CN202770289U - Plate heat exchanger and supporting structure thereof - Google Patents

Abstract

Provided is a plate heat exchanger and a supporting structure thereof. The plate heat exchange comprises a shell provided with a cavity and the supporting structure arranged in the cavity. The supporting structure comprises a plurality of framework portions and a plurality of supporting portions, wherein the framework portions are arranged at intervals and the supporting portions are respectively connected between any two adjacent framework portions, and the supporting portions and the framework portions are connected to form a plurality of hollowed-out zones in an enclosure mode. The supporting portions are of vertical states, and the supporting portions and the framework portions are of twisted staggered states. The upper portion and the lower portion of each supporting portion are respectively provided with an abutting edge, and the abutting edges are respectively abutted against the upper inner side and the lower inner side of the shell.

Description

Plate heat exchanger and supporting construction thereof

Technical field

The utility model is relevant with a kind of heat-conduction component, particularly a kind of plate heat exchanger and supporting construction thereof.

Background technology

General plate heat exchanger roughly comprises temperature-uniforming plate (vapor chamber); the kenels such as flat-shaped or Platelike heat pipe (plate type heat pipe); it mainly has the hollow housing that is a flat; form chamber in this housing; for capillary structure is set; working fluid; and section arranges supporting construction in the inner usually; use when carrying out the internal gettering operation for plate heat exchanger; avoid producing the problems such as depression because vacuumizing the surface of shell that causes being flat; so that plate heat exchanger is when contacting such as the electronic heating element surface; contact with the smooth of face because aforementioned depression problem can't reach face, cause contact upper between crack and increase air dielectric; and then impact heat passes effect.

Yet, the supporting construction of plate heat exchanger inside in the past, often by a plurality of columns be distributed in consist of in the plate body or by a slim plate thereon Curved Continuous fold wavy structure, with as supporting construction.But these supporting constructions are unfavorable for assembling a bit, some is not good enough on support strength or effect; The supporting construction that for example consists of with a plurality of column distributions, since between each column without any connection relationship, so that be unfavorable for being assemblied in the contraposition in the plate body, and wavy supporting construction often also lacks the support effect of sufficient intensity, effectively the flatness of retaining plate surface.

In view of this, the inventor is for improving and solve above-mentioned disappearance, and the spy concentrates on studies and cooperates the utilization of scientific principle, finally proposes a kind of reasonable in design and effectively improve the utility model of above-mentioned disappearance.

The utility model content

Main purpose of the present utility model, being to provide a kind of plate heat exchanger and supporting construction thereof, and it has the supporting construction of better support effect by a plurality of support portions that are erected in the up and down interior volume of plate heat exchanger housing with formation.

For reaching above-mentioned purpose, the utility model provides a kind of plate heat exchanger, and it comprises:

One housing, its inside has a chamber; And

One supporting construction is located in this chamber, and this supporting construction comprises:

A plurality of skeleton portion are spaced apart from each other; And

A plurality of support portions are connected between any two adjacent described skeleton portion, and are connected with these a plurality of skeleton portion and surround and be formed with a plurality of vacancy sections, and respectively this support portion is for erectting kenel, and respectively this support portion is the staggered kenel of reversing with this skeleton portion respectively;

Wherein, respectively the upper and lower place of this support portion is formed with respectively one to edge, and is resisted against respectively upper and lower two inboards of this housing.

Described plate heat exchanger, wherein, this housing comprises the second coverboard that one first coverboard and covers mutually with this first coverboard, and described chamber namely is formed between this first coverboard and the second coverboard.

Described plate heat exchanger wherein, is pasted with capillary structure on this chamber inner wall face, and has sealed working fluid up for safekeeping in chamber.

Described plate heat exchanger, wherein, respectively this skeleton portion is positioned on the same level face and is horizontal or tilting kenel.

Described plate heat exchanger, wherein, respectively this support portion is 90 degree with the windup-degree of this skeleton portion respectively.

Described plate heat exchanger, wherein, this two ends, support portion and respectively be formed with respectively the link that reverses between this skeleton portion respectively.

Described plate heat exchanger, wherein, this supporting construction by a plate body through punching press and bending and moulding.

Described plate heat exchanger, wherein, described plate body is metallic plate.

Described plate heat exchanger, wherein, respectively this skeleton portion is provided with at least one pore.

Described plate heat exchanger, wherein, respectively this support portion is provided with at least one pore.

The utility model also provides a kind of supporting construction of plate heat exchanger, and it comprises:

A plurality of skeleton portion are spaced apart from each other; And

A plurality of support portions are connected between any two adjacent described skeleton portion, and are connected with these a plurality of skeleton portion and surround and be formed with a plurality of vacancy sections, and respectively this support portion is for erectting kenel, and respectively this support portion is the staggered kenel of reversing with this skeleton portion respectively.

