CN206469750U - A kind of heat exchanger core for two or more fluid heat exchanges - Google Patents

Abstract

The utility model proposes a kind of heat exchanger core for two or more fluid heat exchanges, belong to heat exchange design field.The heat exchanger core includes n heat exchange plate group, and is stacked alternately and forms by n heat exchange plate group, n heat exchange plate group carrying n kind heat-exchange fluid；Heat exchange plate includes cold drawing and hot plate；Cold drawing includes cold plate base, fluid through-hole and the heat exchange runner processed by chemical etching in cold plate base；Hot plate includes hot plate matrix, fluid port and the heat exchange runner processed by chemical etching on hot plate matrix；Each heat exchange plate group includes more than one cold drawing or hot plate.The utility model proposes a kind of heat exchanger core for being used for more than three kinds fluid heat exchanges have cooling efficiency high the features such as.

Description

A kind of heat exchanger core for two or more fluid heat exchanges

Technical field

The utility model belongs to heat exchange design field, and in particular to a kind of changing for two or more fluid heat exchanges Hot device core.

Background technology

At present, micro-channel heat exchanger has been widely applied to the industries such as ship, automobile, air-conditioning, micro-channel heat exchanger due to Its small volume, it is lightweight, have become the open important new direction of current heat exchanger research, it is and current, using simply changing Hot device cored structure can not realize that multiple fluid exchanges heat.

Utility model content

To solve technical problem present in above-mentioned prior art, it is used for two or more streams the utility model proposes one kind The heat exchanger core that body heat is exchanged, the technical scheme taken is as follows：

The heat exchanger core for two or more fluid heat exchanges includes n heat exchange plate group, and by n heat exchanger plates Piece group, which is stacked alternately, to be formed, wherein, n is the positive integer not less than 2；Each heat exchange plate group carries a kind of heat exchange flow Body, the n heat exchange plate group carries n kind heat-exchange fluids；The heat exchange plate includes cold drawing and hot plate；The cold drawing includes Cold plate base, fluid through-hole and the heat exchange runner processed by chemical etching in cold plate base；Heat exchange on the cold drawing The port of runner is located on the side of cold plate base, is used as the import or export of heat exchanging fluid；The fluid through-hole as with it is cold The outlet or import of the corresponding heat exchanging fluid of port attribute of heat exchange runner on plate；The hot plate includes hot plate matrix, fluid Port and the heat exchange runner processed by chemical etching on hot plate matrix；The port of heat exchange runner on the hot plate is located at On the side of hot plate matrix, the respectively inlet and outlet of heat exchanging fluid；Each heat exchange plate group includes more than one cold drawing Or hot plate；The heat exchanging fluid import and export of the different heat exchange plates offsets one from another in the projection perpendicular to heat exchange plate direction, Do not overlap each other, without any overlapped part；Fluid through-hole and the fluid port is perpendicular to heat exchange plate direction Projection on safety it is overlapping.

Preferably, it is described to be stacked alternately the heat exchange plate group for representing adjacent with any heat exchange plate group in heat exchanger core For any heat exchange plate group in addition to its own.

Preferably, the heat exchange runner that the heat exchange plate included in two adjacent heat exchange plate groups is provided with is perpendicular to heat exchange There is overlapped part to be used for heat exchange in the projection in plate direction.

Preferably, the heat exchange runner is entirely located in the one side of the cold plate base and hot plate matrix；The cold plate base It is that cold plate base whole in plane, heat exchanger core and hot plate matrix are provided with the one of heat exchange runner with the another side of hot plate matrix Face is both facing to same direction.

Preferably, the heat exchange runner is entirely located in the one side of cold plate base and hot plate matrix；The cold plate base and heat The another side of plate matrix is plane；The heat exchange runner one of whole cold plate bases and hot plate matrix in each heat exchange plate group Face is both facing to same direction；The cold plate base or hot plate matrix of the border end heat exchange plate of two groups of adjacent heat exchange plate groups are set Have the one of heat exchange runner facing to different, stack a dividing plate between this border end heat exchange plate, the dividing plate is does not lose Carve the matrix of heat exchange runner.

Preferably, the heat exchange runner is entirely located in the two sides of heat exchange plate, and each heat exchange plate both sides are provided with dividing plate, institute It is the matrix for not etching heat exchange runner to state dividing plate.

