CN102592686A - Heat exchanger - Google Patents

Abstract

The invention discloses a heat exchanger, which comprises a heat dissipation module, an internal circulation fan and an external circulation fan. The heat dissipation module comprises a module body, a plurality of first air inlets, a plurality of first air outlets, a plurality of second air inlets, a plurality of second air outlets, a plurality of first runners and a plurality of second runners. The plurality of first air inlets and the plurality of first air outlets are respectively communicated with the plurality of first runners. The plurality of second air inlets and the plurality of second air outlets are respectively communicated with the plurality of second runners. The module body comprises a first surface and a second surface, and the first surface is opposite to the second surface. The plurality of first air inlets and the plurality of first air outlets are located on the first surface, and the plurality of second air inlets and the plurality of second air outlets are located on the second surface.

Description

Heat exchanger

Technical field

The present invention relates to a kind of heat exchanger, particularly relate to a kind of ventilation type heat exchanger.

Background technology

Existing heat exchanger comprises a circulating fan and an outer circulation fan in a casing, the radiating module.Radiating module, interior circulating fan and outer circulation fan all are located among the casing.In the prior art, the runner opening of radiating module is usually located at the end face and the bottom surface of radiating module, and therefore, interior circulating fan and interior circulating fan need be located at the top and the below of radiating module respectively.Thereby increased the height of casing.And when the thickness of existing heat exchanger reduced, the runner opening of radiating module also diminished, and because of dust stops up the runner opening, simultaneously, the size of interior circulating fan and outer circulation fan also receives the thickness limits of heat exchanger, and suitable air quantity can't be provided easily.

Summary of the invention

A kind of heat exchanger that the present invention promptly provides for desire solves prior art problems, it comprises a circulating fan and an outer circulation fan in the radiating module.Radiating module comprises a module body, a plurality of first air intake vent, a plurality of first air outlet, a plurality of second air intake vent, a plurality of second air outlet, a plurality of first flow and a plurality of second runner; Wherein, These a plurality of first flows and the arrangement interlaced with each other of these a plurality of second runners; These a plurality of first air intake vents and these a plurality of first air outlets are communicated with this a plurality of first flows respectively; These a plurality of second air intake vents and these a plurality of second air outlets are communicated with this a plurality of second runners respectively, and this module body comprises a first surface and a second surface, and this first surface is in contrast to this second surface; These a plurality of first air intake vents and this a plurality of first air outlets are positioned at this first surface, and these a plurality of second air intake vents and this a plurality of second air outlets are positioned at this second surface.Interior circulating fan imports these a plurality of first air intake vents of one first air-flow process among these first flows, and flows out from these a plurality of first air outlets.The outer circulation fan imports these a plurality of second air intake vents of one second air-flow process among these second runners, and flows out from these a plurality of second air outlets.

In an embodiment of the present invention; Because these a plurality of first air intake vents and this a plurality of first air outlets are positioned at this first surface; These a plurality of second air intake vents and this a plurality of second air outlets are positioned at this second surface; Therefore under the situation of thin type heat-transmission switch (reduction thickness), the aperture area of these a plurality of first air intake vents, these a plurality of first air outlets, these a plurality of second air intake vents and these a plurality of second air outlets can not reduce, and sufficient air flow stream flux still can be provided.

In an embodiment of the present invention, interior circulating fan is to should a plurality of first air intake vents, and the outer circulation fan is to should a plurality of second air intake vents.Can improve thus increases by first air-flow and the flow path of second air-flow in radiating module, improves heat exchanger effectiveness.Simultaneously, contiguous the 3rd surface of circulating fan in this, contiguous the 4th surface of this outer circulation fan is suitable among hot-air (first air-flow) and cold air (second air-flow) the introducing radiating module.

Circulating fan and this outer circulation fan can be the tubeaxial fan or the fan of other patterns in being somebody's turn to do.In an embodiment of the present invention, be located at first surface and second surface respectively, therefore can effectively reduce the whole height of heat exchanger owing to being somebody's turn to do interior circulating fan and this outer circulation fan.

Casing has an accommodation space, and this accommodation space has a supporting surface.In one embodiment, the angle theta between this first surface of radiating module and this second surface and this supporting surface is less than 90 degree.Through radiating module is tilting, can increase the path volume of these a plurality of first flows and these a plurality of second runners, also further improve heat exchanger effectiveness.

Description of drawings

Figure 1A is the stereographic map of the heat exchanger of the embodiment of the invention;

Figure 1B is the situation among the target system that is located at of heat exchanger of the embodiment of the invention;

Fig. 2 A is the stereographic map of radiating module of the present invention;

Fig. 2 B is the stereographic map at another visual angle of radiating module of the present invention; And

Fig. 2 C is the 2C-2C direction cut-open view among Fig. 2 A.

