CN212058432U - Heat exchanger with novel structure - Google Patents

Abstract

The utility model discloses a heat exchanger with a novel structure, which comprises a heat energy recovery device and a heat energy generation device; the heat energy recovery device and the heat energy generation device comprise heat conduction devices; high temperature waste gas gets into heat recovery unit, high temperature waste gas and heat-conducting device contact, heat-conducting device's heat transfer medium microchannel lets heat energy evaporate rapidly and rises, heat energy transfer to heat energy generation device, under heat energy generation device's cold wind effect, heat transfer medium microchannel release heat, the heat of release is absorbed by cold wind and is discharged after converting into hot-blast, thereby reach a continuous heat transfer, accomplish the effect of synchronous intensification and cooling, the superconductive heat pipe assembly of this kind of structure no matter be the heat pipe assembly that the structure convenience or thermal conductivity all will be superior to traditional structure.

Description

Heat exchanger with novel structure

Technical Field

The utility model relates to a heat exchanger field especially involves a heat exchanger of novel structure.

Background

With the deep advance of energy-saving and environment-friendly work, the high-temperature heat recovery of the technical device is extended to the low-temperature heat recovery, the heat carried by the technical device is recovered due to the relatively low temperature of a heat source, which is a relatively difficult matter, the traditional superconductor is in a heat pipe form, and is more suitable for heat transfer under the relatively temperature condition due to the structural influence, and the material with better heat conductivity and the reasonable equipment structure are selected for achieving the purpose of heat recovery.

SUMMERY OF THE UTILITY MODEL

The utility model provides a heat exchanger with a novel structure.

The above object of the present invention is achieved by the following technical solutions:

a heat exchanger with a novel structure comprises a body; including heat recovery unit, heat generation device and heat conduction device on the body, high temperature waste gas gets into heat recovery unit earlier, and low temperature air gets into heat generation device, and heat recovery unit draws the heat energy of high temperature waste gas, and the heat energy of drawing gets into heat generation device through heat conduction device, and low temperature air among the heat generation device carries out thermal conversion with the contact of heat energy and becomes high temperature air, and high temperature air is discharged from heat generation device.

Preferably, the heat energy generating device comprises a No. 1 box body 1, a high-temperature hot air outlet 5 and a low-temperature air inlet 4 are arranged on the No. 1 box body 1, low-temperature air enters the No. 1 box body 1 from the low-temperature air inlet 4, and the air after heat conversion through the heat conduction device is discharged from the high-temperature hot air outlet 5.

Preferably, heat recovery unit includes 2 cases, is equipped with high temperature waste gas import 7 and low temperature exhaust outlet 6 on 2 cases, and inside high temperature waste gas got into 2 cases from 7 cases of high temperature waste gas import, and the waste gas after the thermal conversion was discharged from 6 cases of low temperature exhaust outlet again.

Preferably, No. 1 box 1 of the heat energy generating device is horizontally arranged above No. 2 box 2 of the heat energy recovery device along the X axis, heat conduction devices are arranged on No. 1 box and No. 2 box, the heat conduction devices convert low-temperature air heat passing through No. 1 box into high-temperature air, and the heat conduction devices convert high-temperature waste gas heat passing through No. 2 box into low-temperature waste gas.

Preferably, the heat conduction device comprises a super heat conduction plate assembly 3, high-temperature waste gas passing through the inside of the No. 2 box body forms heat energy, the heat energy is conducted to the super heat conduction plate assembly 3 through the box surface of the No. 2 box body, the super heat conduction plate assembly 3 conducts the heat energy to the box surface of the No. 1 box body, the air inside the No. 1 box body is in contact with the heat energy on the box surface of the No. 1 box body, and the air inside the No. 1 box body is discharged from the high-temperature hot air outlet 5 after being subjected to heat conversion.

Preferably, super heat conduction board assembly 3 includes laminating aluminum plate 8, outer aluminum plate 9 and many heat transfer medium microchannel 10, and 1 No. box and 2 No. box are connected through monolithic laminating aluminum plate 8, and laminating aluminum plate 8's upper portion is connected with the laminating of 1 a side of 1 No. box, and laminating aluminum plate 8's lower part and 2 a side laminating of 2 No. box are connected, make 1 No. box and 2 No. box's heat energy form heat-conduction through super heat conduction board assembly 3.

