CN205878695U - A seal structure , baffling board and dry type evaporator for baffling board - Google Patents

Abstract

The utility model provides a seal structure, baffling board and dry type evaporator for baffling board, wherein, this seal structure includes the sealing strip. The clearance between baffling board and the barrel inner wall is sealed through the sealing strip, the bypass of refrigerated water can be effectively prevented to effectively improve dry type evaporator's heat exchange efficiency. Further, thereby surround the perhaps installation of embedding realization sealing strip in the recess of protruding portion, the simple and easy operation of mounting structure through the basal portion that makes the sealing strip. Further, form through fixed part with seal structure and baffling board are integrative, preparation simple process, the size uniformity is good.

Description

Sealing structure, deflection plate and dry evaporator for deflection plate

Technical field

This utility model relates to refrigeration technology field, particularly relate to a kind of sealing structure for deflection plate, deflection plate and Dry evaporator.

Background technology

Along with the commonly used of Refrigeration Technique and the worsening shortages of the energy, for refrigeration and the joint of Refrigeration Technique The requirement of energy is more and more higher.Heat transmission equipment is the vitals in refrigeration system, nowadays, the refrigeration master of the refrigeration systems such as air-conditioning The commonly used dry evaporator of machine is as main heat transmission equipment.The refrigeration system of employing dry evaporator, its coolant filling weight, Reliability and stability and the equipment investment cost of oil return have the biggest advantage, and tool relative to full liquid vaporizer and falling film evaporator Compact in standby structure, the features such as system controls simple, follow-up maintenance low cost, therefore, dry evaporator obtains extensively should With.

The raising required energy-conserving and environment-protective along with society, the requirement for refrigeration host computer efficiency improves the most therewith.Dry type is steamed Send out device, as main heat transmission equipment, the height of its heat exchange efficiency, the efficiency of refrigeration host computer is had important impact.Existing Dry evaporator in, coolant moves at tube side effluent, and chilled water is at shell fluid flow, in order to improve heat exchange efficiency, can be by making Obtain chilled water to realize in shell side turbulization.Wherein, by arranging deflection plate so that the runner that chilled water flow is set, Thus turbulization, improve the heat-exchange capacity between chilled water and coolant.Due to the folding being arranged in the cylinder of dry evaporator There is certain gap between stream plate and cylinder, cause a large amount of chilled water to bypass, cause dry evaporator heat exchange efficiency significantly Reduce.

It should be noted that introduction to technical background above is intended merely to convenient carry out the technical solution of the utility model clearly Chu, complete explanation, and facilitate the understanding of those skilled in the art to illustrate.Can not be merely because these schemes be in this practicality Novel background section is set forth and thinks that technique scheme is known to those skilled in the art.

Utility model content

This utility model embodiment provides a kind of sealing structure, deflection plate and dry evaporator for deflection plate, it is possible to Effectively prevent the bypass of chilled water, thus be effectively improved the heat exchange efficiency of dry evaporator.

First aspect according to this utility model embodiment, it is provided that a kind of sealing structure for deflection plate, wherein, described Seal structure and include sealing strip.

According to the second aspect of this utility model embodiment, wherein, described sealing structure also includes fixed part, described sealing Bar is arranged on described fixed part.

According to the third aspect of this utility model embodiment, wherein, described sealing strip includes base portion and protuberance, described sealing Bar is arranged on described fixed part by described base portion.

According to the fourth aspect of this utility model embodiment, wherein, described fixed part includes protuberance, described sealing strip Base portion surrounds described protuberance.

The 5th aspect according to this utility model embodiment, wherein, the cross section of described protuberance is rectangle, circular or oval Shape.

The 6th aspect according to this utility model embodiment, wherein, the width of described protuberance is 3mm～30mm, described The height of protuberance is 1mm～20mm.

The 7th aspect according to this utility model embodiment, wherein, described fixed part includes groove, the base of described sealing strip Portion is embedded in described groove.

