being convenient for maintenance personnel to maintain the electric module, and the electric module can rotate at a certain angle when sliding to the front of the cabinet body, so that the electric module can be in an inclined state, and further the maintenance convenience is improved.

2. According to the invention, the heat dissipation assembly is arranged at the bottom of the cabinet body, so that when an electric module and other elements in the cabinet body work, the components in the cabinet body can be cooled through the heat dissipation assembly, the components in the cabinet body can normally operate, and unstable operation caused by high temperature is reduced.

3. According to the invention, the wire slot and the cover plate are arranged, so that the electric wire can be stored, and when the electric wire needs to be connected with the electric module, the appearance end of the electric wire can be led out from the wire outlet slot, so that the electric wire is convenient to electrically connect with the electric module.

4. When the electric module is required to be overhauled, the cabinet door is firstly opened, then the electric module is pulled towards the open end of the cabinet body, so that the sliding block at the rear end of the electric module slides in the transverse sliding groove, when the sliding block slides to the forefront end of the transverse sliding groove, the electric module is downwards moved, so that the sliding block slides in the vertical sliding groove, then the sliding block stays in one of the locking grooves on the vertical sliding groove, then the electric module is separated from the support, the electric module rotates, the locking hole on the sliding block is clamped with the locking column on the inner wall of the locking groove, and therefore the electric module is fixed in the locking groove, and at the moment, the electric module is in an inclined state, so that overhauling personnel can conveniently overhaul the electric module.

Drawings

FIG. 1 is a perspective view of an electrical cabinet of the present invention;

FIG. 2 is a perspective view of a part of the structure of the electric cabinet of the invention;

FIG. 3 is a perspective view of a trunking of the present invention;

FIG. 4 is a partial perspective view of a trunking of the present invention;

FIG. 5 is a perspective view of a heat dissipating assembly according to the present invention;

FIG. 6 is a front view of the cooling tank and the communicating tube of the present invention;

FIG. 7 is an exploded view of the structure of the present invention;

FIG. 8 is a diagram showing the change of motion state of an electrical module according to the present invention;

FIG. 9 is a schematic view of the structure of the electrical module and cabinet of the present invention;

fig. 10 is an enlarged schematic view of fig. 9 a in accordance with the present invention.

In the figure: 100. a cabinet body; 110. a cabinet door; 120. a placement table; 121. an opening; 122. a notch; 130. a wire slot; 140. a cover plate; 150. an electric wire; 160. a wire outlet slot; 170. an isolating switch; 180. a spacing space; 190. a filter plate; 200. an electrical module; 300. a heat dissipation assembly; 310. a blower device; 320. a cooling box; 330. a communicating pipe; 340. a circulation pump; 410. a vertical chute; 420. a transverse chute; 430. a locking groove; 440. a locking post; 450. and a locking hole.

Detailed Description

Examples:

referring to fig. 1-4, the embodiment discloses a high-voltage electrical cabinet based on an electrically controlled isolating switch, which comprises a cabinet body 100, wherein the cabinet body 100 is provided with:

the electric module 200 is slidably connected with the inner wall of the cabinet body 100, and the electric module 200 can rotate around the rear end of the electric module 200 after sliding to the front of the cabinet body 100;

a heat dissipation assembly 300, the heat dissipation assembly 300 being mounted below the electrical module 200;

a wire groove 130, the wire groove 130 is installed on the rear inner wall of the cabinet 100, and the wire groove 130 has a wire 150 therein.

With continued reference to fig. 5, the heat dissipation assembly 300 may specifically include:

a blower 310, wherein the blower 310 may be a blower or a fan;

the cooling box 320 is provided with a heat conducting medium inside the cooling box 320, and the air of the air blowing device 310 blows to the electric module 200 after passing through the cooling box 320, thereby achieving the heat dissipation effect on the electric module 200.

As shown in fig. 5, the cooling box 320 is formed by a plurality of flat boxes, gaps are formed between the boxes, the air of the air blowing device 310 can blow into the gaps and exchange heat with the heat-conducting medium in the cooling box 320, so that the temperature of the air around the cooling box 320 is reduced, then the air is blown out by the air blowing device 310, the air is changed into cold air through the vicinity of the cooling box 320, and finally the cold air is blown to the bottom of the electric module 200, so that the electric module 200 dissipates heat, and the operating temperature of the electric module 200 is reduced;

it should be noted that the heat-conducting medium in the cooling tank 320 may be water, heat-conducting oil, or other liquid with fluidity and heat-conducting property.

With continued reference to fig. 6, two ends of the cooling tank 320 are connected with a communicating pipe 330, the communicating pipe 330 is communicated with the interiors of the plurality of tanks, and a channel formed by the communicating pipe is S-shaped, a circulating pump 340 is installed in the middle of the communicating pipe 330, the circulating pump 340 drives the communicating pipe 330 and the heat-conducting medium in the cooling tank 320 to flow in the S-shaped cavity formed by the communicating pipe 330 and the cooling tank 320, so as to achieve the purpose of uniform heat dissipation, and the heat-conducting medium in the cooling tank 320 is circulated through the circulating pump 340, so that the heat-conducting medium is uniformly heated and exchanged with the air outside, thereby achieving the purpose of cooling the heat-conducting medium;

as shown in fig. 6, in order to allow the air blown from the air blowing device 310 to sufficiently contact the surface of the cooling box 320, the heat exchange efficiency is improved, and thus, a plurality of boxes constituting the cooling box 320 may be provided in an inclined state, so that the air can sufficiently contact the cooling box 320 (as indicated by the straight arrow in fig. 6).

