CN207702580U - A kind of radiator - Google Patents

Abstract

The utility model provides a kind of radiator, belongs to field of mechanical technique.It solves the problems, such as that existing radiator heat-dissipation effect is poor.It includes two heat-transfer pipes disposed in parallel and two cooling fins one disposed in parallel and cooling fin two, the lower end of two heat-transfer pipes is respectively connected between two medial surface of one medial surface of cooling fin and cooling fin, this radiator further includes two cooling fins three disposed in parallel and cooling fin four and two cooling fins five disposed in parallel and cooling fin six, the middle part of two heat-transfer pipes is respectively connected between four medial surface of three medial surface of cooling fin and cooling fin, the upper end of two heat-transfer pipes is respectively connected between six medial surface of cooling fin five and cooling fin, and between two medial surface of one medial surface of cooling fin and cooling fin, being sticked between four medial surface of three medial surface of cooling fin and cooling fin and between six medial surface of five medial surface of cooling fin and cooling fin has the metal fin with wave structure.It has many advantages, such as that good heat dissipation effect, heat dissipation area are big.

Description

A kind of radiator

Technical field

The utility model belongs to field of mechanical technique, is related to a kind of radiator.

Background technology

With the continuous variation and the continuous improvement of living standard of weather, requirement of the people to quality of life is also increasingly It is high.In the season of wintry weather cold, be all in southern most of place temperature is adjusted using air-conditioning, but the north substantially On be all the equipment of heating to be used as using radiator, therefore there is in the most of place in the north heating and hot water to supply, only need by Heating or hot water are by radiator, then are dispersed into room through radiator and can improve indoor temperature.Traditional heat dissipation Device is radiated by way of heat radiation only with cooling fin, and this radiating mode efficiency is low, heat dissipation area is small and imitates Fruit is bad.

Invention content

The purpose of this utility model is in view of the above-mentioned problems existing in the prior art, it is proposed that a kind of radiator to be solved Certainly the technical issues of be how increasing heat radiation area, improving radiating effect.

The purpose of this utility model can be realized by following technical proposal：

A kind of radiator, including two heat-transfer pipes disposed in parallel and two cooling fins one and cooling fin disposed in parallel Two, the lower end of two heat-transfer pipes is respectively connected between two medial surface of one medial surface of cooling fin and cooling fin, which is characterized in that this Radiator further includes two cooling fins disposed in parallel three and cooling fin four and two cooling fins five disposed in parallel and cooling fin six, The middle part of two heat-transfer pipes is respectively connected between four medial surface of three medial surface of cooling fin and cooling fin, and the upper end of two heat-transfer pipes is equal Be respectively fixedly connected between six medial surface of cooling fin five and cooling fin, and one medial surface of cooling fin and two medial surface of cooling fin it Between, between four medial surface of three medial surface of cooling fin and cooling fin and between six medial surface of five medial surface of cooling fin and cooling fin Being sticked has the metal fin with wave structure.

This radiator erects to use when in use, that is, two heat-transfer pipes are perpendicular to ground, and cooling fin one with Cooling fin two can play the heat dissipation of lower in doors, and cooling fin three can play the heat dissipation at middle part within doors with cooling fin four, dissipate Heat five can then play the heat dissipation being higher by within doors with cooling fin six, can promote the heat radiation area of entire radiator in this way, carry High heat dissipation effect.Simultaneously by between two medial surface of one medial surface of cooling fin and cooling fin, three medial surface of cooling fin with dissipate Being sticked between four medial surface of backing and between six medial surface of five medial surface of cooling fin and cooling fin has with wave structure Metal fin, and indoor cold air can be made to pass through metal fin and directly carry out heat exchange with the hot gas in radiator, by Heat radiation and heat exchange dual mode make the heat dissipation effect of this electric radiator obtain being promoted well.

In above-mentioned radiator, the lateral surface of the cooling fin two sets that there are two support leg, the cooling fins six Lateral surface set there are two support leg, four support legs are located on rectangular four vertex.

Since cooling fin two is located at the lower end of heat-transfer pipe, cooling fin six is located at the upper end of heat-transfer pipe, therefore in cooling fin two Lateral surface two support legs are set, the lateral surface of cooling fin six is arranged two support legs, entire radiator can be made to pass through this A four support legs are mounted on metope, to solve the problems, such as to put area deficiency within doors.

In above-mentioned radiator, the area of the cooling fin one is more than the area of cooling fin three, the cooling fin Three area is more than the area of cooling fin five.

Cooling fin one, cooling fin three and cooling fin five are distributed from the bottom to top along two heat-transfer pipes, the face of cooling fin one Product is set to as the area more than cooling fin three, and the area of cooling fin three is more than the area of cooling fin five, although low within doors in this way The heat dissipation capacity at place is larger, but the density of hot-air is again smaller, lighter compared to normal temperature air, and the heat located within doors in this way can be toward floating To make entire hot gas within doors more uniformly.

In above-mentioned radiator, the waveform of the wave structure on the metal fin is rectangular wave.

Wave structure waveform on metal fin is rectangular wave, and such metal fin can be distinguished by wave structure It is formed and is reclined between corresponding two cooling fins medial surface, can preferably carry out heat transfer in this way.

Compared with prior art, this radiator is by adding cooling fin three and heat dissipation four and cooling fin five and cooling fin Six, heat dissipation area is improved well；Simultaneously further through setting metal fin directly by radiator hot-air within doors Cold air carry out heat exchange, by heat radiation and heat exchange dual mode the heat dissipation effect of this electric radiator is obtained It is promoted well.