The supporting construction of described plate heat exchanger, wherein, respectively this skeleton portion is positioned on the same level face and is horizontal or tilting kenel.

The supporting construction of described plate heat exchanger, wherein, respectively this support portion is 90 degree with the windup-degree of this skeleton portion respectively.

The supporting construction of described plate heat exchanger, wherein, this two ends, support portion and respectively be formed with respectively the link that reverses between this skeleton portion respectively.

The supporting construction of described plate heat exchanger, wherein, described supporting construction by a plate body through punching press and bending and moulding.

The supporting construction of described plate heat exchanger, wherein, described plate body is metallic plate.

The supporting construction of described plate heat exchanger, wherein, respectively this skeleton portion is provided with at least one pore.

The supporting construction of described plate heat exchanger, wherein, respectively this support portion is provided with at least one pore.

The beneficial effects of the utility model are: by a plurality of support portions that are erected in the up and down interior volume of plate heat exchanger housing, have the supporting construction of better support effect with formation.

Description of drawings

Fig. 1 is the perspective exploded view of the utility model plate heat exchanger;

Fig. 2 is the generalized section of the utility model supporting construction;

Fig. 3 is the generalized section of the utility model plate heat exchanger;

Fig. 4 is the inner schematic diagram that produces heat exchange action of the utility model plate heat exchanger;

Fig. 5 is the schematic top plan view of the utility model supporting construction the first embodiment;

Fig. 6 is the schematic top plan view of the utility model supporting construction the second embodiment.

Description of reference numerals: housing 1; The first coverboard 10; Capillary structure 100; The second coverboard 11; Capillary structure 110; Chamber 12; Supporting construction 2; Skeleton portion 20; Pore 200; Support portion 21; Pore 210; Link 211; Support edge 212; Vacancy section 23.

The specific embodiment

In order further to disclose feature of the present utility model and technology contents, see also following about detailed description of the present utility model and accompanying drawing, yet appended accompanying drawing only provide with reference to and the explanation usefulness, the utility model is limited.

See also Fig. 1, be the perspective exploded view of the utility model plate heat exchanger.The utility model provides a kind of plate heat exchanger and supporting construction thereof, this plate heat exchanger can be temperature-uniforming plate (vapor chamber), flat-shaped or Platelike heat pipe (plate type heat pipe), and it is interior in order to support its inner supporting construction 2 to comprise that a housing 1 and is located at this housing 1; Wherein:

This housing 1 the utility model for embodiment in, can comprise the second coverboard 11 that one first coverboard 10 and covers mutually with this first coverboard 10, and between described first and second coverboard 10,11, form a chamber 12(who is formed by this first and second coverboard 10,11 involutions namely as shown in Figure 3), be pasted with capillary structure 100,110 on these chamber 12 internal faces, described capillary structure 100,110 can be groove, mesh grid, powder sintered or its compound kenel etc. and forms.In addition, plate heat exchanger has further been sealed working fluid (figure slightly) up for safekeeping in this chamber 12.

This supporting construction 2 can be by first again brake forming after punching press of a plate body (such as metallic plate).See also Fig. 2 to shown in Figure 5, a plurality of support portions 21 that this supporting construction 2 comprises a plurality of skeleton portion 20 that are spaced apart from each other and is connected to 20 of any two adjacent described skeleton portion, wherein, each skeleton portion 20 in fact all is positioned on the same level face and is horizontal or tilting kenel, and 21 of each support portions are by being formed with a plurality of vacancy sections 23 with being connected with encirclement of skeleton portion 20, so institute's moulding behind the material can be gone by aforementioned plate body in each skeleton portion 20 and support portion 21 through punching press and with vacancy section 23; Simultaneously, each support portion 21 is for erectting kenel, i.e. the brake forming of aforementioned plate body refers to carry out reversing of certain angle for each support portion 21, and for example 90 spend, and is respectively for support portion 21 and skeleton portion 20 and erects and horizontal staggered kenel.And the utility model for embodiment in, all at least one pore 200,210 can be set further on each skeleton portion 20 and the support portion 21, but the circulate of working fluid in its chamber 12 in the effective supply plate heat exchanger is effectively to carry out phase change and heat exchange action thereof (namely as shown in Figure 4); In addition, because support portion 21 can the brake forming by reversing, so each 21 two ends, support portion and 20 of skeleton portion are formed with respectively the link 211 after reversing.

See also again Fig. 3 and shown in Figure 4, this supporting construction 2 is located in first and second coverboard 10,11 chamber 12 of above-mentioned housing 1, and the upper and lower place of each support portion 21 of supporting construction 2 is formed with respectively one and supports edge 212, in order to upper and lower two inboards that are resisted against respectively housing 1 (being on the capillary structure 100,110 in first and second coverboard 10,11), to provide housing 1 required support effect.Because each support portion 21 is the setting kenel, so have good support performance and can produce in the chamber 12 that enough intensity is resisted against housing 1, to provide larger compressive resistance to keep first and second coverboard 10,11 distance, inwardly produce the problems such as depressions to prevent first and second coverboard 10,11.

