CN212258082U - High-voltage feeder cabinet for power distribution control - Google Patents

Abstract

The utility model discloses a high-voltage feeder cabinet for distribution control relates to auxiliary device technical field for distribution control, often leads to the unable normal use of internal plant problem because high temperature and humidity are overweight for solving current high-voltage feeder cabinet and using. The lower extreme of high-pressure feeder cabinet is provided with places the net standing groove, the inside of placing the net standing groove is provided with the active carbon and places the net, the inside top of high-pressure feeder cabinet is provided with temperature sensor, and temperature sensor and high-pressure feeder cabinet pass through draw-in groove fixed connection, temperature sensor's outside is provided with the sensor protection piece, the inner wall of high-pressure feeder cabinet is provided with spacing horizontal piece, the top of spacing horizontal piece is provided with equipment and places the board, the top that equipment placed the board is provided with the protection lug, and the protection lug is provided with a plurality of.

Description

High-voltage feeder cabinet for power distribution control

Technical Field

The utility model relates to an auxiliary device technical field for distribution control specifically is a high-voltage feeder cabinet for distribution control.

Background

Along with the rapid development of economy in China, the living standard of the national people in China also continuously progresses, electrical equipment is the fastest one in the improvement of the progress, a high-voltage feeder cabinet is the most frequently used one of the electrical equipment, and the design of the high-voltage feeder cabinet can ensure that the electrical equipment is used in a better environment, so that the service life of the electrical equipment is longer.

The problem that internal equipment cannot be normally used due to overhigh temperature and overweight humidity when the conventional high-voltage feeder cabinet is used is solved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high-voltage feeder cabinet for distribution control to it often leads to the unable normal use of internal plant problem often because the high temperature is overweight with the humidity to provide current high-voltage feeder cabinet in solving above-mentioned background art when using.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a high-pressure feeder cabinet for power distribution control, includes high-pressure feeder cabinet, the lower extreme of high-pressure feeder cabinet is provided with places the net standing groove, the inside of placing the net standing groove is provided with the active carbon and places the net, the inside top of high-pressure feeder cabinet is provided with temperature sensor, and temperature sensor and high-pressure feeder cabinet pass through draw-in groove fixed connection, temperature sensor's outside is provided with the sensor protection piece, the inner wall of high-pressure feeder cabinet is provided with spacing horizontal piece, the top of spacing horizontal piece is provided with equipment and places the board, the top that the board was placed to equipment is provided with the protection lug, and the protection lug is provided with a plurality of.

Preferably, the below of high-pressure feeder cabinet is provided with the supporting seat, and the supporting seat passes through the screw connection with the high-pressure feeder cabinet, the supporting seat is provided with six, the inside that the net was placed to the active carbon is provided with the active carbon, one side that the net was placed to the active carbon is provided with the handle, and the handle places a net welded connection with the active carbon, the inner wall of placing a net standing groove is provided with the supporting shoe, and the supporting shoe with place a net standing groove welded connection, the both ends that the net top was placed to the active carbon all are provided with limit slide.

Preferably, one end of the high-voltage feeder cabinet is provided with a cabinet door placing groove, a cabinet door is arranged inside the cabinet door placing groove, one end of the cabinet door is rotatably connected with the cabinet door placing groove through a rotating shaft, observation glass is arranged at the upper end of the cabinet door, a cabinet door handle is arranged on one side below the observation glass, and the cabinet door handle is welded with the cabinet door.

Preferably, the inside below of high pressure feeder cabinet is provided with the fan and places the piece, and the fan is placed the piece and is passed through lip block fixed connection with high pressure feeder cabinet, the inside that the piece was placed to the fan is provided with the fan, and the fan passes through electric connection with temperature sensor, the lower extreme that the piece was placed to the fan is provided with the circulation hole, the upper end of placing the net standing groove is provided with the air vent, and the air vent is provided with a plurality of, the both sides that the piece was placed to the fan all are provided with the induced air board, and induced air board and high pressure feeder cabinet welded connection.

