CN213212831U

CN213212831U - Low-voltage draw-out type thermal power distribution cabinet

Info

Publication number: CN213212831U
Application number: CN202021658208.XU
Authority: CN
Inventors: 区锦超
Original assignee: Jiangsu Citic Kerui Power Technology Co ltd
Current assignee: Jiangsu Citic Kerui Power Technology Co ltd
Priority date: 2020-08-11
Filing date: 2020-08-11
Publication date: 2021-05-14
Anticipated expiration: 2030-08-11

Abstract

The utility model discloses a low pressure pull-out type heating power switch board, including the switch board main part, the switch board main part includes switch board, distributor and transmission line, and the switch board is inside all linked firmly the distributor, the distributor upside has all linked firmly the transmission line, and the switch board downside is provided with damper, damper includes first connecting plate, head rod, first slider, second connecting plate, spring, blotter, base, third connecting plate, fourth connecting plate, buffer board and laminating piece, and the switch board downside has linked firmly first connecting plate, first connecting plate lower extreme is inserted and is established in the third fluting, and sets up in the base outside the third fluting. The utility model discloses make electric power cabinet when installation and transportation, certain shock attenuation is carried out to the part of inside to safer, prevents that the internals from damaging, increases the subsequent life of distributor, reduces the later stage maintenance, reduces the expense of later stage maintenance, reduces the work expenditure.

Description

Low-voltage draw-out type thermal power distribution cabinet

Technical Field

The utility model relates to a switch board technical field specifically is a low pressure pull-out type heating power switch board.

Background

With the development of science and technology and the development of times, the application of electric power occupies a very important role in the life of modern people, the electric power cabinet can be arranged in large-scale company factories and parking construction sites, and the research on the electric power cabinet also reaches a certain step, so that the existing low-voltage extraction type thermal power distribution cabinet basically meets the requirements of people, but still has some problems.

The first problem is that: traditional low pressure pull-out type heating power switch board when placing because the electric power cabinet is great, can lead to the fact certain damage to inside accurate part when transportation and placing the installation inevitable, influences the life in switch board later stage and the number of times of reinforcing later stage maintenance, increases later stage maintenance cost, increases the work expenditure.

The second problem is that: the distributor is when the maintenance circuit, when the junction is unpack apart and the installation, the danger of electric leakage can appear in the inevitable, can cause harm on the health to the maintenance personal, increases unnecessary harm, and the electric leakage of certain degree also can be to the certain damage that causes of distributor itself.

There is therefore a need for a low-voltage extraction type thermal power distribution cabinet that solves the above mentioned problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a low pressure pull-out type heating power switch board to solve the problem of the unable protection that provides in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a low-voltage draw-out type thermal power distribution cabinet comprises a power distribution cabinet main body, wherein the power distribution cabinet main body comprises a power distribution cabinet, a power distributor and a transmission line, the power distributor is fixedly connected inside the power distribution cabinet, the transmission line is fixedly connected on the upper side of the power distributor, a damping mechanism is arranged on the lower side of the power distribution cabinet and is convenient to damp, the damping mechanism comprises a first connecting plate, a first connecting rod, a first sliding block, a second connecting plate, a spring, a buffer pad, a base, a third connecting plate, a fourth connecting plate, a buffer plate and a fitting block, the damping is convenient, the first connecting plate is fixedly connected on the lower side of the power distribution cabinet, the lower end of the first connecting plate is inserted into a third groove, the outer side of the third groove is arranged in the base, the first connecting rods are fixedly connected on two sides of the first connecting rods, one side of the first connecting rods, far away from the, and the second fluting outside all sets up in the second connecting plate, first connecting plate downside has all linked firmly the spring, and the shock attenuation of being convenient for, and the spring keeps away from the one end of first connecting plate and all links firmly on the base, one side that first connecting plate was kept away from to the second connecting plate all links firmly on the base, and first connecting plate downside has linked firmly the third connecting plate, the third connecting plate lower extreme is inserted and is established in the fourth fluting, and sets up in the fourth fluting outside, the inside slide rail that has all linked firmly of fourth connecting plate, and the slide rail one side of keeping away from the fourth connecting plate all has slided the second slider, one side that the slide rail was kept away from to the second slider all links firmly on the third connecting plate.