According to the eighth aspect of this utility model embodiment, wherein, the cross section of described groove is triangle, circular or oval Shape.

The 9th aspect according to this utility model embodiment, wherein, the degree of depth of described groove is 2mm～20mm.

The tenth aspect according to this utility model embodiment, wherein, the A/F of described groove is less than in described groove The width in portion.

The 11st aspect according to this utility model embodiment, wherein, described sealing strip is flexible sealing strip.

The 12nd aspect according to this utility model embodiment, wherein, described sealing strip is flexible rubber weather strip.

The 13rd aspect according to this utility model embodiment, it is provided that a kind of deflection plate, wherein, described deflection plate includes root According to the first aspect of this utility model embodiment to the sealing structure described in any one in the 12nd aspect, described sealing structure Being arranged on the perimembranous of described deflection plate, the sealing strip of described sealing structure extends along the perimembranous of described deflection plate.

According to the fourteenth aspect of this utility model embodiment, wherein, the fixed part of described sealing structure and described baffling Plate is integrally formed, or, the fixed part of described sealing structure is formed respectively with described deflection plate and connects as one.

The 15th aspect according to this utility model embodiment, wherein, described deflection plate is plane deflection plate or spiral folding Stream plate.

The 16th aspect according to this utility model embodiment, wherein, described sealing structure is arranged on described deflection plate In part perimembranous or whole perimembranous.

The 17th aspect according to this utility model embodiment, wherein, described deflection plate is plastics deflection plate.

The 18th aspect according to this utility model embodiment, wherein, described deflection plate has multiple through hole.

The 19th aspect according to this utility model embodiment, wherein, the thickness of described deflection plate is 2mm～20mm.

The 20th aspect according to this utility model embodiment, it is provided that a kind of dry evaporator, wherein, described dry type is evaporated Device includes: cylinder；And the 13rd aspect according to this utility model embodiment being arranged in described cylinder is to the 19th side The deflection plate described in any one in face；Wherein, sealing strip and the cylinder of the described sealing structure of described deflection plate perimembranous it are arranged on Internal wall is in close contact and forms sealing.

The beneficial effects of the utility model are: close the gap between deflection plate and cylinder inboard wall, energy by sealing strip Enough bypass effectively preventing chilled water, thus it is effectively improved the heat exchange efficiency of dry evaporator.Further, by making sealing strip Base portion surround protuberance or embed in a groove thus realize the installation of sealing strip, mounting structure is simple and easily operated. Further, by being integrally formed with deflection plate by the fixed part sealing structure, processing technology is simple, and dimensional uniformity is good.

With reference to explanation hereinafter and accompanying drawing, disclose in detail particular implementation of the present utility model, specify this practicality Novel principle can be in adopted mode.It should be understood that embodiment of the present utility model in scope not thus be subject to Limit.In the range of the spirit and terms of claims, embodiment of the present utility model includes many changes, amendment And equivalent.

The feature described for a kind of embodiment and/or illustrate can be in same or similar mode one or more Other embodiment individual uses, combined with the feature in other embodiment, or substitute the feature in other embodiment.

It should be emphasized that term " includes/comprises " existence referring to feature, one integral piece, step or assembly herein when using, but also It is not excluded for the existence of one or more further feature, one integral piece, step or assembly or additional.