Preferably, the attached aluminum plate 8, the outer aluminum plate 9 and the heat transfer medium micro-channel 10 are made of aluminum alloy materials.

Compared with the prior art, the utility model the advantage be:

the utility model discloses a novel heat exchanger of structure adds the super heat-conducting plate that 2mm is thick on the box on current basis, the material of chooseing for use is aluminum alloy material, aluminum alloy itself has good thermal conductivity, thereby establish the basis for the hypervelocity heat transfer, secondly special structural style has been adopted, and width direction can be done and adjust the customization, the inside multiunit heat transfer medium microchannel that is equipped with of super heat conduction version, these microchannels take out its processing after the heat transfer medium has been filled, the heat transfer rate of this kind of super heat conduction board is faster than the panel of ordinary material, thereby the temperature of quick heat transfer cold and hot both sides reaches closely effectively to have solved the heat exchange of relative microthermal.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic left side view of fig. 1.

Fig. 3 is a schematic view of a construction of a superconductive heat plate assembly.

Fig. 4 is an exploded schematic view of the structure of fig. 2.

In fig. 1 to 3, case 1; case 2; a superconductive heat plate assembly 3; a low temperature air inlet 4; a high-temperature hot water outlet 5; a low-temperature waste gas outlet 6; a high temperature exhaust gas inlet 7; attaching an aluminum plate 8; an outer aluminum plate 9; a heat transfer medium microchannel 10; right side 11 of case No. 1; case 1 left side 12; right side 13 of case 2; case 2 left side 14.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1 and 2, a heat exchanger with a novel structure comprises a No. 1 box 1 and a No. 2 box 2.

The best embodiment of this example is: the No. 1 box body is horizontally arranged above the No. 2 box body along an X axis and the No. 2 box body, a high-temperature hot air outlet 5 is arranged at a port on the right side of the No. 1 box body 1, and a low-temperature air inlet 4 is arranged at a port on the left side of the No. 1 box body 1; 2 right side ports of No. 2 boxes are equipped with high temperature waste gas import 7,2 left sides ports of No. 2 boxes are equipped with low temperature exhaust outlet 6, high temperature waste gas gets into No. 2 box inside low temperature waste gas by 6 discharge low temperature exhaust outlet of low temperature exhaust outlet from 7 high temperature exhaust gas imports of No. 2 boxes, low temperature air gets into 1 box 1 inside again from 5 discharges of right-hand member high temperature hot air exitus from 4 low temperature air intakes of No. 1 box, it sets up superconductive hot plate subassembly 3 to set up two box easy to assemble like this, can reduce manual operation's the degree of difficulty.

Specifically, as shown in fig. 2, 3 and 4, the No. 1 box and the No. 2 box are provided with a super heat conduction plate assembly 3, and the super heat conduction plate assembly 3 performs heat conversion on air passing through the two boxes to complete the conversion between heat energies.

The best embodiment of this example is: the No. 1 box right side 11 and the No. 2 box right side 13 are respectively bonded with the whole upper part and the whole lower part of the bonded aluminum plate 8 of the single superconducting heat plate assembly 3 in a bonded mode, the No. 1 box left side 12 and the No. 2 box left side 14 are respectively bonded with the whole upper part and the whole lower part of the bonded aluminum plate 8 of the single superconducting heat plate assembly 3 in a bonded mode, the superconducting heat plate assembly 3 is made of aluminum alloy materials and is 2mm thick, the superconducting heat plate assembly 3 comprises a plurality of heat transfer medium microchannels 10, when high-temperature waste gas enters the No. 2 box 2 from a high-temperature waste gas inlet 7, heat energy is formed, the heat energy is conducted to the superconducting heat plate assembly 3 through the box surface of the No. 2 box 2, the superconducting heat plate assembly 3 conducts the heat energy to the box surface of the No. 1 box 1, the air inside the No. 1 box 1 is in contact with, the high-temperature air is discharged from the high-temperature hot air outlet 5, and because the heat exchanger is in a thin plate form, the wind resistance is small no matter on the high-temperature side or the low-temperature side, and the superconducting heat plate assembly 3 adopting the form has particularly high heat efficiency.