Be with, rely on above-mentioned contexture, can obtain the utility model plate heat exchanger and supporting construction thereof.

Moreover such as Fig. 5 and shown in Figure 6, supporting construction 2 of the present utility model is connected with skeleton portion 20 in each support portion 21 and surrounds the vacancy section 23 that forms, and quadrangle that can be as shown in Figure 5 or triangle as shown in Figure 6 all can.Certainly, other polygon is enforceable aspect also, and helps to increase the quantity of support portion 21 and provide housing 1 more intensive support effect.

In sum, the utility model is real to be rare novel practical novel product, it really can reach the application target of expection, and the disappearance of solution prior art, because having novelty and progressive, meeting new patent application important document fully again, files an application according to Patent Law in the whence, would like to ask detailed survey and grant accurate the utility model patent, to ensure applicant's right.

Only the above only is better possible embodiments of the present utility model, non-so namely arrest limit claim of the present utility model, so the equivalent structure that such as uses the utility model specification and accompanying drawing content to do changes, and all in like manner all is contained in the scope of the present utility model, closes and gives Chen Ming.

Claims (18)

1. a plate heat exchanger is characterized in that, comprising:

One housing, its inside has a chamber; And

One supporting construction is located in this chamber, and this supporting construction comprises:

A plurality of skeleton portion are spaced apart from each other; And

A plurality of support portions are connected between any two adjacent described skeleton portion, and are connected with these a plurality of skeleton portion and surround and be formed with a plurality of vacancy sections, and respectively this support portion is for erectting kenel, and respectively this support portion is the staggered kenel of reversing with this skeleton portion respectively;

Wherein, respectively the upper and lower place of this support portion is formed with respectively one to edge, and is resisted against respectively upper and lower two inboards of this housing.

2. plate heat exchanger as claimed in claim 1 is characterized in that, this housing comprises the second coverboard that one first coverboard and covers mutually with this first coverboard, and described chamber namely is formed between this first coverboard and the second coverboard.

3. plate heat exchanger as claimed in claim 1 or 2 is characterized in that, is pasted with capillary structure on this chamber inner wall face, and has sealed working fluid up for safekeeping in chamber.

4. plate heat exchanger as claimed in claim 1 is characterized in that, respectively this skeleton portion is positioned on the same level face and is horizontal or tilting kenel.

5. plate heat exchanger as claimed in claim 1 is characterized in that, respectively this support portion is 90 degree with the windup-degree of this skeleton portion respectively.

6. such as claim 4 or 5 described plate heat exchangers, it is characterized in that, respectively this two ends, support portion and respectively be formed with respectively the link that reverses between this skeleton portion.

7. plate heat exchanger as claimed in claim 6 is characterized in that, this supporting construction by a plate body through punching press and bending and moulding.

8. plate heat exchanger as claimed in claim 7 is characterized in that, described plate body is metallic plate.

9. plate heat exchanger as claimed in claim 1 is characterized in that, respectively this skeleton portion is provided with at least one pore.

10. such as claim 1 or 9 described plate heat exchangers, it is characterized in that respectively this support portion is provided with at least one pore.

11. the supporting construction of a plate heat exchanger is characterized in that, comprising:

A plurality of skeleton portion are spaced apart from each other; And

A plurality of support portions are connected between any two adjacent described skeleton portion, and are connected with these a plurality of skeleton portion and surround and be formed with a plurality of vacancy sections, and respectively this support portion is for erectting kenel, and respectively this support portion is the staggered kenel of reversing with this skeleton portion respectively.

12. the supporting construction of plate heat exchanger as claimed in claim 11 is characterized in that, respectively this skeleton portion is positioned on the same level face and is horizontal or tilting kenel.

13. the supporting construction of plate heat exchanger as claimed in claim 11 is characterized in that, respectively this support portion is 90 degree with the windup-degree of this skeleton portion respectively.

14. the supporting construction such as claim 12 or 13 described plate heat exchangers is characterized in that, respectively this two ends, support portion and respectively be formed with respectively the link that reverses between this skeleton portion.

15. the supporting construction of plate heat exchanger as claimed in claim 14 is characterized in that, described supporting construction by a plate body through punching press and bending and moulding.

16. the supporting construction of plate heat exchanger as claimed in claim 15 is characterized in that, described plate body is metallic plate.

17. the supporting construction of plate heat exchanger as claimed in claim 11 is characterized in that, respectively this skeleton portion is provided with at least one pore.

18. the supporting construction such as claim 11 or 17 described plate heat exchangers is characterized in that respectively this support portion is provided with at least one pore.

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