Accompanying drawing explanation

Included accompanying drawing is used for providing being further understood from this utility model embodiment, which constitutes description A part, is used for illustrating embodiment of the present utility model, and comes together to explain principle of the present utility model with word description.Aobvious And easy insight, the accompanying drawing in describing below is only embodiments more of the present utility model, for those of ordinary skill in the art From the point of view of, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.In the accompanying drawings:

Fig. 1 is a sectional view of the sealing structure of this utility model embodiment 1；

Fig. 2 is another sectional view of the sealing structure of this utility model embodiment 1；

Fig. 3 is a front view of the deflection plate of this utility model embodiment 2；

Fig. 4 is an enlarged section in A-A direction in Fig. 3；

Fig. 5 is another enlarged section in A-A direction in Fig. 3；

Fig. 6 is a front view of the deflection plate of this utility model embodiment 3；

Fig. 7 is a side view of the deflection plate of this utility model embodiment 3；

Fig. 8 is an enlarged section in A-A direction in Fig. 6；

Fig. 9 is another enlarged section in A-A direction in Fig. 6；

Figure 10 is the structure chart of the dry evaporator of this utility model embodiment 4；

Figure 11 is the sectional view in A-A direction in Figure 10；

Figure 12 is an enlarged drawing of part B in Figure 10；

Figure 13 is another enlarged drawing of part B in Figure 10；

Figure 14 is the structure chart of the dry evaporator of this utility model embodiment 5；

Figure 15 is the sectional view in A-A direction in Figure 14；

Figure 16 is an enlarged drawing of part B in Figure 14；

Figure 17 is another enlarged drawing of part B in Figure 14.

Detailed description of the invention

Referring to the drawings, by description below, of the present utility model aforementioned and further feature will be apparent from.Saying In bright book and accompanying drawing, specifically disclose particular implementation of the present utility model, which show and this practicality wherein can be used new The some embodiments of the principle of type, it will thus be appreciated that this utility model is not limited to described embodiment, on the contrary, this reality With novel whole amendments, modification and the equivalent including and falling within the scope of the appended claims.

Embodiment 1

Fig. 1 is a sectional view of the sealing structure of this utility model embodiment 1.Wrap as it is shown in figure 1, seal structure 100 Including: sealing strip 101 and fixed part 102, sealing strip 101 is arranged on fixed part 102.

Wherein, fixed part 102 has protuberance 103, and sealing strip 101 has base portion 104 and protuberance 105, sealing strip 101 Base portion 104 surrounds protuberance 103, so that sealing strip 101 is arranged on fixed part 102.

In the present embodiment, the shape of the base portion 104 of sealing strip 101 adapts with protuberance 103 such that it is able to preferably Surround protuberance 103 so that firmly installing of sealing strip 101.

In the present embodiment, as it is shown in figure 1, the cross section of protuberance 103 is rectangle.But, the present embodiment is not to protuberance The cross sectional shape of 103 limits, and such as, the cross section of protuberance 103 can also is that circle or ellipse.

In the present embodiment, the size of protuberance 103 can be arranged according to actual needs, such as, and the width of protuberance 103 Degree W be 3mm～30mm, highly H be 1mm～20mm.

In the present embodiment, the fixed part 102 sealing structure 100 can be integrally formed with deflection plate, it is also possible to shape respectively Link into an integrated entity after one-tenth.

In the present embodiment, the height of the protuberance 105 of sealing strip 101 can be arranged according to actual needs, such as, by convex The height in portion 105 is set greater than the gap between deflection plate and cylinder inboard wall.

In the present embodiment, sealing strip 101 can be flexible sealing strip, and such as, sealing strip 101 is flexible rubber seal Bar.

Fig. 2 is another sectional view of the sealing structure of this utility model embodiment 1.As in figure 2 it is shown, seal structure 200 Including: sealing strip 201 and fixed part 202, sealing strip 201 is arranged on fixed part 202.

Wherein, fixed part 202 has groove 203, and sealing strip 201 has base portion 204 and protuberance 205, the base of sealing strip 201 Portion 204 embeds in groove 203, so that sealing strip 201 is arranged on fixed part 202.

In the present embodiment, the shape of the base portion 204 of sealing strip 201 adapts with groove 203 such that it is able to the most embedding Enter in groove 203 so that firmly installing of sealing strip 201.

In the present embodiment, the A/F of groove 203 is less than the width within groove 203, so that sealing strip 201 Base portion 204 embed groove 203 after, it is not easy to deviate from groove 203, thus further such that the installation of sealing strip 201 Firmly.

