CN110233031A - A kind of special anti-short circuit type amorphous transformer - Google Patents

Abstract

The present invention relates to amorphous transformer technical fields, more particularly to a kind of special anti-short circuit type amorphous transformer.The technical solution adopted by the present invention is that: the inside of amorphous transformer includes amorphous coil body structure, the position that left and right directions between two neighboring amorphous coil body structure is connected is provided with the first anti-short circuit and is dielectrically separated from steadying plate, the outer fix of left and right sides amorphous coil body structure also is provided with the first anti-short circuit and is dielectrically separated from steadying plate, it is equipped with the second anti-short circuit between the arc-shaped structure for the front-rear position that each first anti-short circuit is dielectrically separated from steadying plate and is dielectrically separated from steadying plate, the second anti-short circuit, which is staggeredly distributed with, in amorphous coil body structure front-rear direction circular arc portion position is dielectrically separated from steadying plate.The invention has the advantages that can prevent from causing that core portion is broken to cause transformer integrally there is a situation where short circuit occurs since plunger position assembly is not close in use or in transportational process, keep the integrally-built intensity of amorphous transformer more preferable.

Description

A kind of special anti-short circuit type amorphous transformer

Technical field

The present invention relates to amorphous transformer technical fields, more particularly to a kind of special anti-short circuit type amorphous transformer.

Background technique

Amorphous transformer is the power transformer of a kind of low-loss, high energy efficiency.Such transformer is with iron based amorphous metal As iron core, the stability between iron core and the coil of winding determines the safety in utilization and usability of amorphous transformer entirety Can stability, the loop construction of amorphous transformer in production and processing due to that can be generated in the circular arc section between every layer between Gap, so that coil is whole to have certain deformation space in use, it when in use cannot between iron core main structure It is enough closely to link together, and core structure is extremely brittle due to having the characteristics that, it when in use if can not closely and line Circle fits together, and not only will affect the service performance of amorphous transformer, but also is also easy to make the amorphous metal on iron core to send out It is raw broken, and broken structure can cause short circuit inside amorphous transformer, to easily damage amorphous transformer.

Summary of the invention

The object of the present invention is to provide a kind of special anti-short circuit type amorphous transformers, it is in production and processing by inside The arc position of coil is arranged anti-short circuit and is dielectrically separated from steadying plate, and by the way that the anti-short circuit between adjacent layer position to be dielectrically separated from Steadying plate is arranged to the structure being interspersed, and makes the whole securely more preferable of coil circular arc zone position, so that the whole of coil be made to become Shape amount is smaller, effectively increases the structural strength of coil entirety, and by the left and right directions between adjacent windings and up and down Position is arranged another group of anti-short circuit and is dielectrically separated from steadying plate structure, and making can be more tight between coil and the iron core of amorphous transformer Close links together, to keep the structural stability of iron core more preferable, can prevent in use or in transportational process by It is not close in plunger position assembly and cause that core portion is broken to cause transformer integrally there is a situation where short circuit occurs, make amorphous The integrally-built intensity of transformer is more preferable, and the overall security in transport and later period use process is more secure, can be effective The rate of breakdown of amorphous transformer in use is reduced, making it, the service life is longer.

Technical scheme is as follows:

A kind of special anti-short circuit type amorphous transformer, it is characterised in that: the inside of amorphous transformer includes amorphous coil master Body structure, the position that the left and right directions between the two neighboring amorphous coil body structure is connected are provided with the first anti-short circuit It is dielectrically separated from steadying plate, the outer fix of the left and right sides amorphous coil body structure also is provided with the first anti-short circuit and is dielectrically separated from Steadying plate, be equipped between the arc-shaped structure for the front-rear position that each first anti-short circuit is dielectrically separated from steadying plate second prevent it is short Road is dielectrically separated from steadying plate, inside and outside the amorphous coil body structure front-rear direction circular arc portion position adjacent two layers coil layer it Between circular arc gap in be staggeredly distributed with the second anti-short circuit and be dielectrically separated from steadying plate, the second anti-short circuit is dielectrically separated from steadying plate It is produced and processed by way of directly placing in the Wrapping formed processing of the amorphous coil body structure, described first is anti- Short circuit be dielectrically separated from steadying plate and the second anti-short circuit to be dielectrically separated from steadying plate be epoxy plate structure, the second anti-short circuit The height for being dielectrically separated from steadying plate up and down direction is less than the height of the amorphous coil body structure up and down direction, and width direction is The height that described first anti-short circuit of up and down direction is dielectrically separated from steadying plate up and down direction is greater than the amorphous coil body structure The height of up and down direction also is provided between the outside and amorphous transformer inside main frame of the amorphous coil body structure by ring Anti- short circuit isolation structure is stablized in isolation made of oxygen plate material.