As shown in fig. 1, one end of the cabinet body 100 is an open end, a cabinet door 110 is disposed on the front surface of the open end, the cabinet door 110 is movably connected with the cabinet body 100 through a hinge, a plurality of placing tables 120 are disposed in the cabinet body 100, the placing tables 120 are used for carrying the electrical module 200, the bottom of the electrical module 200 is slidably connected with the top surface of the placing tables 120, and the electrical module 200 can slide on the placing tables 120, so as to achieve the purpose of convenient maintenance.

With continued reference to fig. 7, a space 180 is provided between the side of the placement platform 120 far from the open end of the cabinet body 100 and the inner wall of the cabinet body 100, the space between the space 180 is defined as α, the space 180 is used for loading the wire slots 130, the space 180 is further provided with filter plates 190, and the space α between the space 180 is greater than the sum of the thicknesses of the wire slots 130 and the filter plates 190;

by providing the spacing space 180, the wire chase 130 and the filter board 190 can be installed in this space without affecting the normal operation of the electrical module 200.

As shown in fig. 3 and fig. 4, the wire slot 130 further has a cover plate 140, one end of the wire slot 130 at one end of the cover plate 140 is clamped, a wire outlet slot 160 is further formed on the side surface of the wire slot 130, the wire outlet slot 160 is used for leading out a wire 150, an electric isolating switch 170 is mounted outside the cabinet body 100, the wire 150 is electrically connected with the electric isolating switch 170, and the on-off of a circuit can be controlled through the electric isolating switch 170;

by arranging the wire slot 130 and the cover plate 140, the electric wire 150 can be stored, and when the electric wire 150 needs to be connected with the electric module 200, the appearance end of the electric wire 150 can be led out from the wire outlet slot 160, so that the electric wire is electrically connected with the electric module 200.

As shown in fig. 7, the upper and lower ends of the electrical module 200 are provided with heat dissipation holes 210, the middle of the placement table 120 is provided with an opening 121 corresponding to the position of the heat dissipation holes 210, the front end of the placement table 120 is provided with a notch 122, the notch 122 is used for accommodating the pulled-out electrical wire 150, and when the electrical module 200 is pulled out by providing the notch 122, the electrical wire 150 is not easily extruded by the electrical module 200 and the front end of the placement table 120, thereby protecting the electrical wire 150.

With continued reference to fig. 8-10, as a possible embodiment, the foregoing "the electrical module 200 is rotatable around the rear end of the electrical module 200 after sliding to the front of the cabinet 100" may be implemented by:

the two ends of the electrical module 200 are connected with the sliding blocks 220, the side wall of the cabinet body 100 is provided with the vertical sliding grooves 410 and the horizontal sliding grooves 420, the horizontal sliding grooves 420 are parallel to the placing table 120, the vertical sliding grooves 410 are perpendicular to the placing table 120 and are positioned at the front end of the cabinet body 100, and when the electrical module 200 slides to the cabinet body 100 along the horizontal sliding grooves 420 and the sliding blocks 220 are positioned at the crossing positions of the horizontal sliding grooves 420 and the vertical sliding grooves 410, the electrical module 200 can move downwards along the vertical sliding grooves 410, so that the position of the electrical module 200 is changed, and the maintenance is convenient;

the vertical sliding groove 410 is provided with a locking groove 430, the shape of the locking groove 430 is matched with that of the sliding block 220, the inner wall of the locking groove 430 is connected with a locking column 440, the position of the sliding block 220 corresponding to the locking column 440 is provided with a locking hole 450, when the electric module 200 moves to the position of the locking groove 430, the electric module 200 is inclined, so that the locking hole 450 on the sliding block 220 at the rear end of the electric module 200 is in contact with the locking column 440 on the inner wall of the locking groove 430, the electric module 200 is hovered, an inclined angle is formed, and the maintenance is further facilitated;

through the above scheme, when the electrical module 200 needs to be overhauled, the cabinet door 110 is firstly opened, then the electrical module 200 is pulled towards the open end of the cabinet body 100, the sliding block 220 at the rear end of the electrical module 200 slides in the transverse sliding groove 420, when the sliding block 220 slides to the forefront end of the transverse sliding groove 420, the electrical module 200 moves downwards, the sliding block 220 slides in the vertical sliding groove 410, then the sliding block 220 stays in one of the locking grooves 430 on the vertical sliding groove 410, then the electrical module 200 is separated from the support, the electrical module 200 rotates, the locking hole 450 on the sliding block 220 is clamped with the locking column 440 on the inner wall of the locking groove 430, so that the electrical module 200 is fixed in the locking groove 430, and at the moment, the electrical module 200 is in an inclined state, thereby being convenient for overhaulers to overhaul the electrical module 200.