In the present embodiment, as in figure 2 it is shown, the cross section of groove 203 is triangle.But, the present embodiment is not to groove 203 Cross sectional shape limit, such as, the cross section of groove 203 can also is that circle or ellipse.

In the present embodiment, the size of groove 203 can be arranged according to actual needs, such as, and degree of depth D of groove 203 For 2mm～20mm.

In the present embodiment, the size making material and other structures of sealing strip 201 is identical with sealing strip 101, herein Repeat no more.

From above-described embodiment, close the gap between deflection plate and cylinder inboard wall by sealing strip, it is possible to the most anti- The only bypass of chilled water, thus it is effectively improved the heat exchange efficiency of dry evaporator.Further, by making the base portion bag of sealing strip Enclosing protuberance or embedding in a groove thus realizes the installation of sealing strip, mounting structure is simple and easily operated.Further, By being integrally formed with deflection plate by the fixed part sealing structure, processing technology is simple, and dimensional uniformity is good.

Embodiment 2

This utility model embodiment provides a kind of deflection plate, and this deflection plate includes sealing structure, this sealing structure and enforcement Record in example 1 is identical, and here is omitted.

Fig. 3 is a front view of the deflection plate of this utility model embodiment 2.As it is shown on figure 3, deflection plate 300 is flat board Deflection plate, it includes sealing structure 301, seals structure 301 and is arranged on the perimembranous of deflection plate 300, seals structure 301 and includes sealing Bar 302, it extends along the perimembranous of deflection plate 300.

In the present embodiment, the structure sealing structure 301 is identical with the record in embodiment 1 with function, the most superfluous State.

In the present embodiment, seal structure 301 can be arranged in the part perimembranous of deflection plate 300.As it is shown on figure 3, folding The writing board shape of stream plate 300 is " D " shape, and its whole perimembranous includes circular arc perimembranous 303 and straight line perimembranous 304, seals structure 301 Arranging in circular arc perimembranous 303, sealing strip 302 extends along this circular arc perimembranous 303.

In the present embodiment, deflection plate 300 can use current material to make, and such as, it is made of plastics.

In the present embodiment, deflection plate 300 is also formed with multiple through hole 305, for for many in dry evaporator Individual heat exchanger tube passes.

In the present embodiment, the size of deflection plate 300 can be arranged according to actual needs, and such as, its plate face size is slightly Less than the cylinder internal diameter of dry evaporator, its thickness can be 2mm～20mm.

Fig. 4 is an enlarged section in A-A direction in Fig. 3.As shown in Figure 4, seal structure 301 and include sealing strip 302- 1 and fixed part 306-1, sealing strip 302-1 are identical with Fig. 1 with the structure of fixed part 306-1, and here is omitted.

Fig. 5 is another enlarged section in A-A direction in Fig. 3.As it is shown in figure 5, seal structure 301 to include sealing strip 302- 2 and fixed part 306-2, sealing strip 302-2 are identical with Fig. 2 with the structure of fixed part 306-2, and here is omitted.

In the present embodiment, fixed part 306-1,306-2 can be integrally formed with deflection plate 300, it is also possible to deflection plate 300 formed respectively after connect as one, such as, fixed part 306-1,306-2 can be bonding or be nested in the perimembranous of deflection plate 300 On.

From above-described embodiment, close the gap between deflection plate and cylinder inboard wall by sealing strip, it is possible to the most anti- The only bypass of chilled water, thus it is effectively improved the heat exchange efficiency of dry evaporator.Further, by making the base portion bag of sealing strip Enclosing protuberance or embedding in a groove thus realizes the installation of sealing strip, mounting structure is simple and easily operated.Further, By being integrally formed with deflection plate by the fixed part sealing structure, processing technology is simple, and dimensional uniformity is good.

