CN209708749U - A kind of vibration-damping radiating transformer framework - Google Patents

Abstract

The utility model discloses a kind of vibration-damping radiating transformer frameworks, including transformer framework ontology, the lower section of the transformer framework ontology is connected with each other by connector and support plate, quill is welded with below the support plate, and the inside of quill is slidably connected by sliding slot and fixing axle, the sliding slot is provided with the front surface of fixing axle, reserve fluted in the upper surface of the transformer framework ontology, and the front surface of transformer framework ontology is reserved with card slot, the inside of the card slot is equipped with cooling tube, and the surface of cooling tube is reserved with water inlet, water pump is installed on the cooling tube, and movable plate is provided on the outside of cooling tube, it is rotatablely connected on the inside of the left end of the movable plate by rotary joint and transformer framework ontology, and it is connected with each other on the inside of the right end of movable plate by fixing piece and adsorption piece.The vibration-damping radiating transformer framework not only can carry out damping to it during the operation of the transformer, can also radiate to it.

Description

A kind of vibration-damping radiating transformer framework

Technical field

The utility model relates to transformer technology field, specially a kind of vibration-damping radiating transformer framework.

Background technique

Transformer framework is the main structure component part of transformer, and transformer is widely used in today's society, right The main body answered is also essential, so skeleton has irreplaceable effect, but transformer can generate in the process of work Vibration, and a large amount of thermal energy is discharged, the damping of existing transformer framework and heat dissipation performance all need to be improved.It is asked for above-mentioned Topic, carries out innovative design on the basis of original transformer framework.

Utility model content

(1) the technical issues of solving

In view of the deficiencies of the prior art, the utility model provides a kind of vibration-damping radiating transformer framework, solves change Depressor can generate vibration in the process of work, and discharge a large amount of thermal energy, the damping of existing transformer framework and heat dissipation performance All it need the problem of being improved.

(2) technical solution

To achieve the above object, the utility model provides the following technical solutions: a kind of vibration-damping radiating transformer framework, packet Transformer framework ontology is included, the lower section of the transformer framework ontology is connected with each other by connector and support plate, and support plate Lower section left and right ends pass through side plate and bottom plate and be connected with each other, quill, and activity are welded with below the support plate The inside of sleeve is slidably connected by sliding slot and fixing axle, and the sliding slot is provided with the front surface of fixing axle, and fixing axle is upper Side is connected with each other by damping spring and quill, and fluted, and transformation is reserved in the upper surface of the transformer framework ontology The front surface of device frame body is reserved with card slot, and the inside of the card slot is equipped with cooling tube, and the surface of cooling tube is reserved with Water inlet, while sealing cover being installed on the outside of water inlet, water pump, and the outside setting of cooling tube are installed on the cooling tube There is movable plate, is rotatablely connected on the inside of the left end of the movable plate by rotary joint and transformer framework ontology, and movable plate It is connected with each other on the inside of right end by fixing piece and adsorption piece, before the adsorption piece is separately fixed at the right end of transformer framework ontology Rear surface, and radiating piece is provided at left and right sides of transformer framework ontology.

Preferably, the inside of the quill constitutes sliding equipment by sliding slot and fixing axle, and the sliding equipment Glide direction is to slide up and down.

Preferably, the sum of height of the initial length of the damping spring and fixing axle is equal to the height of side plate.

Preferably, the volume specification of the card slot is equal to the volume specification of cooling tube, and cooling tube is in the curved knot of Curved Continuous Structure.

Preferably, the inside of the movable plate constitutes turnover mechanism by rotary joint and transformer framework ontology, and should Turnover mechanism about transformer framework ontology horizontal axis be symmetrical arranged there are two.

Preferably, the fixing piece and adsorption piece all have magnetism, and the two is synonyms pole.

Preferably, the radiating piece is in hollow type structure, and its two table of left and right for being evenly distributed on transformer framework ontology On the outside of face.

(3) beneficial effect

The utility model provides a kind of vibration-damping radiating transformer framework.Have it is following the utility model has the advantages that

(1), the vibration-damping radiating transformer framework, is connected with damping device below transformer framework ontology, works as change Depressor generates vibration during the work time, and slight deformation occurs for support plate, and quill is driven to carry out on the outside of fixing axle Lower slider makes damping spring be in stretching or contraction state, thus reset support plate under the elastic acting force of damping spring, The damping of finishing device entirety.

(2), the vibration-damping radiating transformer framework is provided with disassembly installation in the rear and front end of transformer framework ontology The cooling tube of structure, can be by the water-cooling for circulating finishing device of cooling tube water flow inside, and in transformer framework It is evenly arranged with radiating piece at left and right sides of ontology, radiating piece structure in a ring, also shape while increasing air contact area At ventilating duct, to improve the efficiency of heat dissipation.

Detailed description of the invention

Fig. 1 is the utility model overall structure diagram；

Fig. 2 is the utility model overlooking structure diagram；

Fig. 3 is the utility model transformer framework ontology side structure schematic diagram；

Fig. 4 is enlarged structure schematic diagram at A in the utility model Fig. 1.