Preferably, the distributor is internally provided with a first slot, and the first slot is internally provided with a protection mechanism for facilitating protection, the protection mechanism comprises a latch block, a first connecting block, a second connecting block, a first meshing tooth, a third connecting block and a second meshing tooth, is convenient for protection, and the inside of the first slot is inserted with a pin block, the upper side of the pin block is fixedly connected with a first connecting block, and one side of the first connecting block, which is far away from the latch block, is fixedly connected with a third connecting block, the inside of the third connecting block is fixedly connected with a second meshing tooth for facilitating meshing, and the sides of the second meshing teeth far away from the third connecting block are provided with mutually matched first meshing teeth which are convenient to mesh, one side that third connecting block was kept away from to first meshing tooth all links firmly on the second connecting block, and third connecting block, second connecting block and first connecting block are inside all to have seted up the fifth fluting.

Preferably, the inside first stopper that has all linked firmly of second connecting plate is convenient for spacing, and one side that the second connecting plate is close to the switch board has all linked firmly the laminating piece, is convenient for spacing.

Preferably, the upper side of the base is fixedly connected with a cushion pad, so that the protection is facilitated.

Preferably, one side that the fourth connecting plate was kept away from to the slide rail has all been linked firmly the second stopper, and the spacing of being convenient for, and the third connecting plate is all laminated to one side that the slide rail was kept away from to the second stopper, is convenient for protect.

Preferably, the inside buffer board that has linked firmly of fourth cell, the protection of being convenient for, and the buffer board downside links firmly on the fourth connecting plate, the connection of being convenient for.

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

1. the low-voltage draw-out type thermal power distribution cabinet is provided with a first connecting plate, a first connecting rod, a first sliding block, a second connecting plate, a spring, a buffer pad, a base, a third connecting plate, a fourth connecting plate, a buffer plate and a laminating block, wherein the power distribution cabinet is fixedly connected to the first connecting plate, in the process of carrying and installing, the power distribution cabinet slides in a second slot through the first connecting rod and the first sliding block, a compression spring drives the third connecting plate and the second sliding block to slide on a sliding rail, and certain shock absorption is carried out on parts inside the power distribution cabinet, so that the problems that when the traditional low-voltage draw-out type thermal power distribution cabinet is placed, because the power cabinet is large, the parts with precise inside can be damaged to a certain extent in transportation, placing and installing, the service life of the power distribution cabinet in the later period is influenced, the number of later-period maintenance is increased, the later-period, make the electric power cabinet when installation and transportation, certain shock attenuation is carried out to inside part to more safety, prevents that internals from damaging, increases the subsequent life of distributor, reduces later stage maintenance, reduces the expense of later stage maintenance, reduces the labour expenditure.

2. The low-voltage draw-out type thermal power distribution cabinet is provided with a pin block, a first connecting block, a second connecting block, a first engaging tooth, a third connecting block and a second engaging tooth, a protection mechanism is sleeved outside the power distribution cabinet, after the pin block is inserted into a first groove, the third connecting block is screwed, the second connecting block is clamped and fixed through the engagement of the first engaging tooth and the second engaging tooth, the damage to operators caused by the electric leakage condition when the power distribution cabinet is pulled out is prevented, the problem that the electric leakage can cause certain damage to a distributor when a connection part is disassembled and installed when the power distribution cabinet is used for maintaining a circuit is solved, the danger of electric leakage is avoided, the damage to the body of a maintenance worker can be caused, unnecessary damage is increased, the electric leakage to a certain degree can also cause certain damage to the distributor when the circuit is maintained, the electric leakage is disassembled and installed, and when the electric leakage is reduced, to maintenance personal's injury, prevent that internals from damaging, increase the subsequent life of distributor, reduce later stage maintenance, reduce the expense of later stage maintenance, reduce the work expense.

Drawings

FIG. 1 is a schematic sectional view of the front view of the structure of the present invention;

FIG. 2 is a schematic front view of the structure of the present invention;

fig. 3 is a schematic structural view of a portion a in fig. 1 according to the present invention;

fig. 4 is a schematic structural diagram of the utility model at the position B in fig. 1;

fig. 5 is a schematic structural diagram of the position C in fig. 1 according to the present invention.

In the figure: 100. a power distribution cabinet main body; 110. a power distribution cabinet; 120. a power distributor; 121. a first slot; 130. a transmission line; 200. a damping mechanism; 210. a first connecting plate; 220. a first connecting rod; 230. a first slider; 240. a second connecting plate; 241. a second slot; 242. A first stopper; 250. a spring; 260. a cushion pad; 270. a base; 271. a third slot is formed; 280. a third connecting plate; 281. a second slider; 290. a fourth connecting plate; 291. a slide rail; 292. a fourth slot is formed; 293. a second limiting block; 2010. a buffer plate; 2020. fitting blocks; 300. a protection mechanism; 310. a latch block; 320. a first connection block; 321. fifthly, slotting; 330. a second connecting block; 340. a first meshing tooth; 350. a third connecting block; 360. And a second meshing tooth.