The main element symbol description

1～target system

10～equipment

100～heat exchanger

110～radiating module

111～first surface

112～second surface

113～the 3rd surfaces

114～the 4th surfaces

115～the first air intake vents

116～the first air outlets

117～the second air intake vents

118～the second air outlets

119～module body

1101～first flow

1102～the second runners

120～interior circulating fan

130～outer circulation fan

140～casing

141～accommodation space

142～supporting surface

Embodiment

Figure 1A is the stereographic map that shows the heat exchanger 100 of the embodiment of the invention.Figure 1B is the situation that shows among the target system 1 that is located at of heat exchanger 100 of the embodiment of the invention.With reference to Figure 1A, Figure 1B, the heat exchanger 100 of the embodiment of the invention comprises a radiating module 110, one interior circulating fan 120, an outer circulation fan 130 and a casing 140.With reference to Fig. 2 A, Fig. 2 B, radiating module 110 comprises a module body 119, a plurality of first air intake vent 115, a plurality of first air outlet 116, a plurality of second air intake vent 117, a plurality of second air outlet 118, a plurality of first flow 1101 and a plurality of second runner 1102.Collocation is with reference to Fig. 2 C, and it is the 2C-2C direction cut-open view among the displayed map 2A, and these a plurality of first flows 1101 and these a plurality of second runner 1102 arrangements interlaced with each other can be strengthened heat exchanger effectiveness thus.Collocation is with reference to Fig. 2 A, Fig. 2 B and Fig. 2 C; These a plurality of first air intake vents 115 and these a plurality of first air outlets 116 are communicated with these a plurality of first flows 1101 respectively, and these a plurality of second air intake vents 117 and these a plurality of second air outlets 118 are communicated with this a plurality of second runners 1102 respectively.

With reference to Fig. 2 A, Fig. 2 B, this module body 119 is cube, comprises a first surface (front) 111, a second surface (back side) 112, one the 3rd surface (end face) 113 and one the 4th surface (bottom surface) 114.This first surface 111 is parallel and in contrast to this second surface 112; These a plurality of first air intake vents 115 and this a plurality of first air outlets 116 are positioned at this first surface 111, and these a plurality of second air intake vents 117 and this a plurality of second air outlets 118 are positioned at this second surface 112.The 3rd the surface 113 parallel and in contrast to the 4th the surface 114, this first surface 111 and this second surface 112 perpendicular to the 3rd the surface the 113 and the 4th the surface 114.

In the above-described embodiments; Because these a plurality of first air intake vents 115 and this a plurality of first air outlets 116 are positioned at this first surface 111; These a plurality of second air intake vents 117 and this a plurality of second air outlets 118 are positioned at this second surface 112; Therefore under the situation of thin type heat-transmission switch (reduction thickness); The aperture area of these a plurality of first air intake vents 115, these a plurality of first air outlets 116, these a plurality of second air intake vents 117 and these a plurality of second air outlets 118 can not reduce, and sufficient air flow stream flux still can be provided.

Collocation is with reference to Figure 1B, Fig. 2 A and Fig. 2 B, and interior circulating fan 120 imports these a plurality of first air intake vents 115 of one first air-flow process among these first flows 1101, and flows out from these a plurality of first air outlets 116.Outer circulation fan 130 imports these a plurality of second air intake vents 117 of one second air-flow process among these second runners 1102, and flows out from these a plurality of second air outlets 118.Should in 120 pairs of circulating fans should a plurality of first air intake vents 115, this first air-flow is imported among this first flow 1101.This outer circulation fan 130 is to should a plurality of second air intake vents 117, this second air-flow is imported among this second runner 1102.In this embodiment, circulating fan 120 contiguous the 3rd surfaces 113 in this, these outer circulation fan 130 contiguous the 4th surfaces 114.

In the above-described embodiments, 120 pairs of interior circulating fans should a plurality of first air intake vents 115, and outer circulation fan 130 is to should a plurality of second air intake vents 117.Can improve thus increases by first air-flow and the flow path of second air-flow in radiating module, improves heat exchanger effectiveness.Simultaneously, these interior circulating fan 120 contiguous the 3rd surfaces 113, these outer circulation fan 130 contiguous the 4th surfaces 114 are suitable among hot-air (first air-flow) and cold air (second air-flow) the introducing radiating module.

Circulating fan 120 and this outer circulation fan 130 can be the tubeaxial fan or the fan of other patterns in being somebody's turn to do.In an embodiment of the present invention, be located at first surface 111 and second surface 112 respectively, therefore can effectively reduce the whole height of heat exchanger owing to being somebody's turn to do interior circulating fan 120 and this outer circulation fan 130.

In this embodiment, these a plurality of first flows 1101 are the U font with the flow passage route of these a plurality of second runners 1102.

Casing 140 has an accommodation space 141, and this accommodation space has a supporting surface 142.In one embodiment, the angle theta of 142 of this first surface 111 of radiating module and this second surface 112 and this supporting surfaces is less than 90 degree.Through radiating module is tilting, can increase the path volume of these a plurality of first flows 1101 and these a plurality of second runners 1102, also further promote heat exchanger effectiveness.

In Figure 1B, the equipment 10 of target system 1 produces the heat of (or introduce), is brought among the radiating module 110 by first air-flow, and brings to the external world by second air-flow, and therefore the function of heat interchange can effectively be provided.