Preferably, the heat exchange runner is located at the one or both sides of cold plate base and hot plate matrix, adjacent cold plate base Heat exchange runner one side between cold plate base, between cold plate base and hot plate matrix, between hot plate matrix and hot plate matrix is not It is adjacent or adjacent, between the heat exchange runner adjacent cold plate base of one side and cold plate base, between cold plate base and hot plate matrix, Dividing plate is provided between hot plate matrix and hot plate matrix, the dividing plate is the matrix for not etching heat exchange runner.

Preferably, be stacked alternately outside rear exposed two heat exchange plate groups and be provided with cover plate, any cover plate with and its There are dividing plate or non-inductive windings between adjacent heat exchange plate group.

Preferably, the cold plate base and hot plate matrix can be by metal material systems such as stainless steel, titanium alloy, copper alloys Into can be also made up of nonmetallic materials such as ceramics, PVC；The thickness of the cold plate base and hot plate matrix is 1.5-4.0mm, table Surface roughness is 1.6-3.2 μm, and flatness is less than 10 μm.

Preferably, the cold plate base and the section depth of the heat exchange runner on hot plate matrix are respectively cold plate base and heat The 60-75% of plate matrix, hydraulic diameter is 1.0-3.0mm.

Preferably, the heat exchange runner in the cold plate base is that arc side is cross, and the fluid through-hole is arranged at arc side ten The center of font heat exchange runner；The cross heat exchange runner bottom in arc side is provided with multiple S types curve gullies.

Preferably, the heat exchange runner on the hot plate matrix is curved runner, and the fluid port is arranged at curved runner Center；The curved runner is not communicated completely around fluid port with fluid port.

The base shape of all heat exchange plates (cold drawing and hot plate have dividing plate, including dividing plate) in the heat exchanger core, In the same size, the projection on heat exchange plate projecting direction is overlapped.

The matrix of all heat exchange plates (cold drawing and hot plate have dividing plate, including dividing plate) is many in above-mentioned heat exchanger core Any one in side shape or circle, irregular figure, the heat exchanger core stacked can customize with environment shape, adaptation Specific space requirement.

Cover plate in above-mentioned heat exchanger core can be the metal materials such as stainless steel, titanium alloy, copper alloy or pottery The nonmetallic materials such as porcelain, PVC, thickness is more than heat exchange plate.

The beneficial effects of the utility model are：

The utility model proposes a kind of heat exchanger core for two or more fluid heat exchanges pass through heat exchanging plate The design of cold drawing and hot plate is carried out, multiple fluid is realized and exchanges heat simultaneously；Meanwhile, pass through the heat exchange runner knot to cold drawing and hot plate The design of structure is effectively increased the heat exchange efficiency of heat exchanger.

Brief description of the drawings

Fig. 1 is the main structure diagram of cold drawing of the one side described in the utility model provided with heat exchange runner.

Fig. 2 is the backsight structural representation of cold drawing of the one side described in the utility model provided with heat exchange runner.

Fig. 3 is the main structure diagram of cold drawing of the two sides described in the utility model provided with heat exchange runner.

Fig. 4 is the backsight structural representation of cold drawing of the two sides described in the utility model provided with heat exchange runner.

Fig. 5 is the main structure diagram of hot plate of the one side described in the utility model provided with heat exchange runner.

Fig. 6 is the backsight structural representation of hot plate of the one side described in the utility model provided with heat exchange runner.

Fig. 7 is the main structure diagram of hot plate of the two sides described in the utility model provided with heat exchange runner.

Fig. 8 is the backsight structural representation of hot plate of the two sides described in the utility model provided with heat exchange runner.

Fig. 9 is a kind of schematic diagram of matching structure of heat exchanger core described in the utility model.

Embodiment

The utility model is described further with reference to specific embodiment, but the utility model is not limited by embodiment System.

, it is necessary to explanation in description of the present utility model, term " " center ", " longitudinal direction ", " transverse direction ", " on ", " under ", The orientation or position relationship of the instruction such as "front", "rear", "left", "right", " top ", " bottom ", " interior ", " outer " and " endways " are based on attached Orientation or position relationship shown in figure, are for only for ease of description the utility model and are described with simplified, rather than indicate or imply Signified device or element must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to this The limitation of utility model.

In description of the present utility model, it is necessary to explanation, unless otherwise expressly provided and limit, term " installation ", " connected ", " connection " should be interpreted broadly, for example, it may be being fixedly connected or being detachably connected, or integratedly be connected Connect；Can be directly connected to, can also be indirectly connected with by intermediary, can be the connection of two components interiors.For For one of ordinary skill in the art, concrete meaning of the above-mentioned term in the utility model can be understood with concrete condition.

