CN216362087U - Horizontal integrated combined transformer platform - Google Patents

Abstract

The utility model discloses a transverse integrated combined transformer station which comprises a base, a JP comprehensive power distribution cabinet, an oil-immersed transformer, a first insulating terminal, a second insulating terminal, a first sealing seat, a second sealing seat, a transition bent sleeve, a soft copper bar, a digital display pressure gauge, an inflation connector and a sealing lining. The device simple structure adopts totally closed design, prevents effectively that electrified position length time from exposing in the air, improves the security performance, simultaneously, adopts horizontal integral type structural design, effectively shortens construction cycle.

Description

Horizontal integrated combined transformer platform

Technical Field

The utility model relates to a transformer station, in particular to a transverse integrated combined transformer station.

Background

In the original 10kV transformer structure, an oil-immersed transformer adopts a structure of being installed or being installed on the side, the oil-immersed transformer directly adopts the original structural style, the oil-immersed transformer is directly located on a rack, then a cable is led out from a binding post on the oil-immersed transformer to a JP comprehensive power distribution cabinet, the connection mode leads to the fact that a connector is exposed in the air, the aging and corrosion of the connector lead to the occurrence of some safety accidents after a long time, meanwhile, because the oil-immersed transformer and the JP comprehensive power distribution cabinet are independently installed on a construction site, a certain time is needed to be consumed for mechanically fixing and electrically installing the oil-immersed transformer, and the construction period is prolonged. In view of the above drawbacks, it is necessary to design a laterally integrated combined transformer.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a transverse integrated combined transformer platform which adopts a fully-closed design, effectively prevents an electrified part from being exposed in the air for a long time, improves the safety performance, and simultaneously adopts a transverse integrated structural design, and effectively shortens the construction period.

In order to solve the technical problems, the technical scheme of the utility model is as follows: a transverse integrated combined transformer station comprises a base, a JP comprehensive power distribution cabinet and an oil-immersed transformer, wherein the JP comprehensive power distribution cabinet is fixed at the upper end of the base, the oil-immersed transformer is positioned at the upper end of the base and at the outer side of the JP comprehensive power distribution cabinet, the oil-immersed transformer is connected with the base through a bolt, the transverse integrated combined transformer station further comprises a first insulating binding post, a second insulating binding post, a first sealing seat, a second sealing seat, a transition bent sleeve, a soft copper bar, a digital display pressure gauge, an inflation connector and a sealing lining, the first insulating binding post is installed at the upper end of the oil-immersed transformer, the second insulating binding post is positioned at the upper end of the JP comprehensive power distribution cabinet, the second insulating binding post is connected with the JP comprehensive power distribution cabinet through a bolt, the first sealing seat is positioned at the outer side of the first insulating binding post and at the upper end of the oil-immersed transformer, and the first sealing seat is connected with the oil-immersed transformer in a welding manner, the second seal receptacle be located the second insulation terminal outside and be located the JP and synthesize the switch board outside, the second seal receptacle with JP synthesize the switch board welding and link to each other, the curved cover quantity of transition is two, the cover is established in first seal receptacle and second seal receptacle outside, soft copper bar is located the curved cover inboard of transition and passes through the bolt with first insulation terminal and second insulation terminal respectively and link to each other, the digital display manometer be located the first seal receptacle outside, the digital display manometer pass through the bolt with first seal receptacle and link to each other, the inflation joint be located the first seal receptacle outside, the inflation joint with first seal receptacle welding link to each other, the sealed inside lining be located the curved cover inboard of transition, the sealed inside lining with the curved cover bonding of transition link to each other.

The utility model is further improved as follows:

furthermore, the transition bent sleeve is made of epoxy resin.

Furthermore, the soft copper bar is made of red copper.

Further, the base still be equipped with the shock pad, the shock pad be located the base upper end and be located oil-immersed transformer's bottom, the shock pad pass through the bolt with the base and link to each other, the shock pad is used for oil-immersed transformer's shock attenuation, prevents that transportation, vibration from causing the damage to it.

Furthermore, first seal receptacle still be equipped with first seal cover, first seal cover be located the first seal receptacle outside, first seal cover and first seal receptacle bonding link to each other.

Furthermore, the second seal holder still be equipped with the second seal cover, the second seal cover be located the second seal holder outside, the second seal cover bond with the second seal holder and link to each other, the curved cover of transition of two symmetric arrangements passes through the bolt equipment and is in the same place, the both ends are established respectively in the first seal holder and the second seal holder outside for sealed inside lining is respectively with first seal cover and second seal cover pressfitting, thereby the curved cover of transition, the cavity that constitutes of first seal holder, second seal holder seals, because first insulation terminal, second insulation terminal are insulating terminal, consequently, the cavity of constituteing by the curved cover of transition, first seal holder, second seal holder is the totally enclosed cavity.