Though in conjunction with more than concrete preferred embodiment disclosed the present invention; Yet it is not in order to limit the present invention; Anyly be familiar with this operator; Do not breaking away from the spirit and scope of the present invention, can do a little change and retouching, thus protection scope of the present invention should with enclose claim was defined is as the criterion.

Claims (18)

1. heat exchanger comprises:

Radiating module; Comprise module body, a plurality of first air intake vent, a plurality of first air outlet, a plurality of second air intake vent, a plurality of second air outlet, a plurality of first flow and a plurality of second runner; Wherein, These a plurality of first flows and the arrangement interlaced with each other of these a plurality of second runners, these a plurality of first air intake vents and these a plurality of first air outlets are communicated with this a plurality of first flows respectively, and these a plurality of second air intake vents and these a plurality of second air outlets are communicated with this a plurality of second runners respectively; This module body comprises first surface and second surface; This first surface is in contrast to this second surface, and these a plurality of first air intake vents and this a plurality of first air outlets are positioned at this first surface, and these a plurality of second air intake vents and this a plurality of second air outlets are positioned at this second surface;

Interior circulating fan, among these a plurality of these first flows of first air intake vents importing of one first air-flow process, and from these a plurality of first air outlets outflows; And

The outer circulation fan, among these a plurality of these second runners of second air intake vents importing of one second air-flow process, and from these a plurality of second air outlets outflows.

2. heat exchanger as claimed in claim 1, wherein, circulating fan in this is to should a plurality of first air intake vents, this first air-flow is imported among this first flow.

3. heat exchanger as claimed in claim 2, wherein, this outer circulation fan is to should a plurality of second air intake vents, this second air-flow is imported among this second runner.

4. heat exchanger as claimed in claim 1, wherein, circulating fan and this outer circulation fan are tubeaxial fan in this.

5. heat exchanger as claimed in claim 1, wherein, these a plurality of first flows are the U font with the flow passage route of these a plurality of second runners.

6. heat exchanger as claimed in claim 1; Wherein, this module body is a cube, and this module body also comprises the 3rd surface and the 4th surface; The 3rd surface is parallel and in contrast to the 4th surface, and this first surface and this second surface are perpendicular to the 3rd surface and the 4th surface.

7. heat exchanger as claimed in claim 6, wherein, contiguous the 3rd surface of circulating fan in this, contiguous the 4th surface of this outer circulation fan.

8. heat exchanger as claimed in claim 1, it also comprises casing, wherein, this radiating module, this interior circulating fan and this outer circulation fan are located among this casing.

9. heat exchanger comprises:

Casing has accommodation space, and this accommodation space has supporting surface;

Radiating module; Place among this accommodation space; This radiating module comprises module body, a plurality of first air intake vent, a plurality of first air outlet, a plurality of second air intake vent, a plurality of second air outlet, a plurality of first flow and a plurality of second runner, and wherein, these a plurality of first air intake vents and these a plurality of first air outlets are communicated with this a plurality of first flows respectively; These a plurality of second air intake vents and these a plurality of second air outlets are communicated with this a plurality of second runners respectively; This module body comprises first surface and second surface, and this first surface is parallel and in contrast to this second surface, and these a plurality of first air intake vents are positioned at this first surface; These a plurality of second air intake vents are positioned at this second surface, and the angle between this first surface and this second surface and this supporting surface is less than 90 degree;

Interior circulating fan places among this accommodation space, and this interior circulating fan imports these a plurality of first air intake vents of one first air-flow process among these first flows, and flows out from these a plurality of first air outlets; And

The outer circulation fan places among this accommodation space, and this outer circulation fan imports these a plurality of second air intake vents of one second air-flow process among these second runners, and flows out from these a plurality of second air outlets.

10. heat exchanger as claimed in claim 9, wherein, circulating fan is to should a plurality of first air intake vents, this first air-flow is imported among this first flow in this.

11. heat exchanger as claimed in claim 10, wherein, this outer circulation fan is to should a plurality of second air intake vents, this second air-flow is imported among this second runner.

12. heat exchanger as claimed in claim 9, wherein, circulating fan and this outer circulation fan are tubeaxial fan in this.

13. heat exchanger as claimed in claim 9, wherein, these a plurality of first flows are the U font with the flow passage route of these a plurality of second runners.

14. heat exchanger as claimed in claim 9; Wherein, this module body is a cube, and this module body also comprises the 3rd surface and the 4th surface; The 3rd surface is parallel and in contrast to the 4th surface, and this first surface and this second surface are perpendicular to the 3rd surface and the 4th surface.

15. heat exchanger as claimed in claim 14, wherein, this accommodation space is cube.

16. heat exchanger as claimed in claim 15, wherein, contiguous the 3rd surface of circulating fan in this, contiguous the 4th surface of this outer circulation fan.

17. heat exchanger as claimed in claim 9, wherein, these a plurality of first flows and the arrangement interlaced with each other of these a plurality of second runners.

18. heat exchanger as claimed in claim 9, wherein, these a plurality of first air outlets are positioned at this first surface, and these a plurality of second air outlets are positioned at this second surface.

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