In addition, in description of the present utility model, unless otherwise indicated, " multiple ", " multigroup ", " many " are meant that two Individual or two or more.

Material therefor, instrument and method in implementation below, are this area conventional material, instrument without specified otherwise Device and method, can be obtained by commercial channel.

Embodiment 1

A kind of heat exchanger core for two or more fluid heat exchanges, including two heat exchange plate groups, and changed by two Hot plate groups, which are stacked alternately, to be formed；Each heat exchange plate group, which is carried, includes two in a kind of heat-exchange fluid, i.e. institute's heat exchanger core Plant heat-exchange fluid；Heat exchange plate includes cold drawing and hot plate；Wherein, cold drawing includes cold plate base, fluid through-hole and passes through chemistry It is etched in the heat exchange runner processed in cold plate base；Heat exchange runner in cold plate base is cross for arc side, as shown in figure 1, Fluid through-hole is arranged at the center of the cross heat exchange runner in arc side；The cross heat exchange runner bottom in arc side is provided with multiple S types Curve gully.Four ports of the cross heat exchange runner in arc side on cold drawing are located on the side of cold plate base, are flowed as heat exchange The import of body；Fluid through-hole as heat exchanging fluid corresponding with the port attribute of the heat exchange runner on cold drawing outlet；Hot plate bag Include hot plate matrix, fluid port and the heat exchange runner processed by chemical etching on hot plate matrix；Changing on hot plate matrix Hot flow path is curved runner, and fluid port is arranged at the center of curved runner, and curved runner is completely around fluid port, no Communicated with fluid port.Two ports of the curved runner on hot plate are located on the side of hot plate matrix, respectively heat exchanging fluid Inlet and outlet.It is stacked alternately outside rear exposed two heat exchange plate groups and is provided with cover plate, any cover plate is adjacent thereto Heat exchange plate group between have a dividing plate, dividing plate is the matrix for not etching heat exchange runner.

Include multiple heat exchange plates in each heat exchange plate group, multiple heat exchange plates include more than one cold drawing or heat Plate；The overlapping sequential of cold drawing and hot plate can freely arrange in pairs or groups；The heat exchanging fluid of various heat exchange plate (all cold drawings and hot plate) into and out of Mouth offsets one from another in the projection perpendicular to heat exchange plate direction, not overlapped each other, without any overlapped part；Fluid Through hole and fluid the port safety in the projection perpendicular to heat exchange plate direction are overlapping.Included in two adjacent heat exchange plate groups The heat exchange runner that is provided with of heat exchange plate there is overlapped part to be used for hot friendship in the projection in heat exchange plate direction Change.

In the present embodiment, heat exchange runner is entirely located in the one side of the cold plate base and hot plate matrix, cold plate base and heat The another side of plate matrix be plane, as shown in Figure 1, Figure 2 with shown in Fig. 5, Fig. 6；Whole cold plate bases and hot plate in heat exchanger core One side of the matrix provided with heat exchange runner is both facing to all heat exchange plate (cold drawing, hot plates in same direction, and heat exchanger core And dividing plate) matrix be circle.

Cold plate base and hot plate matrix can be made up of metal materials such as stainless steel, titanium alloy, copper alloys, also can be by making pottery The nonmetallic materials such as porcelain, PVC are made；The thickness of the cold plate base and hot plate matrix is 1.5-4.0mm, and surface roughness is 1.6-3.2 μm, flatness is less than 10 μm.Cold plate base and the section depth of the heat exchange runner on hot plate matrix are respectively cold drawing base The 60-75% of body and hot plate matrix, hydraulic diameter is 1.0-3.0mm.

Meanwhile, in heat exchanger core the matrix (cold plate base and hot plate matrix) of all heat exchange plates (cold drawing and hot plate) with And the shape, in the same size of dividing plate, the projection on heat exchange plate projecting direction is overlapped.Cover plate in heat exchanger core can To be the nonmetallic materials such as the metal materials such as stainless steel, titanium alloy, copper alloy or ceramics, PVC, thickness, which is more than, to exchange heat Plate.