Claims (10)

1. High-voltage electrical cabinet based on electrically controlled isolator, including cabinet body (100), its characterized in that, the inside of cabinet body (100) has:

the electric module (200) is connected with the inner wall of the cabinet body (100) in a sliding manner, and the electric module (200) can rotate around the rear end of the electric module (200) after sliding to the front of the cabinet body (100);

-a heat dissipation assembly (300), the heat dissipation assembly (300) being mounted below the electrical module (200);

the wire groove (130), wire groove (130) is installed at the back inner wall of cabinet body (100), have electric wire (150) in wire groove (130).

2. The high-voltage electrical cabinet based on an electrically controlled isolating switch of claim 1, wherein: the heat dissipation assembly (300) includes:

a blower device (310);

and the cooling box (320) is internally provided with a heat conducting medium, and the wind of the air blowing device (310) is blown to the electric module (200) after passing through the cooling box (320).

3. The high-voltage electrical cabinet based on an electrically controlled isolating switch according to claim 2, wherein: the cooling box (320) is composed of a plurality of flat boxes, gaps are arranged among the boxes, and the air of the air blowing device (310) can be blown into the gaps to exchange heat with the heat conducting medium in the cooling box (320).

4. A high-voltage electrical cabinet based on electrically controlled disconnectors according to claim 3, characterized in that: the cooling box (320) is characterized in that communicating pipes (330) are connected to the two ends of the cooling box (320), the communicating pipes (330) are communicated with the interiors of the plurality of box bodies, channels formed by the communicating pipes are in an S shape, a circulating pump (340) is mounted in the middle of each communicating pipe (330), and the circulating pump (340) drives heat conducting media in the communicating pipes (330) and the cooling box (320) to flow in the S-shaped cavity formed by the communicating pipes (330) and the cooling box (320) so as to achieve the purpose of uniform heat dissipation.

5. A high voltage electrical cabinet based on electrically controlled disconnectors according to any of claims 1-4, characterized in that: one end of the cabinet body (100) is an open end, a cabinet door (110) is arranged on the front face of the open end, the cabinet door (110) is movably connected with the cabinet body (100) through a hinge, a plurality of placing tables (120) are arranged in the cabinet body (100), the placing tables (120) are used for bearing the electrical module (200), and the bottom of the electrical module (200) is in sliding connection with the top surface of the placing tables (120).

6. The high-voltage electrical cabinet based on an electrically controlled isolating switch of claim 5, wherein: the placing table (120) is far away from a side of the open end of the cabinet body (100) and an inner wall of the cabinet body (100), a spacing space (180) is formed between the side of the open end of the cabinet body and the inner wall of the cabinet body, the spacing space (180) is defined as alpha, the interior of the spacing space (180) is used for loading the wire grooves (130), the space (180) is internally provided with the filter plates (190), and the spacing alpha of the spacing space (180) is larger than the sum of the thicknesses of the wire grooves (130) and the filter plates (190).

7. The high-voltage electrical cabinet based on an electrically controlled isolating switch of claim 6, wherein: the wire casing (130) still has apron (140), the one end joint of the one end wire casing (130) of apron (140), wire casing (160) have still been seted up to the side of wire casing (130), wire casing (160) are used for drawing forth electric wire (150), electric isolating switch (170) are installed to the outside of cabinet body (100), electric wire (150) and electric isolating switch (170) electric connection.

8. The high-voltage electrical cabinet based on an electrically controlled isolating switch of claim 7, wherein: the electric module (200) is provided with radiating holes (210) at the upper end and the lower end, an opening (121) corresponding to the radiating holes (210) is formed in the middle of the placing table (120), a notch (122) is formed in the front end of the placing table (120), and the notch (122) is used for accommodating the pulled out electric wires (150).

9. The high-voltage electrical cabinet based on an electrically controlled isolating switch of claim 8, wherein: the utility model discloses a cabinet, including cabinet body (100), electric module (200), vertical spout (410) and horizontal spout (420) have been seted up to the both ends of electric module (200), vertical spout (410) and horizontal spout (420) have been seted up to the lateral wall of cabinet body (100), horizontal spout (420) are parallel with place platform (120), vertical spout (410) are perpendicular with place platform (120) and be located the front end of cabinet body (100), electric module (200) slide to cabinet body (100) along horizontal spout (420) to when slider (220) are located the cross position of horizontal spout (420) and vertical spout (410), electric module (200) can be along vertical spout (410) downwardly moving.

10. The high-voltage electrical cabinet based on an electrically controlled isolating switch of claim 9, wherein: the vertical sliding chute (410) is provided with a locking groove (430), the shape of the locking groove (430) is matched with that of the sliding block (220), the inner wall of the locking groove (430) is connected with a locking column (440), and a locking hole (450) is formed in the position, corresponding to the locking column (440), of the sliding block (220).