Embodiment 3

This utility model embodiment provides a kind of deflection plate, and this deflection plate includes sealing structure, this sealing structure and enforcement Record in example 1 is identical, and here is omitted.The deflection plate of the present embodiment is compared with the deflection plate of embodiment 2, and it is shaped as spiral shell Rotation shape.

Fig. 6 is a front view of the deflection plate of this utility model embodiment 3, and Fig. 7 is the folding of this utility model embodiment 3 One side view of stream plate.As shown in Figure 6 and Figure 7, deflection plate 400 is helical baffles, comprising: center sleeve 401 and The spiral lamina 402 that spiral is arranged on center sleeve 401, seals structure 403 and is arranged on the perimembranous of spiral lamina 402, seal structure 403 include sealing strip 404, and it extends along the perimembranous of spiral lamina 402.

In the present embodiment, the structure sealing structure 403 is identical with the record in embodiment 1 with function, the most superfluous State.

In the present embodiment, sealing structure 403 and be arranged in the whole perimembranous of spiral lamina 402, sealing strip 404 is along spiral The whole perimembranous of plate 402 extends.

In the present embodiment, deflection plate 400 can use current material to make, and such as, it is made of plastics.

In the present embodiment, deflection plate 400 is also formed with multiple through hole 405, for for many in dry evaporator Individual heat exchanger tube passes.

Fig. 8 is an enlarged section in A-A direction in Fig. 6.As shown in Figure 8, seal structure 403 and include sealing strip 404- 1 and fixed part 406-1, sealing strip 404-1 are identical with Fig. 1 with the structure of fixed part 406-1, and here is omitted.

Fig. 9 is another enlarged section in A-A direction in Fig. 6.As it is shown in figure 9, seal structure 403 to include sealing strip 404-2 and fixed part 406-2, sealing strip 404-2 are identical with Fig. 2 with the structure of fixed part 406-2, and here is omitted.

In the present embodiment, fixed part 406-1,406-2 can be integrally formed with deflection plate 400, it is also possible to deflection plate 400 formed respectively after connect as one, such as, fixed part 406-1,406-2 can be bonding or be nested in the perimembranous of deflection plate 300 On.

From above-described embodiment, close the gap between deflection plate and cylinder inboard wall by sealing strip, it is possible to the most anti- The only bypass of chilled water, thus it is effectively improved the heat exchange efficiency of dry evaporator.Further, by making the base portion bag of sealing strip Enclosing protuberance or embedding in a groove thus realizes the installation of sealing strip, mounting structure is simple and easily operated.Further, By being integrally formed with deflection plate by the fixed part sealing structure, processing technology is simple, and dimensional uniformity is good.

Embodiment 4

This utility model embodiment provides a kind of dry evaporator, and this dry evaporator includes deflection plate, this deflection plate Structure is identical with the record in embodiment 2 with function, and here is omitted.

Figure 10 is the structure chart of the dry evaporator of this utility model embodiment 4, and Figure 11 is the cross section in A-A direction in Figure 10 Figure.As shown in Figure 10 and Figure 11, dry evaporator 500 includes: cylinder 501, the flat board deflection plate 502 being arranged in cylinder 501, Flat board deflection plate 502 has sealing structure 503, seals structure 503 and is arranged on the perimembranous of flat board deflection plate 502, seals structure 503 Sealing strip 504 along flat board deflection plate 502 perimembranous extend.Wherein, the sealing strip of flat board deflection plate 502 perimembranous it is arranged on 504 are in close contact with the inwall of cylinder 501 and form sealing.It addition, dry evaporator 500 also includes chilled water import 505 He Chilled water outlet 506.

In the present embodiment, the structure of flat board deflection plate 502 is identical with the record in embodiment 2, and here is omitted.

In the present embodiment, the quantity of flat board deflection plate 502 can be arranged according to actual needs, each flat board deflection plate 502 can in the axial direction of cylinder spaced set.