Compared with the prior art, this horizontal integrated combination becomes platform, during the assembly, it is fixed firm with first insulation terminal and second insulation terminal respectively with soft copper bar, cup joint the curved cover of two transitions in the first seal receptacle and the second seal receptacle outside, reuse the bolt with the curved cover locking of two transitions, under the combined action of sealed inside lining and first seal receptacle and second seal receptacle, curved cover of will transitioning, first seal receptacle, the cavity that the second seal receptacle constitutes is sealed, pump nitrogen gas in to this cavity through inflating joint, utilize the digital display manometer to detect this cavity internal gas pressure and judge sealed reliability. The device simple structure adopts totally closed design, prevents effectively that electrified position length time from exposing in the air, improves the security performance, simultaneously, adopts horizontal integral type structural design, effectively shortens construction cycle.

Drawings

FIG. 1 shows a schematic diagram of the structure of the present invention

In the figure: base 1, JP synthesize switch board 2, oil-immersed transformer 3, first insulation terminal 4, second insulation terminal 5, first seal receptacle 6, second seal receptacle 7, curved cover 8 of transition, soft copper bar 9, digital display manometer 10, aerify joint 11, sealed inside lining 12, shock pad 101, first seal cover 601, second seal cover 701.

Detailed Description

As shown in FIG. 1, a transverse integrated combined transformer platform comprises a base 1, a JP comprehensive power distribution cabinet 2 and an oil-immersed transformer 3, wherein the JP comprehensive power distribution cabinet 2 is fixed at the upper end of the base 1, the oil-immersed transformer 3 is positioned at the upper end of the base 1 and at the outer side of the JP comprehensive power distribution cabinet 2, the oil-immersed transformer 3 is connected with the base 1 through bolts, the transverse integrated combined transformer platform further comprises a first insulating terminal 4, a second insulating terminal 5, a first sealing seat 6, a second sealing seat 7, a transition bent sleeve 8, a soft copper bar 9, a digital display pressure gauge 10, an inflation connector 11 and a sealing lining 12, the first insulating terminal 4 is installed at the upper end of the oil-immersed transformer 3, the second insulating terminal 5 is positioned at the upper end of the outer side of the JP comprehensive power distribution cabinet 2, the second insulating terminal 5 is connected with the JP comprehensive power distribution cabinet 2 through bolts, the first sealing seat 6 is positioned at the outer side of the first insulating terminal 4 and at the upper end of the oil-immersed transformer 3, the first sealing seat 6 is connected with the oil-immersed transformer 3 in a welding mode, the second sealing seat 7 is located on the outer side of the second insulating binding post 5 and located on the outer side of the JP comprehensive power distribution cabinet 2, the second sealing seat 7 is connected with the JP comprehensive power distribution cabinet 2 in a welding mode, the number of the transition bent sleeves 8 is two, the transition bent sleeves are sleeved on the outer sides of the first sealing seat 6 and the second sealing seat 7, the soft copper bars 9 are located on the inner side of the transition bent sleeves 8 and are respectively connected with the first insulating binding post 4 and the second insulating binding post 5 through bolts, the digital display pressure gauge 10 is located on the outer side of the first sealing seat 6, the digital display pressure gauge 10 is connected with the first sealing seat 6 through bolts, the inflation connector 11 is located on the outer side of the first sealing seat 6, the inflation connector 11 is connected with the first sealing seat 6 in a welding mode, the sealing lining 12 is located on the inner side of the transition bent sleeve 8, and the sealing lining 12 is connected with the transition bent sleeves 8 in a bonding mode, the transition bent sleeve 8 is made of epoxy resin, the soft copper bar 9 is made of red copper, the base 1 is further provided with a shock absorption pad 101, the shock absorption pad 101 is located at the upper end of the base 1 and located at the bottom of the oil-immersed transformer 3, the shock absorption pad 101 is connected with the base 1 through bolts, the shock absorption pad 101 is used for shock absorption of the oil-immersed transformer 3 and prevents damage to the oil-immersed transformer 3 caused by transportation and vibration, the first sealing seat 6 is further provided with a first sealing sleeve 601, the first sealing sleeve 601 is located on the outer side of the first sealing seat 6, the first sealing sleeve 601 is connected with the first sealing seat 6 in a bonding mode, the second sealing seat 7 is further provided with a second sealing sleeve 701, the second sealing sleeve 701 is located on the outer side of the second sealing seat 7, the second sealing sleeve 701 is connected with the second sealing seat 7 in a bonding mode, and the two symmetrically arranged transition bent sleeves 8 are assembled together through bolts, two ends of the sealing liner are respectively sleeved outside the first sealing seat 6 and the second sealing seat 7, so that the sealing liner 12 is respectively pressed with the first sealing sleeve 601 and the second sealing sleeve 701, and the cavity formed by the transition bent sleeve 8, the first sealing seat 6 and the second sealing seat 7 is sealed, because the first insulating wiring terminal 4 and the second insulating wiring terminal 5 are insulating wiring terminals, the cavity formed by the transition bent sleeve 8, the first sealing seat 6 and the second sealing seat 7 is a fully-sealed cavity, the transverse integrated combined transformer platform is characterized in that during assembly, the soft copper bar 9 is respectively and firmly fixed with the first insulating wiring terminal 4 and the second insulating wiring terminal 5, the two transition bent sleeves 8 are sleeved outside the first sealing seat 6 and the second sealing seat 7, the two transition bent sleeves 8 are locked by using bolts, under the combined action of the sealing liner 12 and the first sealing sleeve 601 and the second sealing sleeve 701, and sealing a cavity formed by the transition bent sleeve 8, the first sealing seat 6 and the second sealing seat 7, pumping nitrogen into the cavity through an inflation joint 11, and detecting the air pressure in the cavity by using a digital display pressure gauge 10 to judge the reliability of sealing. The device simple structure adopts totally closed design, prevents effectively that electrified position length time from exposing in the air, improves the security performance, simultaneously, adopts horizontal integral type structural design, effectively shortens construction cycle.