Preferably, the rubidium magnet block is arranged above the limiting transverse block and is welded and connected with the limiting transverse block, the lower end of the equipment placing plate is provided with a rubidium magnet block placing groove, the rubidium magnet concave block is arranged above the inside of the rubidium magnet block placing groove, and the rubidium magnet concave block is welded and connected with the rubidium magnet block placing groove.

Preferably, both sides of high-voltage feeder cabinet top all are provided with the hooking link, and hooking link and high-voltage feeder cabinet welded connection, the one end of high-voltage feeder cabinet below is provided with circulation end gas pocket, and just circulates the end gas pocket and be provided with a plurality of, the one end that the board was placed to equipment is provided with the hole of blowing, and the hole of blowing is provided with a plurality of.

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

1. this kind of high-voltage feeder cabinet for distribution control compares with current auxiliary device for distribution control, temperature sensor has been equipped with, active carbon and induced air board, temperature sensor's design can in time cool down equipment, the design of induced air board can let the air current more accurate to the cooling of equipment, the inside that overweight moisture entered into high-voltage feeder cabinet can effectively be placed in the design of active carbon, the problem of current high-voltage feeder cabinet often leading to the unable normal use of internal plant because the high temperature is too high and humidity is overweight when using has been solved.

2. This kind of high-voltage feeder cabinet for distribution control compares with current auxiliary device for distribution control, has been equipped with rubidium magnetic block, rubidium magnetic block standing groove and rubidium magnetism concave block, and the design of rubidium magnetic block, rubidium magnetic block standing groove and rubidium magnetism concave block can let the staff more convenient placing the change of board to equipment, has solved current high-voltage feeder cabinet and has placed the problem that the board is stable inadequately and drops when changing to equipment.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a cross-sectional view of the overall structure of the present invention;

fig. 3 is a partial enlarged view of the area a of the present invention.

In the figure: 1. a high voltage feeder cabinet; 2. a supporting seat; 3. placing a net placing groove; 4. an active carbon placing net; 5. a handle; 6. a limiting slide block; 7. a support block; 8. a cabinet door placing groove; 9. a cabinet door handle; 10. a cabinet door; 11. observing glass; 12. hooking the hanging ring; 13. circulating the bottom air hole; 14. a vent hole; 15. a fan placement block; 16. supporting the cushion block; 17. a flow-through hole; 18. a fan; 19. an air induction plate; 20. a device placement plate; 21. a gas blowing hole; 22. a protection bump; 23. a temperature sensor; 24. a sensor protection block; 25. a rubidium magnetic block placing groove; 26. a rubidium magnetic block; 27. a limiting transverse block; 28. activated carbon; 29. rubidium magnetism concave block.

Detailed Description

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

Referring to fig. 1-3, the present invention provides an embodiment: a high-voltage feeder cabinet for power distribution control comprises a high-voltage feeder cabinet 1, wherein a placing net placing groove 3 is arranged at the lower end of the high-voltage feeder cabinet 1, the placing net placing groove 3 is designed to enable the placing of an active carbon placing net 4 to be more convenient, the active carbon placing net 4 is arranged inside the placing net placing groove 3, a temperature sensor 23 is arranged above the inside of the high-voltage feeder cabinet 1, the temperature sensor 23 adopts a temperature sensor 23 with the model of PT-100, the temperature sensor 23 is fixedly connected with the high-voltage feeder cabinet 1 through a clamping groove, the connection between the temperature sensor 23 and the high-voltage feeder cabinet 1 is firmer, a sensor protection block 24 is arranged outside the temperature sensor 23, the design of the sensor protection block 24 can enable the temperature sensor 23 to be used more safely, a limiting transverse block 27 is arranged on the inner wall of the high-voltage feeder cabinet 1, and an equipment placing plate 20 is arranged above the limiting transverse block 27, the protection projection 22 is provided above the equipment placing plate 20, and the protection projection 22 is provided in plural.