In the present embodiment, dry evaporator 500 also includes multiple heat exchanger tube 507, and each flat board deflection plate 502 has Multiple through holes, pass for multiple heat exchanger tubes 507.

Figure 12 is an enlarged drawing of part B in Figure 10.As shown in figure 12, seal structure 503 include sealing strip 504-1 with And fixed part 508-1, sealing strip 504-1 are identical with Fig. 1 with the structure of fixed part 508-1, here is omitted.Arrow in Figure 12 The direction of head indication is the direction that chilled water flows in cylinder, as shown in figure 12, and sealing strip 504-1 and the inwall of cylinder 501 Interference fit is formed and seals, thus prevents the bypass of chilled water.

Figure 13 is another enlarged drawing of part B in Figure 10.As shown in figure 13, seal structure 503 and include sealing strip 504-2 And fixed part 508-2, sealing strip 504-2 are identical with Fig. 2 with the structure of fixed part 508-2, here is omitted.In Figure 13 The direction of arrow indication is similarly the direction that chilled water flows in cylinder, as shown in figure 13, sealing strip 504-2 and cylinder 501 Inwall interference fit formed and seal, thus prevent the bypass of chilled water.

From above-described embodiment, close the gap between deflection plate and cylinder inboard wall by sealing strip, it is possible to the most anti- The only bypass of chilled water, thus it is effectively improved the heat exchange efficiency of dry evaporator.Further, by making the base portion bag of sealing strip Enclosing protuberance or embedding in a groove thus realizes the installation of sealing strip, mounting structure is simple and easily operated.Further, By being integrally formed with deflection plate by the fixed part sealing structure, processing technology is simple, and dimensional uniformity is good.

Embodiment 5

This utility model embodiment provides a kind of dry evaporator, and this dry evaporator includes deflection plate, this deflection plate Structure is identical with the record in embodiment 3 with function, and here is omitted.

Figure 14 is the structure chart of the dry evaporator of this utility model embodiment 5, and Figure 15 is the cross section in A-A direction in Figure 14 Figure.As shown in Figure 14 and Figure 15, dry evaporator 600 includes: cylinder 601, the helical baffles 602 being arranged in cylinder 601, Helical baffles 602 has sealing structure 603, seals structure 603 and is arranged on the perimembranous of helical baffles 602, seals structure 603 Sealing strip 604 along helical baffles 602 perimembranous extend.Wherein, the sealing strip of helical baffles 602 perimembranous it is arranged on 604 are in close contact with the inwall of cylinder 601 and form sealing.It addition, dry evaporator 600 also includes chilled water import 605 He Chilled water outlet 606.

In the present embodiment, the structure of helical baffles 602 is identical with the record in embodiment 3, and here is omitted.

In the present embodiment, the quantity of helical baffles 602 can be arranged according to actual needs, each helical baffles 602 are stitched together thus are distributed in the axial direction of whole cylinder.

In the present embodiment, dry evaporator 600 also includes multiple heat exchanger tube 607, and each helical baffles 602 has Multiple through holes, pass for multiple heat exchanger tubes 607.

Figure 16 is an enlarged drawing of part B in Figure 14.As shown in figure 16, seal structure 603 include sealing strip 604-1 with And fixed part 608-1, sealing strip 604-1 are identical with Fig. 1 with the structure of fixed part 608-1, here is omitted.Arrow in Figure 16 The direction of head indication is the direction that chilled water flows in cylinder, as shown in figure 16, and sealing strip 604-1 and the inwall of cylinder 601 Interference fit is formed and seals, thus prevents the bypass of chilled water.

Figure 17 is another enlarged drawing of part B in Figure 14.As shown in figure 17, seal structure 603 and include sealing strip 604-2 And fixed part 608-2, sealing strip 604-2 are identical with Fig. 2 with the structure of fixed part 608-2, here is omitted.In Figure 17 The direction of arrow indication is similarly the direction that chilled water flows in cylinder, as shown in figure 17, sealing strip 604-2 and cylinder 601 Inwall interference fit formed and seal, thus prevent the bypass of chilled water.