Further, the described first anti-short circuit is dielectrically separated from the thickness of steadying plate and the described second anti-short circuit is dielectrically separated from surely The thickness of fixed board is identical.

Further, it is right-angle structure that the main body of anti-short circuit isolation structure is stablized in the isolation, direct when being installed It is placed on the position of installation.

Further, the described first anti-short circuit is dielectrically separated between steadying plate and the amorphous coil body structure by exhausted Edge fixed cable tie Structural lock is closely assembled together.

Beneficial effects of the present invention:

The present invention is arranged anti-short circuit by the arc position in Inside coil in production and processing and is dielectrically separated from steadying plate, and And by the way that the anti-short circuit between adjacent layer position is dielectrically separated from the structure that steadying plate is arranged to be interspersed, make coil circular arc position That sets is whole securely more preferable, to keep the overall deformation of coil smaller, effectively increases the structural strength of coil entirety, and Another group of anti-short circuit is set by left and right directions between adjacent windings and upper and lower position and is dielectrically separated from steadying plate structure, makes line It can more closely link together between circle and the iron core of amorphous transformer, thus keep the structural stability of iron core more preferable, It can prevent from causing core portion is broken to cause in use or in transportational process since plunger position assembly is not close Integrally there is a situation where short circuits to occur for transformer, keeps the integrally-built intensity of amorphous transformer more preferable, uses in transport and later period Overall security in the process is more secure, can be effectively reduced the rate of breakdown of amorphous transformer in use, makes The service life is longer for it.

Detailed description of the invention

Fig. 1 is the schematic perspective view of Inside coil position of the present invention；

Fig. 2 is the front schematic view of Inside coil position of the present invention；

Fig. 3 is the leftschematic diagram of Inside coil position of the present invention；

Fig. 4 is the schematic top plan view of Inside coil position of the present invention；

Fig. 5 is the partial enlargement diagram of the position F of the present invention；

Fig. 6 is the partial enlargement diagram of the position H of the present invention；

In figure: 1, amorphous coil body structure, the 2, first anti-short circuit are dielectrically separated from steadying plate, the 3, second anti-short circuit insulation every From steadying plate.

Specific embodiment

As shown in Figures 1 to 6, a kind of special anti-short circuit type amorphous transformer, it is in production and processing by inner wire The arc position of circle is arranged anti-short circuit and is dielectrically separated from steadying plate, and by the way that the anti-short circuit between adjacent layer position to be dielectrically separated from surely Fixed board is arranged to the structure being interspersed, and makes the whole securely more preferable of coil circular arc zone position, to make the overall deformation of coil It measures smaller, effectively increases the structural strength of coil entirety, and pass through left and right directions between adjacent windings and upper bottom It installs another group of anti-short circuit and is dielectrically separated from steadying plate structure, making can be more closely between coil and the iron core of amorphous transformer Link together, to keep the structural stability of iron core more preferable, can prevent in use or in transportational process due to Plunger position assembly is not close and causing core portion to be crushed causes transformer integrally to occur there is a situation where short-circuit, becomes amorphous The integrally-built intensity of depressor is more preferable, and the overall security in transport and later period use process is more secure, can effectively drop The rate of breakdown of low amorphous transformer in use, making it, the service life is longer.It wraps the inside of its amorphous transformer Amorphous coil body structure 1 is included, the position that the left and right directions between the two neighboring amorphous coil body structure 1 is connected is set It is equipped with the first anti-short circuit and is dielectrically separated from steadying plate 2, the outer fix of the left and right sides amorphous coil body structure 1 also is provided with One anti-short circuit is dielectrically separated from steadying plate 2, and each first anti-short circuit is dielectrically separated from the arc-shaped knot of the front-rear position of steadying plate 2 It is equipped with the second anti-short circuit between structure and is dielectrically separated from steadying plate 3, the 1 front-rear direction circular arc portion position of amorphous coil body structure It is staggeredly distributed with the second anti-short circuit in circular arc gap between inside and outside adjacent two layers coil layer and is dielectrically separated from steadying plate 3, described Two anti-short circuits are dielectrically separated from side of the steadying plate 3 in the 1 Wrapping formed processing of amorphous coil body structure by directly placing Formula produces and processes, and can be completed during coil winding, keeps the stability for placing companion more preferable, processing is got up also more square Just, also ensured that the bonding strength of this position is more preferable.The first anti-short circuit is dielectrically separated from steadying plate 2 and the second anti-short circuit Being dielectrically separated from steadying plate 3 is epoxy plate structure, and the stability for making anti-short circuit be dielectrically separated from steadying plate structure is more preferable, is being used The service life is longer in journey, is completely embedded performance with stronger.The second anti-short circuit is dielectrically separated from about 3 steadying plate The height in direction is less than the height of 1 up and down direction of amorphous coil body structure, and width direction is described the of up and down direction The height that one anti-short circuit is dielectrically separated from 2 up and down direction of steadying plate is greater than the height of 1 up and down direction of amorphous coil body structure, Upper end position is set to will not influence the assembly connection in outside with main frame structure inside amorphous transformer.The amorphous coil main body knot It also is provided with being isolated made of epoxy plate material between the outside of structure 1 and amorphous transformer inside main frame and stablizes anti-short circuit isolation Structure can make insulation stability whole inside amorphous transformer more preferable, and make whole connectivity robustness more by it Reliably, whole anti-short-circuit effect is more secure.

