CN215298997U - Transformer life cycle management equipment based on big data architecture - Google Patents

Abstract

The utility model discloses a transformer life cycle management equipment based on big data framework, including the management equipment main part, the management equipment main part is including ventilative guard plate, transformer, bolt and fixed plate, and ventilative guard plate upside has linked firmly the guard plate, set up first fluting in the ventilative guard plate, and the inside transformer that is provided with of first fluting, the laminating of transformer downside has the bolt, and transformer and the inside fixed plate that is provided with of bolt, the ventilative guard plate of bolt upside laminating, and the inside buffer gear that is provided with of first fluting, the inside first connecting plate that all is provided with of first fluting, and one side that ventilative guard plate was kept away from to first connecting plate transformer of all laminating, the inside second fluting that has all seted up of first connecting plate. The utility model discloses make ventilative guard plate when daily use, cushion the protection to the transformer, promote the life of transformer, promote economic benefits, the follow-up use of the transformer of being convenient for.

Description

Transformer life cycle management equipment based on big data architecture

Technical Field

The utility model relates to a transformer life cycle management equipment technical field specifically is a transformer life cycle management equipment based on big data framework.

Background

With the development of science and technology and the continuous development of society and the continuous optimization and improvement of mechanical equipment, the life cycle management equipment of the transformer is used for prolonging the service life of the transformer and prolonging the service life of the transformer in the use process of the transformer, so that the existing life cycle management equipment of the transformer basically meets the requirements of people, but still has some problems.

The first problem is that: traditional transformer life cycle management equipment adopts the protecting crust to protect the transformer usually, and protecting crust in use can't cushion the transformer through the protecting crust.

The second problem is that: traditional transformer life cycle management equipment can't prevent damp to the transformer, and the humidity is great in the environment, and the inside part of transformer is impaired easily.

Therefore, a transformer lifecycle management device based on big data architecture is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a transformer life cycle management equipment based on big data framework to the problem of protection can't be cushioned to the transformer to the management equipment who proposes in solving above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a transformer life cycle management device based on a big data framework comprises a management device main body, wherein the management device main body comprises a ventilation protection plate, a transformer, a bolt and a fixing plate, the protection plate is fixedly connected to the upper side of the ventilation protection plate, a first groove is formed in the ventilation protection plate, the transformer is arranged in the first groove, the bolt is attached to the lower side of the transformer, the fixing plate is arranged in the transformer and the bolt, the ventilation protection plate is attached to the upper side of the bolt, a buffer mechanism is arranged in the first groove, buffering is facilitated, a first connecting plate is arranged in each first groove, the transformer is attached to one side, away from the ventilation protection plate, of each first connecting plate, a second groove is formed in each first connecting plate, a spring is arranged in each second groove, and one end, close to the transformer, of each spring is fixedly connected to the first connecting plate, the one end that the transformer was kept away from to first connecting plate all links firmly on ventilative guard plate, and the inside third fluting that has all been seted up of first connecting plate, the inside second connecting plate that is equipped with of inserting of third fluting, and the one side that first connecting plate was kept away from to the second connecting plate all links firmly on ventilative guard plate, the inside fourth fluting of having seted up of second connecting plate, and fourth fluting inside is inserted and is equipped with the third connecting plate, one side that the second connecting plate was kept away from to the third connecting plate all links firmly on first connecting plate.

Preferably, be provided with dampproofing mechanism in the first fluting, be convenient for dampproofing, and all be provided with the fourth connecting plate in the first fluting, one side that the fourth connecting plate is close to ventilative guard plate all links firmly on ventilative guard plate, and is provided with the buffer board in the first fluting, one side that the transformer was kept away from to the buffer board links firmly on the guard plate.

Preferably, the third open groove is internally provided with a limiting block, so that limiting is facilitated, and one side of the limiting block, which is far away from the second connecting plate, is fixedly connected to the first connecting plate, so that connection is facilitated.

Preferably, all be provided with first blotter in the first fluting, the buffering of being convenient for, and one side that first connecting plate was kept away from to first blotter all links firmly on ventilative guard plate, is convenient for connect.

Preferably, all be provided with dampproofing cotton in the first fluting, be convenient for dampproofing, and the one side that the dampproofing cotton is close to ventilative guard plate links firmly on the fourth connecting plate, is convenient for connect.

Preferably, be provided with the second blotter in the first fluting, the protection of being convenient for, and the second blotter is kept away from one side of transformer and is linked firmly on the buffer board, is convenient for connect.