From above-described embodiment, close the gap between deflection plate and cylinder inboard wall by sealing strip, it is possible to the most anti- The only bypass of chilled water, thus it is effectively improved the heat exchange efficiency of dry evaporator.Further, by making the base portion bag of sealing strip Enclosing protuberance or embedding in a groove thus realizes the installation of sealing strip, mounting structure is simple and easily operated.Further, By being integrally formed with deflection plate by the fixed part sealing structure, processing technology is simple, and dimensional uniformity is good.

Above in association with specific embodiment, this utility model is described, but those skilled in the art should be clear Chu, these descriptions are all exemplary, are not the restriction to this utility model protection domain.Those skilled in the art can root According to spirit of the present utility model and principle, this utility model being made various variants and modifications, these variants and modifications are also in this reality With in novel scope.

Claims (20)

1. the sealing structure for deflection plate, it is characterised in that described sealing structure includes sealing strip.

Sealing structure the most according to claim 1, it is characterised in that described sealing structure also includes fixed part, described close Strip of paper used for sealing is arranged on described fixed part.

Sealing structure the most according to claim 2, it is characterised in that described sealing strip includes base portion and protuberance, described close Strip of paper used for sealing is arranged on described fixed part by described base portion.

Sealing structure the most according to claim 3, it is characterised in that described fixed part includes protuberance, described sealing strip Base portion surround described protuberance.

Sealing structure the most according to claim 4, it is characterised in that the cross section of described protuberance is rectangle, circular or ellipse Circular.

Sealing structure the most according to claim 4, it is characterised in that the width of described protuberance is 3mm～30mm, described The height of protuberance is 1mm～20mm.

Sealing structure the most according to claim 3, it is characterised in that described fixed part includes groove, described sealing strip Base portion is embedded in described groove.

Sealing structure the most according to claim 7, it is characterised in that the cross section of described groove is triangle, circular or ellipse Circular.

Sealing structure the most according to claim 7, it is characterised in that the degree of depth of described groove is 2mm～20mm.

Sealing structure the most according to claim 7, it is characterised in that the A/F of described groove is less than described groove Internal width.

11. sealing structures according to claim 1, it is characterised in that described sealing strip is flexible sealing strip.

12. sealing structures according to claim 11, it is characterised in that described sealing strip is flexible rubber weather strip.

13. 1 kinds of deflection plates, it is characterised in that it is close that described deflection plate includes according to described in any one in claim 1-12 Seal structure, described sealing structure is arranged on the perimembranous of described deflection plate, and the sealing strip of described sealing structure is along described deflection plate Perimembranous extend.

14. deflection plates according to claim 13, it is characterised in that the fixed part of described sealing structure and described deflection plate It is integrally formed, or, the fixed part of described sealing structure is formed respectively with described deflection plate and connects as one.

15. deflection plates according to claim 13, it is characterised in that described deflection plate is plane deflection plate or spiral baffling Plate.

16. deflection plates according to claim 13, it is characterised in that described sealing structure is arranged on the portion of described deflection plate Divide in perimembranous or whole perimembranous.

17. deflection plates according to claim 13, it is characterised in that described deflection plate is plastics deflection plate.

18. deflection plates according to claim 13, it is characterised in that described deflection plate has multiple through hole.

19. deflection plates according to claim 13, it is characterised in that the thickness of described deflection plate is 2mm～20mm.

20. 1 kinds of dry evaporators, it is characterised in that described dry evaporator includes:

Cylinder；And

Be arranged in described cylinder according to the deflection plate described in any one in claim 13-19；

Wherein, the sealing strip of the described sealing structure being arranged on described deflection plate perimembranous is in close contact with cylinder inboard wall and is formed close Envelope.