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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides an embodiment: a low-voltage draw-out type thermal power distribution cabinet comprises a power distribution cabinet main body 100, wherein the power distribution cabinet main body 100 comprises a power distribution cabinet 110, a power distributor 120 and a transmission line 130, the power distributor 120 is fixedly connected inside the power distribution cabinet 110, the transmission line 130 is fixedly connected on the upper side of the power distributor 120, a damping mechanism 200 convenient for damping is arranged on the lower side of the power distribution cabinet 110 and convenient to install, the damping mechanism 200 comprises a first connecting plate 210 convenient for damping, a first connecting rod 220, a first sliding block 230, a second connecting plate 240, a spring 250, a buffer pad 260, a base 270, a third connecting plate 280, a fourth connecting plate 290, a buffer plate 2010 and a fitting block 2020, the first connecting plate 210 is fixedly connected on the lower side of the power distribution cabinet 110 and convenient to install, the lower end of the first connecting plate 210 is inserted into a third opening groove 271, the outer side of the third opening groove 271 is opened in the base 270, the first connecting rods 220 are fixedly connected on both sides of the first connecting, the outer sides of the first sliding blocks 230 all slide in the second slots 241, and the outer sides of the second slots 241 are all opened in the second connecting plate 240, the lower side of the first connecting plate 210 is fixedly connected with a spring 250 convenient for damping, and is convenient for compression, and one end of the spring 250 far away from the first connecting plate 210 is fixedly connected with the base 270, one side of the second connecting plate 240 far away from the first connecting plate 210 is fixedly connected with the base 270, and the lower side of the first connecting plate 210 is fixedly connected with the third connecting plate 280, the lower end of the third connecting plate 280 is inserted in the fourth slots 292, and the outer side of the fourth slots 292 is opened in the fourth connecting plate 290, the inner part of the fourth connecting plate 290 is fixedly connected with a sliding rail 291, one side of the sliding rail 291 far away from the fourth connecting plate 290 is slidably connected with the second sliding block 281, and one side of the second sliding block 281 far away from.

The distributor 120 is internally provided with a first slot 121, the first slot 121 is internally provided with a protection mechanism 300 for facilitating protection, the protection mechanism 300 comprises a pin block 310 for facilitating protection, a first connecting block 320, a second connecting block 330, a first meshing tooth 340, a third connecting block 350 and a second meshing tooth 360 for facilitating protection, the pin block 310 is inserted into the first slot 121, the upper side of the pin block 310 is fixedly connected with the first connecting block 320, one side of the first connecting block 320, which is far away from the pin block 310, is fixedly connected with the third connecting block 350, the other side of the third connecting block 350 is fixedly connected with the second meshing tooth 360 for facilitating meshing, the connection is facilitated, one side of the second meshing tooth 360, which is far away from the third connecting block 350, is provided with a first meshing tooth 340 for facilitating meshing, the connection is conveniently connected, one side of the first meshing tooth 340, which is far away from the third connecting block 350, is fixedly connected with the second connecting block 330, and the third connecting block 350, the second connecting block 330 and the first connecting block 320 are all provided with a fifth slot 321 therein.

The inside first stopper 242 that is convenient for it is spacing that all links firmly of second connecting plate 240, reinforcing steadiness, and one side that second connecting plate 240 is close to switch board 110 all links firmly laminating piece 2020 that is convenient for it is spacing, reinforcing steadiness.

The upper side of the base 270 is fixedly connected with a buffer pad 260 for protection and buffering.

One side of the slide rail 291, which is far away from the fourth connecting plate 290, is fixedly connected with a second limiting block 293, which is convenient for limiting, so that the stability is enhanced, and one side of the second limiting block 293, which is far away from the slide rail 291, is attached to the third connecting plate 280, which is convenient for protection, so that the buffer is facilitated.

The inside buffer plate 2010 that is convenient for protect that links firmly of fourth slot 292, the buffering of being convenient for, and buffer plate 2010 downside links firmly on the fourth connecting plate 290 of being convenient for connect, reinforcing steadiness.