In figure: 1, transformer framework ontology；2, connector；3, support plate；4, side plate；5, bottom plate；6, quill；7, subtract Shake spring；8, fixing axle；9, sliding slot；10, groove；11, card slot；12, cooling tube；13, water inlet；14, sealing cover；15, water pump； 16, movable plate；17, rotary joint；18, fixing piece；19, adsorption piece；20, radiating piece.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

As shown in Figs 1-4, the utility model provides a kind of technical solution: a kind of vibration-damping radiating transformer framework, including Transformer framework ontology 1, connector 2, support plate 3, side plate 4, bottom plate 5, quill 6, damping spring 7, fixing axle 8, sliding slot 9, groove 10, card slot 11, cooling tube 12, water inlet 13, sealing cover 14, water pump 15, movable plate 16, rotary joint 17, fixing piece 18, the lower section of adsorption piece 19 and radiating piece 20, transformer framework ontology 1 is connected with each other by connector 2 and support plate 3, and is propped up The lower section left and right ends of fagging 3 pass through side plate 4 and bottom plate 5 is connected with each other, and the lower section of support plate 3 is welded with quill 6, and The inside of quill 6 is slidably connected by sliding slot 9 with fixing axle 8, and sliding slot 9 is provided with the front surface of fixing axle 8, and fixing axle 8 top is connected with each other by damping spring 7 and quill 6, and the upper surface of transformer framework ontology 1 reserves fluted 10, And the front surface of transformer framework ontology 1 is reserved with card slot 11, the inside of card slot 11 is equipped with cooling tube 12, and cooling tube 12 Surface is reserved with water inlet 13, while the outside of water inlet 13 is equipped with sealing cover 14, and water pump 15 is equipped on cooling tube 12, and The outside of cooling tube 12 is provided with movable plate 16, passes through rotary joint 17 and transformer framework ontology on the inside of the left end of movable plate 16 1 rotation connection, and be connected with each other on the inside of the right end of movable plate 16 by fixing piece 18 and adsorption piece 19, adsorption piece 19 is fixed respectively In the right end front and rear surfaces of transformer framework ontology 1, and the left and right sides of transformer framework ontology 1 is provided with radiating piece 20；

The inside of quill 6 constitutes sliding equipment, and the glide direction of the sliding equipment by sliding slot 9 and fixing axle 8 To slide up and down, when device is integrally shaken, slight deformation can occur for support plate 3, to drive quill 6 in fixation It is slided in the outside of axis 8；

The sum of the initial length of damping spring 7 and the height of fixing axle 8 are equal to the height of side plate 4, when device integrally shakes When, damping spring 7 will slow down the deformation power that support plate 3 is subject in the state for stretching or shrinking under elastic acting force；

The volume specification of card slot 11 is equal to the volume specification of cooling tube 12, improves being completely embedded property between the two, and Cooling tube 12 is in the curved structure of Curved Continuous, contact area is increased, to improve the heat dissipation effect of device entirety；

The inside of movable plate 16 constitutes turnover mechanism, and the tipper by rotary joint 17 and transformer framework ontology 1 Structure about transformer framework ontology 1 horizontal axis be symmetrical arranged there are two, cooling tube 12 can be hidden by movable plate 16 Gear is fixed, and cooling tube 12 is avoided to be detached from out of card slot 11；

Fixing piece 18 and adsorption piece 19 all have magnetism, and the two is synonyms pole, and synonyms pole attracts each other, to mention The high stable connection of movable plate 16 and transformer framework ontology 1；

Radiating piece 20 is in hollow type structure, provides passway, accelerates the air circulation of surrounding, and it is evenly distributed on Two outer side surface of left and right of transformer framework ontology 1, increases the contact area with air, to improve heat dissipation effect.

In use, such as Fig. 1 and Fig. 2, transformer is placed in first inside the groove 10 of 1 upper surface of transformer framework ontology into Row placement, then installs cooling tube 12, in the process, cooling tube 12 is first placed in the outside of card slot 11, and by its It translates inwardly, pipe 12 to be cooled is completely disposed at the inside of card slot 11, and staff removes sealing cover 14, and passes through water inlet 13 inject water to the inside of cooling tube 12, after filling water inside pipe 12 to be cooled, can by sealing cover 14 to water inlet 13 into Row sealing, subsequent staff can inwardly be rotated movable plate 16 by rotary joint 17, and fixing piece 18 and 19 phase of adsorption piece are made Absorption, since fixing piece 18 and adsorption piece 19 are synonyms pole, synonyms pole attracts each other, to improve movable plate 16 and become The fixation of cooling tube 12 can be completed in the being completely embedded property of depressor frame body 1 at this time, it is avoided to slide inside card slot 11；