Embodiment 2

The difference of embodiment 2 and embodiment 1 is, a kind of heat exchanger core for two or more fluid heat exchanges Portion, including 5 heat exchange plate groups, and be stacked alternately and form by 5 heat exchange plate groups, wherein, heat exchange plate group is stacked alternately It is any heat exchange plate in addition to its own to represent heat exchange plate group adjacent with any heat exchange plate group in heat exchanger core Group.Each heat exchange plate group, which is carried, includes 5 kinds of heat-exchange fluids in a kind of heat-exchange fluid, i.e. institute's heat exchanger core.On cold drawing The cross heat exchange runner in arc side four ports be located at cold plate base side on, be used as the import of heat exchanging fluid；Fluid leads to Hole as heat exchanging fluid corresponding with the port attribute of the heat exchange runner on cold drawing outlet；It is stacked alternately rear exposed two Non-inductive windings between cover plate, any cover plate heat exchange plate group adjacent thereto are provided with outside individual heat exchange plate group.

Heat exchange runner is entirely located in the one side of cold plate base and hot plate matrix；The another side of cold plate base and hot plate matrix is Plane；Whole cold plate bases and the heat exchange runner one side of hot plate matrix are both facing to same direction in each heat exchange plate group； Whole heat exchange runners one in different heat exchange plate groups are facing to can be different.When the border of two groups of adjacent heat exchange plate groups Hold the cold plate base or hot plate matrix of heat exchange plate provided with heat exchange runner one facing to different, in this border end heat exchange plate Between stack a dividing plate, wherein, dividing plate is not etch the matrix of heat exchange runner.Other parts and connected mode and embodiment 1 is identical.

Embodiment 3

The difference of embodiment 3 and embodiment 1 and embodiment 2 is, a kind of for two or more fluid heat exchanges Heat exchanger core, including 10 heat exchange plate groups, and be stacked alternately and form by 10 heat exchange plate groups, wherein, heat exchange plate group Be stacked alternately and represent that heat exchange plate group adjacent with any heat exchange plate group in heat exchanger core is appointing in addition to its own Meaning heat exchange plate group.Each heat exchange plate group, which is carried, includes 10 kinds of heat exchanges in a kind of heat-exchange fluid, i.e. institute's heat exchanger core Fluid.It is stacked alternately outside rear exposed two heat exchange plate groups and is provided with cover plate, any cover plate heat exchanger plates adjacent thereto There are dividing plate or non-inductive windings between piece group.The heat exchange runner of cold plate base and hot plate matrix is entirely located in the two sides of heat exchange plate (such as Shown in Fig. 3, Fig. 4 and Fig. 7, Fig. 8), each heat exchange plate both sides are provided with dividing plate.Other parts and connected mode and embodiment 1 It is identical with embodiment 2.

Embodiment 4

Embodiment 4 and the difference of above-described embodiment be, a kind of heat exchanger for two or more fluid heat exchanges Core, including 20 heat exchange plate groups, and be stacked alternately and form by 20 heat exchange plate groups, wherein, the alternating of heat exchange plate group Stack and represent that heat exchange plate group adjacent with any heat exchange plate group in heat exchanger core is any heat exchange in addition to its own Plate groups.Each heat exchange plate group, which is carried, includes 20 kinds of heat-exchange fluids in a kind of heat-exchange fluid, i.e. institute's heat exchanger core.Change Hot flow path is located at the one or both sides of cold plate base and hot plate matrix, between adjacent cold plate base and cold plate base, cold drawing base Heat exchange runner one side between body and hot plate matrix, between hot plate matrix and hot plate matrix is non-conterminous or adjacent, in heat exchange runner Simultaneously between adjacent cold plate base and cold plate base, between cold plate base and hot plate matrix, hot plate matrix and hot plate matrix it Between be provided with dividing plate.His part and connected mode is same as the previously described embodiments.

Although the utility model is disclosed as above with preferred embodiment, it is not limited to the utility model, appoints What person skilled in the art, is not departing from spirit and scope of the present utility model, can do various changes and modification, therefore What protection domain of the present utility model should be defined by claims is defined.

Claims (10)

1. a kind of heat exchanger core for two or more fluid heat exchanges, it is characterised in that described to be used for two or more fluids The heat exchanger core of heat exchange includes n heat exchange plate group, and is stacked alternately and forms by n heat exchange plate group, wherein, n is not Positive integer less than 2；Each heat exchange plate group carries a kind of heat-exchange fluid, the n heat exchange plate group carrying n kind heat Exchange fluid；The heat exchange plate includes cold drawing and hot plate；The cold drawing includes cold plate base, fluid through-hole and by chemistry erosion It is engraved in the heat exchange runner processed in cold plate base；The port of heat exchange runner on the cold drawing is located at the side of cold plate base On, it is used as the import or export of heat exchanging fluid；The fluid through-hole is as corresponding with the port attribute of the heat exchange runner on cold drawing Heat exchanging fluid outlet or import；The hot plate includes hot plate matrix, fluid port and by chemical etching in hot plate matrix On the heat exchange runner that processes；The port of heat exchange runner on the hot plate is located on the side of hot plate matrix, respectively exchanges heat The inlet and outlet of fluid；Each heat exchange plate group includes more than one cold drawing or hot plate；Different heat exchange plates are changed Hot fluid import and export offsets one from another in the projection perpendicular to heat exchange plate direction, not overlapped each other, without any overlapped Part；Fluid through-hole and fluid port safety in the projection perpendicular to heat exchange plate direction is overlapping.