The working principle is as follows: fixedly connect switch board 110 on first connecting plate 210, in transport and installation, switch board 110 passes through the slip of first connecting rod 220 and first slider 230 at second fluting 241, compression spring 250, drive third connecting plate 280 and second slider 281 and slide on slide rail 291, carry out certain shock attenuation to the part of switch board 110 inside, the cover is equipped with protection machanism 300 outside switch board 110, insert at bolt piece 310 and establish first fluting 121 in back, twist third connecting block 350, through the meshing of first meshing tooth 340 and second meshing tooth 360, press from both sides tightly fixedly to second connecting block 330, when preventing to extract switch board 110, the condition that appears the electric leakage causes the injury to operating personnel.

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

1. A low-voltage draw-out thermal power distribution cabinet comprising a cabinet body (100), characterized in that: the power distribution cabinet comprises a power distribution cabinet body (100), a power distributor (120) and a transmission line (130), wherein the power distributor (120) is fixedly connected inside the power distribution cabinet (110), the transmission line (130) is fixedly connected on the upper side of the power distributor (120), a damping mechanism (200) is arranged on the lower side of the power distribution cabinet (110), the damping mechanism (200) comprises a first connecting plate (210), a first connecting rod (220), a first sliding block (230), a second connecting plate (240), a spring (250), a buffering cushion (260), a base (270), a third connecting plate (280), a fourth connecting plate (290), a buffering plate (2010) and a fitting block (2020), the first connecting plate (210) is fixedly connected on the lower side of the power distribution cabinet (110), the lower end of the first connecting plate (210) is inserted into a third slot (271), the outer side of the third slot (271) is arranged in the base (270), the first connecting rods (220) are fixedly connected on two sides of the first connecting plate (210), and one side of the first connecting rod (220) far away from the first connecting plate (210) is fixedly connected with a first sliding block (230), the outer side of the first sliding block (230) is slidably arranged in a second slot (241), the outer side of the second slot (241) is arranged in a second connecting plate (240), the lower side of the first connecting plate (210) is fixedly connected with a spring (250), one end of the spring (250) far away from the first connecting plate (210) is fixedly connected on a base (270), one side of the second connecting plate (240) far away from the first connecting plate (210) is fixedly connected on the base (270), a third connecting plate (280) is arranged on the lower side of the first connecting plate (210), the lower end of the third connecting plate (280) is inserted in a fourth slot (292), the outer side of the fourth slot (292) is arranged in a fourth connecting plate (290), and a sliding rail (291) is fixedly connected inside the fourth connecting plate (290), and one side of the slide rail (291) far away from the fourth connecting plate (290) is provided with a second slide block (281) in a sliding manner, and one side of the second slide block (281) far away from the slide rail (291) is fixedly connected to the third connecting plate (280).

2. A low-voltage draw-out thermal power distribution cabinet according to claim 1, characterized in that: the distributor (120) is internally provided with a first groove (121), the first groove (121) is internally provided with a protection mechanism (300), the protection mechanism (300) comprises a latch block (310), a first connecting block (320), a second connecting block (330), a first meshing tooth (340), a third connecting block (350) and a second meshing tooth (360), the latch block (310) is inserted in the first groove (121), the upper sides of the latch blocks (310) are fixedly connected with the first connecting block (320), one side of the first connecting block (320) far away from the latch block (310) is fixedly connected with the third connecting block (350), the inside of the third connecting block (350) is fixedly connected with the second meshing tooth (360), one side of the second meshing tooth (360) far away from the third connecting block (350) is provided with the first meshing tooth (340) which is matched with each other, and one side of the first meshing tooth (340) far away from the third connecting block (350) is fixedly connected with the second connecting block (330), and the third connecting block (350), the second connecting block (330) and the first connecting block (320) are all provided with a fifth slot (321) inside.

3. A low-voltage draw-out thermal power distribution cabinet according to claim 1, characterized in that: the inside first stopper (242) that all has linked firmly of second connecting plate (240), and one side that second connecting plate (240) are close to switch board (110) all has linked firmly laminating piece (2020).

4. A low-voltage draw-out thermal power distribution cabinet according to claim 1, characterized in that: the upper sides of the bases (270) are fixedly connected with cushion pads (260).

5. A low-voltage draw-out thermal power distribution cabinet according to claim 1, characterized in that: one side of the slide rail (291) far away from the fourth connecting plate (290) is fixedly connected with a second limiting block (293), and one side of the second limiting block (293) far away from the slide rail (291) is attached to the third connecting plate (280).

6. A low-voltage draw-out thermal power distribution cabinet according to claim 1, characterized in that: the inside of the fourth slot (292) is fixedly connected with a buffer plate (2010), and the lower side of the buffer plate (2010) is fixedly connected to the fourth connecting plate (290).