Such as Fig. 1, Fig. 3 and Fig. 4, pipe 12 to be cooled after the installation is completed, can start integrally to carry out using transformation to device Device can generate vibration during the work time, drive support plate 3 that slight deformation occurs at this time, quill 6 is in fixation at the same time The outside of axis 8 slides up and down, and so that damping spring 7 is in stretching or tight state, to make support plate 3 in damping spring It is resetted under 7 elastic acting force, achievees the effect that damping, in addition to this, transformer can also distribute a large amount of heat, and work people at this time Member can start water pump 15, and the water flow inside cooling tube 12 is driven to be circulated, and carry out water cooling to transformer framework ontology 1 and dissipate Heat, while being located at the structure in a ring of the radiating piece 20 at left and right sides of transformer framework ontology 1, while increasing contact area Ventilating duct is also formed, to improve the radiating efficiency of device entirety, here it is the works of the vibration-damping radiating transformer framework The content making principle, while being not described in detail in this specification belongs to existing skill well known to professional and technical personnel in the field Art.

It can to sum up obtain, the vibration-damping radiating transformer framework, be connected with damping dress in the lower section of transformer framework ontology 1 It sets, when transformer generates vibration during the work time, slight deformation occurs for support plate 3, drives quill 6 in fixing axle 8 Outside slides up and down, and so that damping spring 7 is in stretching or contraction state, to make support plate 3 in the elasticity of damping spring 7 It resets under active force, the damping of finishing device entirety, in addition to this, is provided in the rear and front end of transformer framework ontology 1 Dismantle mounting structure cooling tube 12, can by the water-cooling for circulating finishing device of 12 water flow inside of cooling tube, and Radiating piece 20 is evenly arranged in the left and right sides of transformer framework ontology 1, and the structure in a ring of radiating piece 20 increases air and connects Ventilating duct is also formed while contacting surface product, to improve the efficiency of heat dissipation.

It should be noted that, in this document, relational terms such as first and second and the like are used merely to a reality Body or operation are distinguished with another entity or operation, are deposited without necessarily requiring or implying between these entities or operation In any actual relationship or order or sequence.Moreover, the terms "include", "comprise" or its any other variant are intended to Non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or equipment Intrinsic element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that There is also other identical elements in process, method, article or equipment including the element.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (7)

1. a kind of vibration-damping radiating transformer framework, including transformer framework ontology (1), it is characterised in that: the transformer bone The lower section of frame ontology (1) is connected with each other by connector (2) and support plate (3), and the lower section left and right ends of support plate (3) are logical It crosses side plate (4) and bottom plate (5) to be connected with each other, be welded with quill (6) below the support plate (3), and quill (6) Inside be slidably connected with fixing axle (8) by sliding slot (9), the sliding slot (9) is provided with the front surface of fixing axle (8), and consolidates The top of dead axle (8) is connected with each other by damping spring (7) and quill (6), the upper table of the transformer framework ontology (1) Face is reserved fluted (10), and the front surface of transformer framework ontology (1) is reserved with card slot (11), the inside of the card slot (11) It is equipped with cooling tube (12), and the surface of cooling tube (12) is reserved with water inlet (13), while the outside installation of water inlet (13) Have sealing cover (14), is equipped with water pump (15) on the cooling tube (12), and be provided with movable plate on the outside of cooling tube (12) (16), it is rotatablely connected on the inside of the left end of the movable plate (16) by rotary joint (17) and transformer framework ontology (1), and living It is connected with each other on the inside of the right end of movable plate (16) by fixing piece (18) and adsorption piece (19), the adsorption piece (19) is separately fixed at The right end front and rear surfaces of transformer framework ontology (1), and radiating piece is provided at left and right sides of transformer framework ontology (1) (20)。

2. a kind of vibration-damping radiating transformer framework according to claim 1, it is characterised in that: the quill (6) Inside constitute sliding equipment by sliding slot (9) and fixing axle (8), and the glide direction of the sliding equipment is to slide up and down.

3. a kind of vibration-damping radiating transformer framework according to claim 1, it is characterised in that: the damping spring (7) Initial length and the sum of the height of fixing axle (8) be equal to the height of side plate (4).

4. a kind of vibration-damping radiating transformer framework according to claim 1, it is characterised in that: the appearance of the card slot (11) Product specification is equal to the volume specification of cooling tube (12), and cooling tube (12) is in the curved structure of Curved Continuous.

5. a kind of vibration-damping radiating transformer framework according to claim 1, it is characterised in that: the movable plate (16) Inside constitutes turnover mechanism by rotary joint (17) and transformer framework ontology (1), and the turnover mechanism is about transformer bone There are two the horizontal axis of frame ontology (1) is symmetrical arranged.

6. a kind of vibration-damping radiating transformer framework according to claim 1, it is characterised in that: the fixing piece (18) and Adsorption piece (19) all has magnetism, and the two is synonyms pole.

7. a kind of vibration-damping radiating transformer framework according to claim 1, it is characterised in that: the radiating piece (20) is in Hollow type structure, and its two outer side surface of left and right for being evenly distributed on transformer framework ontology (1).