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

1. the transformer life cycle management device based on the big data framework is provided with a first connecting plate, a spring, a second connecting plate, a third connecting plate, a limiting block and a first buffering cushion, when a transformer and a bolt are installed and fixed through a fixing plate, a breathable protection plate is inserted outside the transformer, the transformer extrudes the first connecting plates on two sides, the first connecting plates are under the limiting of the second connecting plate and the third connecting plate, the spring is compressed, after the first connecting plates are attached to the first buffering cushion, the first connecting plates compress the transformer through the elastic potential energy of the spring, the problem that the transformer cannot be buffered through a protection shell when the protection shell is used is solved, the transformer can be buffered and protected through the protection shell, the service life of the transformer is prolonged, economic benefits are improved, and the subsequent use of the transformer is facilitated;

2. this transformer life cycle management equipment based on big data framework is provided with the fourth connecting plate, dampproofing cotton, buffer board and second blotter, when the transformer is when daily use, through the fourth connecting plate, dampproofing cotton, dampproofing protection is carried out to buffer board and second blotter, traditional transformer life cycle management equipment has been solved, can't prevent damp to the transformer, the humidity is great in the environment, the easy impaired problem of part of transformer inside, make ventilative guard plate when daily use, prevent damp to the transformer, promote transformer internals life, reduce logistics maintenance cost.

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 an enlarged schematic view of the structure at a in fig. 1 according to the present invention;

fig. 4 is an enlarged schematic view of the structure at B in fig. 1 according to the present invention.

In the figure: 100. a management apparatus main body; 110. a breathable protection plate; 111. a first slot; 120. a protection plate; 130. a transformer; 140. a bolt; 150. a fixing plate; 200. a buffer mechanism; 210. a first connecting plate; 211. a second slot; 212. a third slot is formed; 220. a spring; 230. a second connecting plate; 231. a fourth slot is formed; 240. a third connecting plate; 250. a limiting block; 260. a first cushion pad; 300. a moisture-proof mechanism; 310. a fourth connecting plate; 320. moisture-proof cotton; 330. a buffer plate; 340. a second cushion pad.

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. 1-4, the present invention provides an embodiment: a transformer life cycle management device based on a big data framework comprises a management device main body 100, wherein the management device main body 100 comprises a ventilation protection plate 110, a protection plate 120, a transformer 130, a bolt 140 and a fixing plate 150, the protection plate 120 is fixedly connected to the upper side of the ventilation protection plate 110, a first open slot 111 is formed in the ventilation protection plate 110, the transformer 130 is arranged in the first open slot 111, the bolt 140 is attached to the lower side of the transformer 130, the fixing plate 150 is arranged in the transformer 130 and the bolt 140, the ventilation protection plate 110 is attached to the upper side of the bolt 140, a buffer mechanism 200 convenient for buffering is arranged in the first open slot 111, the connection is convenient, a first connecting plate 210 is arranged in each first open slot 111, the transformer 130 is attached to one side, away from the ventilation protection plate 110, of each first connecting plate 210 is provided with a second open slot 211, and a spring 220 is arranged in each second open slot 211, and the one end that spring 220 is close to transformer 130 all links firmly on first connecting plate 210, the one end that first connecting plate 210 kept away from transformer 130 all links firmly on ventilative guard plate 110, and first connecting plate 210 is inside all to have seted up third fluting 212, the inside second connecting plate 230 that is inserted of third fluting 212, and the one side that first connecting plate 210 was kept away from to second connecting plate 230 all links firmly on ventilative guard plate 110, the inside fourth fluting 231 that has seted up of second connecting plate 230, and the inside third connecting plate 240 that is inserted of fourth fluting 231, one side that second connecting plate 230 was kept away from to third connecting plate 240 all links firmly on first connecting plate 210.

Be provided with the dampproofing mechanism 300 of being convenient for dampproofing in the first fluting 111, be convenient for connect, and all be provided with fourth connecting plate 310 in the first fluting 111, one side that fourth connecting plate 310 is close to ventilative guard plate 110 all links firmly on ventilative guard plate 110, and is provided with buffer board 330 in the first fluting 111, and one side that transformer 130 was kept away from to buffer board 330 links firmly on guard plate 120.

The third opening 212 is provided with a limiting block 250 for limiting, so that stability is improved, and one side of the limiting block 250 far away from the second connecting plate 230 is fixedly connected to the first connecting plate 210 for connection, so that stability is improved.