Description of the drawings

Fig. 1 is the front schematic view of this radiator.

Fig. 2 is the schematic rear view of this radiator.

Fig. 3 is the schematic diagram of another angle of this radiator.

In figure, 1, heat-transfer pipe；2, cooling fin one；3, cooling fin two；4, cooling fin three；5, cooling fin four；6, cooling fin five； 7, cooling fin six；8, metal fin；9, support leg.

Specific implementation mode

It is specific embodiment of the utility model and in conjunction with attached drawing below, the technical solution of the utility model is made further Description, but the utility model is not limited to these examples.

As depicted in figs. 1 and 2, a kind of radiator, including two cooling fins 1 disposed in parallel and cooling fin 23 and two The lower end of root heat-transfer pipe 1 disposed in parallel, two heat-transfer pipes 1 is respectively connected in one 2 medial surface of cooling fin and 23 inside of cooling fin Between face.This radiator further includes two cooling fins 34 disposed in parallel and cooling fin 45 and two cooling fins five disposed in parallel 6 are respectively connected in cooling fin 67, the middle part of two heat-transfer pipes 1 between 45 medial surface of 34 medial surface of cooling fin and cooling fin, The upper end of two heat-transfer pipes 1 is respectively connected between 67 medial surface of 56 medial surface of cooling fin and cooling fin.

As shown in Figure 1, Figure 2 and Figure 3, the area of cooling fin 1 is more than the area of cooling fin 34, the area of cooling fin 34 More than the area of cooling fin 56, and in the setting of the lateral surface of cooling fin 23, there are two support leg 9, the outsides of cooling fin 67 There are two support leg 9, four support legs 9 are located on rectangular four vertex for face setting.One 2 medial surface of cooling fin Between 23 medial surface of cooling fin, between 45 medial surface of 34 medial surface of cooling fin and cooling fin and 56 medial surface of cooling fin Being sticked between 67 medial surface of cooling fin has the metal fin 8 with wave structure, and the corrugated knot on metal fin 8 The waveform of structure is rectangular wave.

This radiator stands use when in use, that is, two heat-transfer pipes 1 are perpendicular to ground, and entire radiator can To be mounted on wall by four support legs 9, to solve the problems, such as that placing space is insufficient within doors.In heat dissipation, two heat-transfer pipes 1 Cooling fin 1, cooling fin 23, cooling fin 34, cooling fin 45, cooling fin 56 and cooling fin six are transferred heat to respectively 7 and from each cooling fin in a manner of heat radiation to radiating within doors.

Cooling fin 1 and cooling fin 23 can play the heat dissipation of lower in doors, and cooling fin 34 and cooling fin 45 can be with The heat dissipation at middle part within doors is played, heat dissipation five can play the heat dissipation being higher by within doors with cooling fin 67, can be promoted so entire The heat radiation area of radiator improves heat dissipation effect.Simultaneously by one 2 medial surface of cooling fin and 23 medial surface of cooling fin Between, between 45 medial surface of 34 medial surface of cooling fin and cooling fin and 67 medial surface of 56 medial surface of cooling fin and cooling fin Between be sticked the metal fin 8 having with wave structure, and can make indoor cold air pass through metal fin 8 directly with dissipate Hot gas in hot device carries out heat exchange, by heat radiation and heat exchange dual mode the heat dissipation effect of this electric radiator is obtained To being promoted well.

The specific embodiments described herein are merely examples of the spirit of the present invention.The utility model institute Belonging to those skilled in the art can make various modifications or additions to the described embodiments or using similar Mode substitute, but without departing from the spirit of the present application or beyond the scope of the appended claims.

Claims (4)

1. a kind of radiator, including two heat-transfer pipes (1) disposed in parallel and two cooling fins one (2) disposed in parallel and heat dissipation Piece two (3), the lower ends of two heat-transfer pipes (1) be respectively connected in cooling fin one (2) medial surface and cooling fin two (3) medial surface it Between, which is characterized in that this radiator, which further includes that two cooling fins three (4) disposed in parallel are parallel with cooling fin four (5) and two, to be set The cooling fin five (6) set and cooling fin six (7), the middle parts of two heat-transfer pipes (1) be respectively connected in cooling fin three (4) medial surface with Between cooling fin four (5) medial surface, the upper end of two heat-transfer pipes (1) is respectively connected in cooling fin five (6) and cooling fin six (7) Between side, and between cooling fin one (2) medial surface and cooling fin two (3) medial surface, cooling fin three (4) medial surface with heat dissipation Being sticked between piece four (5) medial surface and between cooling fin five (6) medial surface and cooling fin six (7) medial surface has band corrugated The metal fin (8) of structure.

2. radiator according to claim 1, which is characterized in that there are two the lateral surface of the cooling fin two (3) is set The lateral surface of support leg (9), the cooling fin six (7) is set there are two support leg (9), and four support legs (9) are located at one On a rectangular four vertex.

3. radiator according to claim 1 or 2, which is characterized in that the area of the cooling fin one (2) is more than heat dissipation The area of piece three (4), the area of the cooling fin three (4) are more than the area of cooling fin five (6).

4. radiator according to claim 1 or 2, which is characterized in that the wave structure on the metal fin (8) Waveform be rectangular wave.