CN209709521U - A kind of transformation station with novel improved air-channel heat-dissipation structure - Google Patents

Abstract

The utility model relates to transformation station technical fields, specially a kind of transformation station with novel improved air-channel heat-dissipation structure, including transformation station ontology, transformation station ontology is body structure, its internal two sides is equipped with transformer, its internal middle section is vertically equipped with interior plate, its external upper side is equipped with air blower, its inner tip is equipped with blast pipe, air blower is fixedly mounted on the lateral wall of transformation station ontology, and air blower and blast pipe are located in same level height, blast pipe is fixedly mounted in the inner tip of transformation station ontology by pipe clamp, it has the beneficial effect that sheet is practical and is internally provided with heat dissipation tank in transformation station, air-out passage is offered on the side wall of transformation station, and utilize air blower to heat dissipation tank inner ventilation, increase air flow rate using the fan that goes out inside air-out passage, compared to traditional technology, this practical obvious heat dissipation It is more efficient, be conducive to fast implement the cooling of transformation station, heat dissipation.

Description

A kind of transformation station with novel improved air-channel heat-dissipation structure

Technical field

The utility model relates to transformation station technical field, specially a kind of transformation with novel improved air-channel heat-dissipation structure It stands.

Background technique

Transformation station refers to the place for being converted and being distributed electric energy in electric system to voltage, and common transformation station has case Formula transformation station is internally provided with transformer and several electrical components, it can be achieved that transformation to voltage, electric current.Due to transformation Builtin voltage, the magnitude of current stood are very big, therefore the heat generated is also very big, if ventilation and heat not in time, is likely to result in The generation of safety accident, most of existing transformation station are still radiated by gravity-flow ventilation, or draft fan is arranged in outside, Increase air flow rate, but either natural air inlet heat dissipation or fan air inlet heat dissipation, efficiency is not high, but also exists One hidden danger, i.e. extraneous dust or foreign matter are easily accessible inside transformation station, make to be covered with dust all over inside transformation station, for this purpose, this Utility model proposes that a kind of transformation station with novel improved air-channel heat-dissipation structure is used to solve the above problems.

Utility model content

The purpose of this utility model is to provide a kind of transformation stations with novel improved air-channel heat-dissipation structure, on solving State the problem of proposing in background technique.

To achieve the above object, the utility model provides the following technical solutions: one kind having novel improved air duct radiation knot The transformation station of structure, including transformation station ontology, the transformation station ontology are body structure, and internal two sides are equipped with transformer, Internal middle section is vertically equipped with interior plate, and an external upper side is equipped with air blower, and inner tip is equipped with blast pipe, the air blast Machine is fixedly mounted on the lateral wall of transformation station ontology, and air blower and blast pipe are located in same level height, the air inlet Pipe is fixedly mounted in the inner tip of transformation station ontology by pipe clamp, and one end of blast pipe passes through the left side of transformation station ontology Wall is simultaneously connect with the air outlet of air blower, and the other end passes through interior plate and connect with the right side wall of transformation station ontology, the change Installation heat dissipation tank is bolted in the inside two sides of pressure station ontology, and the bottom end two sides of the blast pipe are equipped with air inlet branch Pipe, the top of the heat dissipation tank are provided through air intake passage, and the external side of heat dissipation tank, which is run through, offers radiator window, it is described into The top of wind branch pipe is fixedly connected with blast pipe, and bottom end is fixedly connected with the top of air intake passage.

Preferably, the inner upper of the heat dissipation tank is horizontally disposed filter screen and barrier flaps, and the barrier flaps were located at The lower section of strainer, and the side of barrier flaps is weldingly fixed on the inner wall of heat dissipation tank.

Preferably, it uniformly through first through hole is offered in the barrier flaps, is equipped with below the first through hole interior Pipe is set, the top of the built-in pipe is fitted on the bottom end of barrier flaps, and is uniformly run through on built-in pipe and offered the second through-hole.

Preferably, the outer sheath of the built-in pipe is equipped with filter cloth, and the top outer set of built-in pipe is equipped with adhesive piece, institute It states and is bolted to connection between adhesive piece, built-in pipe and barrier flaps three.

Preferably, the filter cloth is wrapped in the outside of built-in pipe, and adhesive piece and built-in pipe are clamped at the top of filter cloth Between the lower edge of top.

Preferably, be provided through air-out passage on the right side wall and interior plate of the transformation station ontology, it is described go out Wind channel is fixedly mounted on transformation station ontology and interior plate, and fan is fixedly mounted out in the inside of air-out passage.