Preferably, the first anti-short circuit is dielectrically separated from the thickness of steadying plate 2 and the described second anti-short circuit is dielectrically separated from The thickness of steadying plate 3 is identical, enables to keep the use cost of material lower when production and processing, so as to control transformer entirety Cost in production and processing is also lower.

Preferably, the main body that anti-short circuit isolation structure is stablized in the isolation is right-angle structure, it is direct when being installed It is placed on the position of installation, more convenient when being installed, operation when can manually be placed is more square Just, so as to improving efficiency when installation.

Pass through preferably, the first anti-short circuit is dielectrically separated between steadying plate 2 and the amorphous coil body structure 1 Insulation fixed cable tie Structural lock is closely assembled that the bonding strength for making to be fixedly connected position together is more preferable, and production cost is lower, simultaneously Also it can ensure that the insulation effect of fixed position is more preferable, overall security in use can further increase.

The above is a preferred embodiment of the present invention, it is noted that for those skilled in the art For, without departing from the principles of the present invention, it can also make several improvements or replace, these are improved or replacement It should be regarded as protection scope of the present invention.

Claims (4)

1. a kind of special anti-short circuit type amorphous transformer, it is characterised in that: the inside of amorphous transformer includes amorphous coil main body Structure (1), it is anti-that the position that the left and right directions between the two neighboring amorphous coil body structure (1) is connected is provided with first Short circuit is dielectrically separated from steadying plate (2), the outer fix of the left and right sides amorphous coil body structure (1) also be provided with first prevent it is short Road is dielectrically separated from steadying plate (2), and each first anti-short circuit is dielectrically separated from the arc-shaped structure of the front-rear position of steadying plate (2) Between be equipped with the second anti-short circuit be dielectrically separated from steadying plate (3), amorphous coil body structure (1) the front-rear direction arc sections quartile The second anti-short circuit, which is staggeredly distributed with, in circular arc gap inside and outside setting between adjacent two layers coil layer is dielectrically separated from steadying plate (3), institute It states the second anti-short circuit and is dielectrically separated from steadying plate (3) in the Wrapping formed processing of the amorphous coil body structure (1) by direct The mode of placement produces and processes, the first anti-short circuit be dielectrically separated from steadying plate (2) and it is described second it is anti-short circuit insulation every It is epoxy plate structure from steadying plate (3), the height that the second anti-short circuit is dielectrically separated from steadying plate (3) up and down direction is less than institute State the height of amorphous coil body structure (1) up and down direction, width direction be up and down direction the described first anti-short circuit insulation every Height from steadying plate (2) up and down direction is greater than the height of amorphous coil body structure (1) up and down direction, the amorphous line It encloses between the outside and amorphous transformer inside main frame of main structure (1) and also is provided with that stabilization is isolated made of epoxy plate material Anti- short circuit isolation structure.

2. the special anti-short circuit type amorphous transformer of one kind according to claim 1, it is characterised in that: the first anti-short circuit The thickness for being dielectrically separated from steadying plate (2) is identical as the thickness that the described second anti-short circuit is dielectrically separated from steadying plate (3).

3. the special anti-short circuit type amorphous transformer of one kind according to claim 1, it is characterised in that: the isolation is stablized anti- The main body of short circuit isolation structure is right-angle structure, and the position of installation is directly placed at when being installed.

4. the special anti-short circuit type amorphous transformer of one kind according to claim 1, it is characterised in that: the first anti-short circuit It is dielectrically separated between steadying plate (2) and the amorphous coil body structure (1) and is closely assembled by the fixed cable tie Structural lock that insulate Together.