Further, the below of high-voltage feeder cabinet 1 is provided with supporting seat 2, and supporting seat 2 passes through the screw connection with high-voltage feeder cabinet 1, let supporting seat 2 more firm with high-voltage feeder cabinet 1's connection, supporting seat 2 is provided with six, the inside that net 4 was placed to the active carbon is provided with active carbon 28, one side that net 4 was placed to the active carbon is provided with handle 5, and handle 5 places net 4 welded connection with the active carbon, let handle 5 and active carbon place the connection of net 4 more firm, the inner wall of placing net standing groove 3 is provided with supporting shoe 7, and supporting shoe 7 with place 3 welded connection of net standing groove, let supporting shoe 7 more firm with the connection of placing net standing groove 3, the both ends that net 4 tops were placed to the active carbon all are provided with limit slider 6.

Further, the one end of high-voltage feeder cabinet 1 is provided with cabinet door standing groove 8, the inside of cabinet door standing groove 8 is provided with cabinet door 10, and the one end of cabinet door 10 rotates through the pivot with cabinet door standing groove 8 to be connected, let the one end of cabinet door 10 more firm with being connected of cabinet door standing groove 8, the upper end of cabinet door 10 is provided with observation glass 11, one side of observing glass 11 below is provided with cabinet door handle 9, and cabinet door handle 9 and cabinet door 10 welded connection, let cabinet door handle 9 more firm with being connected of cabinet door 10.

Further, the inside below of high-voltage feeder cabinet 1 is provided with the fan and places piece 15, and the fan is placed piece 15 and is passed through lip block 16 fixed connection with high-voltage feeder cabinet 1, let the fan place the piece 15 more firm with the connection of high-voltage feeder cabinet 1, the inside that the piece 15 was placed to the fan is provided with fan 18, and fan 18 and temperature sensor 23 pass through electric connection, the lower extreme that the piece 15 was placed to the fan is provided with circulation hole 17, the upper end of placing net standing groove 3 is provided with air vent 14, and air vent 14 is provided with a plurality of, the both sides of the top that the piece 15 was placed to the fan all are provided with induced air plate 19, and induced air plate 19 and high-voltage feeder cabinet 1 welded connection, let induced air plate 19 and high-voltage feeder cabinet 1 be connected more firmly.

Further, the rubidium magnetic block 26 is arranged above the limiting transverse block 27, the rubidium magnetic block 26 is connected with the limiting transverse block 27 in a welded mode, the rubidium magnetic block 26 is more firmly connected with the limiting transverse block 27, the lower end of the equipment placing plate 20 is provided with the rubidium magnetic block placing groove 25, the rubidium magnetic block placing groove 25 is designed to enable the rubidium magnetic concave block 29 to be placed more conveniently, the rubidium magnetic concave block 29 is arranged above the inside of the rubidium magnetic block placing groove 25, the rubidium magnetic concave block 29 is connected with the rubidium magnetic block placing groove 25 in a welded mode, and the rubidium magnetic concave block 29 is more firmly connected with the rubidium magnetic block placing groove 25.

Further, both sides above the high-voltage feeder cabinet 1 are provided with the hooking hanging ring 12, the hooking hanging ring 12 is connected with the high-voltage feeder cabinet 1 in a welding mode, the hooking hanging ring 12 is more firmly connected with the high-voltage feeder cabinet 1, one end below the high-voltage feeder cabinet 1 is provided with a circulation bottom air hole 13, the circulation bottom air hole 13 is provided with a plurality of, one end of the equipment placing plate 20 is provided with an air blowing hole 21, and the air blowing hole 21 is provided with a plurality of.