Compared with prior art, the utility model has the beneficial effects that

1. it is internally provided with heat dissipation tank in transformation station practical, air-out passage is offered on the side wall of transformation station, and And using air blower to heat dissipation tank inner ventilation, increase air flow rate using the fan that goes out inside air-out passage, compared to biography System technology, this practical obvious radiating efficiency is higher, is conducive to fast implement the cooling of transformation station, heat dissipation；

It is internally provided with filter screen and built-in pipe in heat dissipation tank 2. practical, and is socketed with filter on the outside of built-in pipe Cloth, therefore may filter that the dust and impurities in air, avoid dust from falling into inside transformation station, meanwhile, filter cloth passes through adhesive piece It is fixed on built-in pipe, replacement is convenient.

Detailed description of the invention

FIG. 1 is a schematic structural view of the utility model；

Fig. 2 is the utility model heat-dissipation box structure section plan；

Fig. 3 is the utility model heat-dissipation box structure three-dimensional cutaway view.

In figure: 1 transformation station ontology, 2 transformers, 3 interior plates, 4 air blowers, 5 blast pipes, 6 heat dissipation tanks, 7 winding pipes, 8 Air intake passage, 9 filter screens, 10 radiator windows, 11 air-out passages, 12 go out fan, 13 barrier flaps, 14 built-in pipes, 15 filter clothes, 16 fittings 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.

Fig. 1-3 is please referred to, the utility model provides a kind of technical solution: a kind of with novel improved air-channel heat-dissipation structure Transformation station, including transformation station ontology 1, transformation station ontology 1 are body structure, and internal two sides are equipped with transformer 2, in inside Duan Chuizhi is equipped with interior plate 3, and an external upper side is equipped with air blower 4, and inner tip is equipped with blast pipe 5, and air blower 4 is fixed It is mounted on the lateral wall of transformation station ontology 1, and air blower 4 and blast pipe 5 are located in same level height, blast pipe 5 passes through Pipe clamp is fixedly mounted in the inner tip of transformation station ontology 1, and one end of blast pipe 5 passes through the left side wall of transformation station ontology 1 And connect with the air outlet of air blower 4, the other end passes through interior plate and connect with the right side wall of transformation station ontology 1, transformation station Installation heat dissipation tank 6 is bolted in the inside two sides of ontology 1, and the bottom end two sides of blast pipe 5 are equipped with winding pipe 7, dissipates The top of hot tank 6 is provided through air intake passage 8, and the external side of heat dissipation tank 6, which is run through, offers radiator window 10, winding pipe 7 Top be fixedly connected with blast pipe 5, bottom end is fixedly connected with the top of air intake passage 8, and air blower 4 is by extraneous cold sky Gas is passed through in blast pipe 5, and cold air is passed through in heat dissipation tank 7 by winding pipe 7 by blast pipe 5 again, and last cold air is from heat dissipation It is blown into transformation station ontology 1 in the radiator window 10 in 7 outside of case.

The inner upper of heat dissipation tank 6 is horizontally disposed filter screen 9 and barrier flaps 13, and barrier flaps 13 are located under filter screen 9 Side, and the side of barrier flaps 13 is weldingly fixed on the inner wall of heat dissipation tank 6, filter screen 9 and barrier flaps 13 are fixedly mounted on In heat dissipation tank 7, wherein filter screen 9 plays the role of coarse filtration, prevents bulky grain foreign matter from entering in transformation station ontology 1.

Built-in pipe 14, built-in pipe are uniformly equipped with below first through hole through first through hole is offered in barrier flaps 13 14 top is fitted on the bottom end of barrier flaps 13, and is uniformly run through on built-in pipe 14 and offered the second through-hole, built-in pipe 14 It is aligned and is arranged with first through hole, and the top of built-in pipe 14 and the fitting of the bottom end of barrier flaps 13.

The outer sheath of built-in pipe 14 is equipped with filter cloth 15, and the top outer set of built-in pipe 14 is equipped with adhesive piece 16, fitting It is bolted to connection between 13 three of piece 16, built-in pipe 14 and barrier flaps, filter cloth 15 plays the role of carefully filtering, and prevents Dust enters in transformation station ontology 1.

Filter cloth 15 is wrapped in the outside of built-in pipe 14, and the top of filter cloth 15 is clamped in the top of adhesive piece 16 and built-in pipe 14 It holds between lower edge, i.e., filter cloth 15, adhesive piece 16 and 14 three of built-in pipe are fixedly connected on the bottom end of barrier flaps 13.

