CN111578769A

CN111578769A - Heat exchange plate capable of being spliced quickly

Info

Publication number: CN111578769A
Application number: CN202010378922.1A
Authority: CN
Inventors: 吕新哲; 刘俊秀; 韩芳明; 张文达
Original assignee: Aerospace Hiwing Harbin Titanium Industrial Co Ltd
Current assignee: Aerospace Hiwing Harbin Titanium Industrial Co Ltd
Priority date: 2020-05-07
Filing date: 2020-05-07
Publication date: 2020-08-25

Abstract

The invention provides a heat exchange plate capable of being quickly spliced, wherein a plurality of module units I, a plurality of module units II, a plurality of module units III and a plurality of module units IV of the heat exchange plate are spliced into an integral heat exchange plate, each of the module units I, the module units II, the module units III and the module units IV comprises a plurality of quick connectors, a plurality of reserved pipelines and a plurality of unit inner pipelines, one end of each unit inner pipeline is connected with the quick connector, the other end of each unit inner pipeline is connected with the reserved pipeline, and the reserved pipelines correspond to the quick connectors of the other module units during splicing to realize quick splicing. The problem of traditional refrigeration slab processing degree of difficulty when the hot side area is big be the index and rise, and receive the area restriction, whole slab has big deformation installation inconvenient, causes the price of large tracts of land heating panel to be high at all, and production cycle is long, seriously influences the user and uses is solved, adopts the module unit slab concatenation mode to carry out laying of refrigeration face, reduces the processing degree of difficulty of large tracts of land heat dissipation surface, realizes no pipeline and splices rapidly.

Description

Heat exchange plate capable of being spliced quickly

Technical Field

The invention particularly relates to a heat exchange plate capable of being spliced quickly, and belongs to the technical field of heat exchange equipment.

Background

The processing degree of difficulty is exponential when hot side area is big for traditional refrigeration slab, receives the area restriction moreover, and whole slab has great deformation installation inconvenient, causes the price of large tracts of land heating panel to remain high, and production cycle is long, seriously influences the user and uses.

Disclosure of Invention

Aiming at the problems in the background technology, the invention provides a heat exchange plate sheet capable of being quickly spliced, in order to realize the refrigeration of a complex variable heat source, a mode of splicing modular unit plate sheets is adopted to lay a refrigeration surface, the processing difficulty of a large-area heat dissipation surface is reduced, and the pipeline-free quick splicing is realized.

The invention provides a heat exchange plate capable of being quickly spliced, which comprises a plurality of module units I, a plurality of module units II, a plurality of module units III and a plurality of module units IV, wherein the module units I, the module units II, the module units III and the module units IV are spliced into an integral heat exchange plate, the module units I, the module units II, the module units III and the module units IV respectively comprise a plurality of quick connectors, a plurality of reserved pipelines and a plurality of unit inner pipelines, one end of each unit inner pipeline is connected with the quick connector, the other end of each unit inner pipeline is connected with the reserved pipeline, and the reserved pipelines correspond to the quick connectors of the other module unit when being spliced, so that quick splicing is realized.

Preferably, first modular unit includes two quick-operation joints, two reserve pipelines and two in-unit pipelines, two in-unit pipelines that are parallel to each other have been laid in first modular unit, and two quick-operation joints are located the both ends of first modular unit respectively.

Preferably, the second module unit comprises two quick connectors, two reserved pipelines and two in-unit pipelines, the two in-unit pipelines are concentrically laid in the second module unit, the two in-unit pipelines are laid in an L shape, and the two quick connectors are respectively located on two sides, perpendicular to each other, of the first module unit.

Preferably, the third module unit comprises three quick connectors, three reserved pipelines and three in-unit pipelines, the three in-unit pipelines laid in the third module unit form a T shape, two in-unit pipelines are laid back to back in an L shape, the other in-unit pipeline is parallel to the vertical edges of the other two in-unit pipelines, and the three quick connectors are respectively located on three sides of the first module unit.

Preferably, the module unit four comprises a quick connector, a reserved pipeline and an in-unit pipeline, and the in-unit pipeline laid in the module unit four forms a shape of a Chinese character 'ji'.

The heat exchange plate sheet capable of being quickly spliced has the beneficial effects that:

1. the heat exchange plate capable of being quickly spliced adopts a modular structure mode, is quickly spliced and molded through the built-in quick connector, designs the original large-area plate into a spliced module unit plate, and is more standardized.

2. The heat exchange plate sheet capable of being quickly spliced, disclosed by the invention, adopts a mode of splicing module unit plate sheets to lay a refrigerating surface, reduces the processing difficulty of a large-area radiating surface, and realizes quick splicing without pipelines.

3. The heat exchange plate sheet capable of being quickly spliced disclosed by the invention adopts a modular design, so that the product is more standardized, the production efficiency is improved, the purchasing time and cost are reduced, and the heat exchange plate sheet has the advantages of convenience in use, cost saving and the like.

Drawings

FIG. 1 is a schematic structural diagram of a first module unit according to the present invention;

FIG. 2 is a schematic diagram of the splicing of two modular units I according to the present invention;

FIG. 3 is a schematic structural diagram of a second module unit according to the present invention;

FIG. 4 is a schematic structural diagram of a third module unit according to the present invention;

FIG. 5 is a schematic structural diagram of a module unit IV according to the present invention

FIG. 6 is a first schematic diagram of the overall splicing of the present invention;

FIG. 7 is a second schematic diagram of the overall splice of the present invention;

reference numerals: 1-a fast interface; 2-reserving a pipeline; 3-a unit internal pipeline; 4-module unit one; 5-module unit two; 6-module unit three; 7-modular unit four.