2. it is used for the heat exchanger core of two or more fluid heat exchanges according to claim 1, it is characterised in that the alternating Stack and represent that heat exchange plate group adjacent with any heat exchange plate group in heat exchanger core is any heat exchange in addition to its own Plate groups.

3. it is used for the heat exchanger core of two or more fluid heat exchanges according to claim 2, it is characterised in that adjacent two The heat exchange runner that the heat exchange plate included in individual heat exchange plate group is provided with has mutually in the projection in heat exchange plate direction Overlapping part is used for heat exchange.

4. it is used for the heat exchanger core of two or more fluid heat exchanges according to claim 3, it is characterised in that the heat exchange Runner is entirely located in the one side of the cold plate base and hot plate matrix；The another side of the cold plate base and hot plate matrix is flat The one side of whole cold plate bases and hot plate matrix provided with heat exchange runner is both facing to same direction in face, heat exchanger core.

5. it is used for the heat exchanger core of two or more fluid heat exchanges according to claim 3, it is characterised in that the heat exchange Runner is entirely located in the one side of cold plate base and hot plate matrix；The another side of the cold plate base and hot plate matrix is plane；Institute The heat exchange runner one side of cold plate base whole in each heat exchange plate group and hot plate matrix is stated both facing to same direction；It is adjacent Two groups of heat exchange plate groups border end heat exchange plate cold plate base or hot plate matrix provided with heat exchange runner one facing to not With, a dividing plate is stacked between this border end heat exchange plate, the dividing plate is the matrix for not etching heat exchange runner.

6. the heat exchanger core according to claim 3 for two or more fluid heat exchanges, it is characterised in that described to change Hot flow path is entirely located in the two sides of heat exchange plate, and each heat exchange plate both sides are provided with dividing plate, and the dividing plate flows not etch heat exchange The matrix in road.

7. the heat exchanger core according to claim 3 for two or more fluid heat exchanges, it is characterised in that described to change Hot flow path is located at the one or both sides of cold plate base and hot plate matrix, between adjacent cold plate base and cold plate base, cold drawing base Heat exchange runner one side between body and hot plate matrix, between hot plate matrix and hot plate matrix is non-conterminous or adjacent, in heat exchange runner Simultaneously between adjacent cold plate base and cold plate base, between cold plate base and hot plate matrix, hot plate matrix and hot plate matrix it Between be provided with dividing plate, the dividing plate is not etch the matrix of heat exchange runner.

8. it is used for the heat exchanger core of two or more fluid heat exchanges according to claim 1-7 is any, it is characterised in that hand over Cover plate is provided with outside rear exposed two heat exchange plate groups for stacking, any cover plate and heat exchange plate group adjacent thereto it Between have dividing plate or non-inductive windings.

9. it is used for the heat exchanger core of two or more fluid heat exchanges according to claim 8, it is characterised in that the cold drawing Matrix and hot plate matrix can be made up of stainless steel, titanium alloy, Cu alloy material, can be also made up of ceramics, PVC material；It is described The thickness of cold plate base and hot plate matrix is 1.5-4.0mm, and surface roughness is 1.6-3.2 μm, and flatness is less than 10 μm；It is described Cold plate base and the section depth of the heat exchange runner on hot plate matrix are respectively the 60-75% of cold plate base and hot plate matrix, water Aerodynamic diameter is 1.0-3.0mm.

10. it is used for the heat exchanger core of two or more fluid heat exchanges according to claim 9, it is characterised in that described cold Heat exchange runner on plate matrix is cross for arc side, and the fluid through-hole is arranged at the centre bit of the cross heat exchange runner in arc side Put；The cross heat exchange runner bottom in arc side is provided with multiple S types curve gullies；Heat exchange runner on the hot plate matrix is curved stream Road, the fluid port is arranged at the center of curved runner；The curved runner is completely around fluid port, not with fluid Port is communicated.