The working principle is as follows: when in use, the high-voltage feeder cabinet device for power distribution control is moved to a position to be used, then a worker can place the equipment placing plate 20 above the limiting transverse block 27 according to own requirements, at the moment, the rubidium magnetic block 26 at the upper end of the limiting transverse block 27 can be firmly and tightly attracted with the rubidium magnetic concave block 29 inside the rubidium magnetic block placing groove 25, so that the equipment placing plate 20 and the limiting transverse block 27 can be fixed more firmly, when the temperature sensor 23 senses that the temperature inside the high-voltage feeder cabinet 1 is too high, signals are transmitted to the fan 18, at the moment, the fan 18 can better cool the equipment through the through bottom air holes 13, the air vent 14, the circulation holes 17 and the air blowing holes 21, the service life of the electrical equipment can be more rapid, the activated carbon placing net 4 can better separate dust, and the activated carbon 28 inside the activated carbon placing net 4 can effectively prevent more water from flowing into the high-voltage feeder cabinet 1 And (4) a section.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a distribution is high-pressure feeder cabinet for control, includes high-pressure feeder cabinet (1), its characterized in that: the lower extreme of high-pressure feeder cabinet (1) is provided with places net standing groove (3), the inside of placing net standing groove (3) is provided with active carbon and places net (4), the inside top of high-pressure feeder cabinet (1) is provided with temperature sensor (23), and temperature sensor (23) and high-pressure feeder cabinet (1) pass through draw-in groove fixed connection, the outside of temperature sensor (23) is provided with sensor protection piece (24), the inner wall of high-pressure feeder cabinet (1) is provided with spacing horizontal block (27), the top of spacing horizontal block (27) is provided with equipment and places board (20), the top that board (20) was placed to equipment is provided with protection lug (22), and protection lug (22) are provided with a plurality of.

2. The high-voltage feeder cabinet for power distribution control according to claim 1, wherein: the utility model discloses a high pressure feeder cabinet, including high pressure feeder cabinet (1), supporting seat (2), and supporting seat (2) and high pressure feeder cabinet (1) pass through the screw connection, supporting seat (2) are provided with six, the inside that net (4) were placed to the active carbon is provided with active carbon (28), one side that net (4) were placed to the active carbon is provided with handle (5), and handle (5) and active carbon place net (4) welded connection, the inner wall of placing net standing groove (3) is provided with supporting shoe (7), and supporting shoe (7) and place net standing groove (3) welded connection, the both ends that net (4) top were placed to the active carbon all are provided with stop block (6).

3. The high-voltage feeder cabinet for power distribution control according to claim 1, wherein: the high-voltage feeder cabinet is characterized in that a cabinet door placing groove (8) is formed in one end of the high-voltage feeder cabinet (1), a cabinet door (10) is arranged inside the cabinet door placing groove (8), one end of the cabinet door (10) is rotatably connected with the cabinet door placing groove (8) through a rotating shaft, observation glass (11) is arranged at the upper end of the cabinet door (10), a cabinet door handle (9) is arranged on one side below the observation glass (11), and the cabinet door handle (9) is welded with the cabinet door (10).

4. The high-voltage feeder cabinet for power distribution control according to claim 1, wherein: the inside below of high pressure feeder cabinet (1) is provided with the fan and places piece (15), and the fan places piece (15) and high pressure feeder cabinet (1) through lip block (16) fixed connection, the inside that the piece (15) was placed to the fan is provided with fan (18), and fan (18) and temperature sensor (23) pass through electric connection, the lower extreme that piece (15) was placed to the fan is provided with circulation hole (17), the upper end of placing net standing groove (3) is provided with air vent (14), and air vent (14) are provided with a plurality of, the fan is placed the both sides of the top of piece (15) and all is provided with induced air board (19), and induced air board (19) and high pressure feeder cabinet (1) welded connection.

5. The high-voltage feeder cabinet for power distribution control according to claim 1, wherein: the novel rubidium magnet spacing structure is characterized in that a rubidium magnet block (26) is arranged above the spacing transverse block (27), the rubidium magnet block (26) is connected with the spacing transverse block (27) in a welded mode, a rubidium magnet block placing groove (25) is formed in the lower end of the equipment placing plate (20), rubidium magnet concave blocks (29) are arranged above the inside of the rubidium magnet block placing groove (25), and the rubidium magnet concave blocks (29) are connected with the rubidium magnet block placing groove (25) in a welded mode.

6. The high-voltage feeder cabinet for power distribution control according to claim 1, wherein: both sides of high-voltage feeder cabinet (1) top all are provided with hook link (12), and hook link (12) and high-voltage feeder cabinet (1) welded connection, one end of high-voltage feeder cabinet (1) below is provided with circulation end gas pocket (13), and circulation end gas pocket (13) are provided with a plurality of, the one end that board (20) was placed to equipment is provided with gas hole (21), and gas hole (21) are provided with a plurality of.

Images