It is provided through air-out passage 11 on the right side wall and interior plate 3 of transformation station ontology 1, air-out passage 11 is solid Dingan County is on transformation station ontology 1 and interior plate 3, and fan 12, air-out passage is fixedly mounted out in the inside of air-out passage 11 11 and fan 12 plays the role of helping stream out, air flow rate can be enhanced.

Working principle: in the utility model, the outer wall of transformation station ontology 1 is equipped with air blower 4, transformation station ontology 1 it is interior Portion top is provided with blast pipe 5, and wherein air blower 4 is responsible for for extraneous cold air being passed through in blast pipe 5, and blast pipe 5 passes through again Cold air is passed through in heat dissipation tank 6 by winding pipe 7.Heat dissipation tank 6 is internally provided with filter screen 9 and built-in pipe 14, built-in pipe 14 Outer sheath be equipped with filter cloth 15, wherein filter screen 9 plays the role of coarse filtration, and filter cloth 15 is played and carefully filtered.Quilt Filtered air is passed through from radiator window 10, into inside transformation station ontology 1.On the side wall of interior plate 3 and transformation station ontology 1 It is provided through air-out passage 11, air-out passage 11 is internally provided with out fan 12, and the two can play the role of helping stream, enhancing Air flow rate, i.e. enhancing cooling and heat dissipation efficiency, this practical overall structure is simple, easy to operate.

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 (6)

1. a kind of transformation station with novel improved air-channel heat-dissipation structure, including transformation station ontology (1), it is characterised in that: described Transformation station ontology (1) is body structure, and internal two sides are equipped with transformer (2), and internal middle section is vertically equipped with interior plate (3), an external upper side is equipped with air blower (4), and inner tip is equipped with blast pipe (5), and the air blower (4) is fixedly mounted On the lateral wall of transformation station ontology (1), and air blower (4) and blast pipe (5) are located in same level height, the blast pipe (5) it is fixedly mounted on by pipe clamp in the inner tip of transformation station ontology (1), and one end of blast pipe (5) passes through transformation station sheet The left side wall of body (1) is simultaneously connect with the air outlet of air blower (4), the other end pass through interior plate and with transformation station ontology (1) Installation heat dissipation tank (6), the blast pipe is bolted in right side wall connection, the inside two sides of the transformation station ontology (1) (5) bottom end two sides are equipped with winding pipe (7), and the top of the heat dissipation tank (6) is provided through air intake passage (8), heat dissipation Through offering radiator window (10), the top of the winding pipe (7), which is fixed with blast pipe (5), to be connected for the external side of case (6) It connects, bottom end is fixedly connected with the top of air intake passage (8).

2. a kind of transformation station with novel improved air-channel heat-dissipation structure according to claim 1, it is characterised in that: described The inner upper of heat dissipation tank (6) is horizontally disposed filter screen (9) and barrier flaps (13), and the barrier flaps (13) are located at filter screen (9) lower section, and the side of barrier flaps (13) is weldingly fixed on the inner wall of heat dissipation tank (6).

3. a kind of transformation station with novel improved air-channel heat-dissipation structure according to claim 2, it is characterised in that: described It is uniformly equipped with below the first through hole built-in pipe (14) through first through hole is offered in barrier flaps (13), it is described interior The top for setting pipe (14) is fitted on the bottom end of barrier flaps (13), and uniformly logical through offering second on built-in pipe (14) Hole.

4. a kind of transformation station with novel improved air-channel heat-dissipation structure according to claim 3, it is characterised in that: described The outer sheath of built-in pipe (14) is equipped with filter cloth (15), and the top outer set of built-in pipe (14) is equipped with adhesive piece (16), described It is bolted to connection between adhesive piece (16), built-in pipe (14) and barrier flaps (13) three.

5. a kind of transformation station with novel improved air-channel heat-dissipation structure according to claim 4, it is characterised in that: described Filter cloth (15) is wrapped in the outside of built-in pipe (14), and adhesive piece (16) and built-in pipe (14) are clamped at the top of filter cloth (15) Between the lower edge of top.

6. a kind of transformation station with novel improved air-channel heat-dissipation structure according to claim 1, it is characterised in that: described It is provided through air-out passage (11) on the right side wall and interior plate (3) of transformation station ontology (1), the air-out passage (11) It is fixedly mounted on transformation station ontology (1) and interior plate (3), and fan is fixedly mounted out in the inside of air-out passage (11) (12)。