The present invention is not limited to the above-described embodiments, and those skilled in the art will be able to make various modifications without creative efforts from the above-described conception, and fall within the scope of the present invention.

Claims (6)

1. A transverse integrated combined transformer station comprises a base, a JP comprehensive power distribution cabinet and an oil-immersed transformer, wherein the JP comprehensive power distribution cabinet is fixed at the upper end of the base, the oil-immersed transformer is positioned at the upper end of the base and at the outer side of the JP comprehensive power distribution cabinet, the oil-immersed transformer is connected with the base through a bolt, the transverse integrated combined transformer station is characterized by further comprising a first insulating binding post, a second insulating binding post, a first sealing seat, a second sealing seat, a transition bent sleeve, a soft copper bar, a digital display pressure gauge, an inflation connector and a sealing lining, the first insulating binding post is arranged at the upper end of the oil-immersed transformer, the second insulating binding post is positioned at the upper end of the outer side of the JP comprehensive power distribution cabinet and is connected with the JP comprehensive power distribution cabinet through a bolt, the first sealing seat is positioned at the outer side of the first insulating binding post and at the upper end of the oil-immersed transformer, the first sealing seat is connected with the oil-immersed transformer in a welded mode, the second sealing seat is located on the outer side of the second insulation binding post and located on the outer side of the JP comprehensive power distribution cabinet, the second sealing seat is connected with the JP comprehensive power distribution cabinet in a welded mode, the number of the transition bent sleeves is two, the transition bent sleeves are sleeved on the outer sides of the first sealing seat and the second sealing seat, the soft copper bar is located on the inner side of the transition bent sleeves and connected with the first insulation binding post and the second insulation binding post through bolts respectively, the digital display pressure gauge is located on the outer side of the first sealing seat and connected with the first sealing seat in a welded mode, the digital display pressure gauge is connected with the first sealing seat through bolts, the inflation connector is located on the outer side of the first sealing seat and connected with the first sealing seat in a welded mode, the sealing lining is located on the inner side of the transition bent sleeves and connected with the transition bent sleeves in a bonded mode.

2. The transverse integrated combined transformer station as claimed in claim 1, wherein the transition bent sleeve is made of epoxy resin.

3. The transverse integrated combined transformer station as claimed in claim 1, wherein the soft copper bar is made of red copper.

4. The transverse integrated combined transformer station as claimed in claim 1, wherein the base is further provided with a shock pad, the shock pad is located at the upper end of the base and at the bottom of the oil-immersed transformer, and the shock pad is connected with the base through bolts.

5. The transverse integrated combined transformer station as claimed in claim 1, wherein the first sealing seat is further provided with a first sealing sleeve, the first sealing sleeve is positioned outside the first sealing seat, and the first sealing sleeve is bonded with the first sealing seat.

6. The transverse integrated combined transformer station as claimed in claim 1, wherein the second sealing seat is further provided with a second sealing sleeve, the second sealing sleeve is positioned outside the second sealing seat, and the second sealing sleeve is bonded with the second sealing seat.

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