Working procedure

High-temperature waste gas enters the No. 2 box body from the high-temperature waste gas inlet 7, low-temperature air enters the No. 1 box body from the low-temperature air inlet 4, the high-temperature waste gas contacts the superconducting heat plate assembly 3 through the box surface of the No. 2 box body, the high-temperature waste gas is converted into low-temperature waste gas and then is discharged from the low-temperature waste gas outlet 6, heat energy generated by the fact that the heat transfer medium micro-channel 10 of the entity in the superconducting heat plate assembly 3 contacts the high-temperature waste gas is rapidly evaporated and ascended, the heat energy is brought to the box surface of the No. 1 box body, the box surface of the No. 1 box body is contacted with cold air in the box, under the action of cold air, the heat transfer medium micro-channel 10 releases heat energy, the released heat energy is absorbed by the cold air and then is converted into hot air, the hot air is discharged from the high-.

The above description specifically describes the preferred embodiments of the present invention, but of course, the present invention can also adopt different forms from the above embodiments, and equivalent changes or corresponding modifications made by those skilled in the art without departing from the spirit of the present invention shall fall within the protection scope of the present invention.

Claims (7)

1. The utility model provides a heat exchanger of novel structure which characterized in that: comprises a body; including heat recovery unit, heat energy generating device and heat conduction device on the body, the heat conduction device includes super heat conduction board subassembly (3), super heat conduction board subassembly (3) are including laminating aluminum plate (8), outer aluminum plate (9) and many heat transfer medium microchannel (10), and high temperature waste gas gets into heat recovery unit earlier, and low temperature air gets into heat energy generating device, and heat energy recovery unit draws the heat energy of high temperature waste gas, and the heat energy of extraction passes through heat conduction device and gets into heat energy generating device, and low temperature air among the heat energy generating device carries out thermal conversion with the heat energy contact and becomes high temperature air, and high temperature air is discharged from heat energy generating device.

2. The heat exchanger of claim 1, wherein: the heat energy generating device comprises a No. 1 box body (1), a high-temperature hot air outlet (5) and a low-temperature air inlet (4) are formed in the No. 1 box body (1), low-temperature air enters the No. 1 box body (1) from the low-temperature air inlet (4), and the air after heat conversion through the heat conduction device is discharged from the high-temperature hot air outlet (5).

3. The heat exchanger of claim 2, wherein: the heat energy recovery device comprises a No. 2 box body (2), a high-temperature waste gas inlet (7) and a low-temperature waste gas outlet (6) are formed in the No. 2 box body (2), high-temperature waste gas enters the No. 2 box body (2) from the high-temperature waste gas inlet (7), and waste gas after heat conversion is discharged from the low-temperature waste gas outlet (6).

4. The heat exchanger of claim 3, wherein: no. 1 box (1) of heat energy generating device is equipped with heat-transfer device along X axle level setting in No. 2 box (2) top of heat energy recovery unit on No. 1 box (1) and No. 2 box (2), and heat-transfer device will be through the low temperature air heat conversion of No. 1 box (1) high temperature air, and heat-transfer device will be through the high temperature waste gas heat conversion of No. 2 box (2) low temperature waste gas.

5. The heat exchanger of claim 4, wherein: no. 2 the inside high temperature waste gas that passes through of box (2) forms heat energy, and heat energy is through the heat-conduction of the case face of No. 2 box (2) to super heat conduction board subassembly (3), and super heat conduction board subassembly (3) are with the heat-conduction of heat energy to the case face of No. 1 box (1), and the heat energy contact on the case face of No. 1 box (1) inside low temperature air and No. 1 box (1) inside low temperature air heat transfer is discharged from high temperature hot air outlet (5) behind the high temperature air.

6. The heat exchanger of claim 5, wherein: no. 1 box (1) and No. 2 box (2) are connected through monolithic laminating aluminum plate (8), the upper portion of laminating aluminum plate (8) is connected with the side laminating of No. 1 box (1), and the lower part of laminating aluminum plate (8) and the whole face laminating of a side of No. 2 box (2) are connected, make the heat energy of No. 1 box (1) and No. 2 box (2) pass through super heat conduction board subassembly (3) heat-conduction.

7. The heat exchanger of claim 6, wherein: the laminated aluminum plate (8), the outer aluminum plate (9) and the heat transfer medium micro-channel (10) are made of aluminum alloy materials.

Images