All be provided with the first blotter 260 of being convenient for the buffering in the first fluting 111, be convenient for connect, and the one side that first blotter 260 kept away from first connecting plate 210 all links firmly on the ventilative guard plate 110 of being convenient for connect, promotes the steadiness.

All be provided with the damp-proofing cotton 320 of being convenient for in the first fluting 111, be convenient for connect, and the one side that the damp-proofing cotton 320 is close to ventilative guard plate 110 links firmly on the fourth connecting plate 310 of being convenient for connect, promotes the steadiness.

Be provided with the second blotter 340 of being convenient for the protection in the first fluting 111, be convenient for connect, and the one side that the transformer 130 was kept away from to the second blotter 340 links firmly on the buffer board 330 of being convenient for connect, promotes the steadiness.

The working principle is as follows: after the transformer 130 and the bolts 140 are fixedly installed through the fixing plate 150, the air-permeable protection plate 110 is inserted outside the transformer 130, the transformer 130 extrudes the first connecting plates 210 at two sides, the first connecting plates 210 are positioned under the limit of the second connecting plates 230 and the third connecting plates 240, the springs 220 are compressed, after the first connecting plates 210 are attached to the first cushion pads 260, the first connecting plates 210 compress the transformer 130 through the elastic potential energy of the springs 220, and when the transformer 130 is used daily, moisture-proof protection is performed through the fourth connecting plates 310, the moisture-proof cotton 320, the buffer plates 330 and the second cushion pads 340.

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 transformer life cycle management equipment based on big data framework, includes management equipment main part (100), management equipment main part (100) are including ventilative guard plate (110), guard plate (120), transformer (130), bolt (140) and fixed plate (150), and ventilative guard plate (110) upside has linked firmly guard plate (120), first fluting (111) have been seted up in ventilative guard plate (110), and first fluting (111) inside is provided with transformer (130), the laminating of transformer (130) downside has bolt (140), and transformer (130) and bolt (140) inside is provided with fixed plate (150), ventilative guard plate (110) of bolt (140) upside laminating, and first fluting (111) inside is provided with buffer gear (200), its characterized in that: the transformer protection plate is characterized in that a first connecting plate (210) is arranged inside each first slot (111), one side, far away from the breathable protection plate (110), of each first connecting plate (210) is attached to the transformer (130), a second slot (211) is formed inside each first connecting plate (210), a spring (220) is arranged inside each second slot (211), one end, close to the transformer (130), of each spring (220) is fixedly connected to the first connecting plate (210), one end, far away from the transformer (130), of each first connecting plate (210) is fixedly connected to the breathable protection plate (110), a third slot (212) is formed inside each first connecting plate (210), a second connecting plate (230) is inserted into each third slot (212), one side, far away from the first connecting plate (210), of each second connecting plate (230) is fixedly connected to the breathable protection plate (110), and a fourth slot (231) is formed inside each second connecting plate (230), and a third connecting plate (240) is inserted in the fourth slot (231), and one side of the third connecting plate (240) far away from the second connecting plate (230) is fixedly connected to the first connecting plate (210).

2. The big data architecture-based transformer lifecycle management apparatus according to claim 1, wherein: be provided with dampproofing mechanism (300) in first fluting (111), and all be provided with fourth connecting plate (310) in first fluting (111), one side that fourth connecting plate (310) is close to ventilative guard plate (110) all links firmly on ventilative guard plate (110), and is provided with buffer board (330) in first fluting (111), one side that transformer (130) were kept away from in buffer board (330) links firmly on guard plate (120).

3. The big data architecture-based transformer lifecycle management apparatus according to claim 1, wherein: the third slot (212) is internally provided with a limiting block (250), and one side of the limiting block (250) far away from the second connecting plate (230) is fixedly connected to the first connecting plate (210).

4. The big data architecture-based transformer lifecycle management apparatus according to claim 1, wherein: first buffer pads (260) are arranged in the first grooves (111), and one sides, far away from the first connecting plates (210), of the first buffer pads (260) are fixedly connected to the ventilation protection plates (110).

5. The big data architecture-based transformer lifecycle management apparatus according to claim 2, wherein: moisture-proof cotton (320) is arranged in each first slot (111), and one side, close to the breathable protection plate (110), of each moisture-proof cotton (320) is fixedly connected to the fourth connecting plate (310).

6. The big data architecture-based transformer lifecycle management apparatus according to claim 2, wherein: a second buffer pad (340) is arranged in the first slot (111), and one side, far away from the transformer (130), of the second buffer pad (340) is fixedly connected to the buffer plate (330).

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