Detailed Description

The following detailed description of embodiments of the invention is provided in conjunction with the appended drawings:

the first embodiment is as follows: the present embodiment is explained with reference to fig. 1 to 7. This embodiment can splice heat transfer slab fast, including a plurality of modular unit 4, a plurality of modular unit two 5, a plurality of modular unit three 6 and a plurality of modular unit four 7, a plurality of modular unit 4, a plurality of modular unit two 5, a plurality of modular unit three 6 and a plurality of modular unit four 7 splice into whole heat transfer slab, modular unit 4, modular unit two 5, modular unit three 6 and modular unit four 7 all include a plurality of quick-operation joint 1, a plurality of reservation pipeline 2 and a plurality of in-unit pipeline 3, quick-operation joint 1 is connected to the one end of in-unit pipeline 3, and reservation pipeline 2 is connected to the other end, and when the concatenation, will reserve pipeline 2 and the quick-operation joint 1 of another modular unit corresponds, realizes quick concatenation.

The first module unit 4 comprises two quick connectors 1, two reserved pipelines 2 and two in-unit pipelines 3, the two in-unit pipelines 3 which are parallel to each other are laid in the first module unit 4, and the two quick connectors 1 are respectively located at two ends of the first module unit 4.

The second module unit 5 comprises two quick connectors 1, two reserved pipelines 2 and two in-unit pipelines 3, the two in-unit pipelines 3 are concentrically laid in the second module unit 5, the two in-unit pipelines 3 are laid in an L shape, and the two quick connectors 1 are respectively located on two sides, perpendicular to each other, of the second module unit 5.

The third module unit 6 comprises three quick connectors 1, three reserved pipelines 2 and three in-unit pipelines 3, the three in-unit pipelines 3 laid in the third module unit 6 form a T shape, wherein the two in-unit pipelines 3 are laid oppositely in an L shape, the other in-unit pipeline 3 is parallel to the vertical sides of the other two in-unit pipelines 3, and the three quick connectors 1 are respectively positioned on three sides of the third module unit 6.

The module unit IV 7 comprises a quick connector 1, a reserved pipeline 2 and an in-unit pipeline 3, and the in-unit pipeline 3 laid in the module unit IV 7 is shaped like a Chinese character 'ji'.

The unit inner pipeline 3 can be a straight pipeline or a curve pipeline. The structural form of the unit includes, but is not limited to, the plate unit form shown in fig. 1-5. The module unit is made in the form of diffusion welding, brazing, etc. The reserved pipeline 2 can be a preset plate internal pipeline or be connected with the module unit in a threaded or welding mode.

The heat exchange plate sheet capable of being quickly spliced provided by the invention achieves the change of the whole coverage area through the splicing and assembling of different module units, the module units can be made of stainless steel, titanium and titanium alloy, aluminum and aluminum alloy and other materials, and the unit shapes can be triangular, hexagonal, quadrilateral, circular and other shapes.

The above-mentioned embodiments further explain the objects, technical solutions and advantages of the present invention in detail. It should be understood that the above-mentioned embodiments are only examples of the present invention, and are not intended to limit the present invention, and that the reasonable combination of the features described in the above-mentioned embodiments can be made, and any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A heat exchange plate capable of being quickly spliced is characterized by comprising a plurality of module units I (4), a plurality of module units II (5), a plurality of module units III (6) and a plurality of module units IV (7), wherein the module units I (4), the module units II (5), the module units III (6) and the module units IV (7) are spliced into an integral heat exchange plate, each of the module units I (4), the module units II (5), the module units III (6) and the module units IV (7) comprises a plurality of quick connectors (1), a plurality of reserved pipelines (2) and a plurality of unit inner pipelines (3), one end of each unit inner pipeline (3) is connected with one quick connector (1), the other end of each unit inner pipeline is connected with one reserved pipeline (2), and the reserved pipelines (2) correspond to the quick connectors (1) of the other module units during splicing, and the quick splicing is realized.

2. The heat exchange plate capable of being rapidly spliced according to claim 1, wherein the first module unit (4) comprises two rapid connectors (1), two reserved pipelines (2) and two in-unit pipelines (3), the two in-unit pipelines (3) which are parallel to each other are laid in the first module unit (4), and the two rapid connectors (1) are respectively located at two ends of the first module unit (4).

3. The heat exchange plate capable of being quickly spliced according to claim 1, wherein the second modular unit (5) comprises two quick connectors (1), two reserved pipelines (2) and two in-unit pipelines (3), the two in-unit pipelines (3) are concentrically laid in the second modular unit (5), the two in-unit pipelines (3) are both laid in an L shape, and the two quick connectors (1) are respectively located on two sides, perpendicular to each other, of the second modular unit (5).

4. The heat exchange plate sheet capable of being quickly spliced according to claim 1, wherein the third modular unit (6) comprises three quick connectors (1), three reserved pipelines (2) and three in-unit pipelines (3), the three in-unit pipelines (3) laid in the third modular unit (6) form a T shape, two in-unit pipelines (3) are laid back to back in an L shape, the other in-unit pipeline (3) is parallel to the vertical sides of the other two in-unit pipelines (3), and the three quick connectors (1) are respectively located on three sides of the third modular unit (6).

5. The quick-splicing heat exchange plate according to claim 1, wherein the modular unit four (7) comprises a quick connector (1), a reserved pipeline (2) and an in-unit pipeline (3), and the in-unit pipeline (3) laid in the modular unit four (7) is shaped like a Chinese character 'ji'.