CN203964733U - A kind of dew point evaporative cooling core body - Google Patents
A kind of dew point evaporative cooling core body Download PDFInfo
- Publication number
- CN203964733U CN203964733U CN201420393173.XU CN201420393173U CN203964733U CN 203964733 U CN203964733 U CN 203964733U CN 201420393173 U CN201420393173 U CN 201420393173U CN 203964733 U CN203964733 U CN 203964733U
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- China
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- wet channel
- heat conductive
- conductive wall
- core body
- corrugation
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Abstract
The utility model discloses a kind of dew point evaporative cooling core body, comprise multiple dry passages and multiple wet channel, dry passage and wet channel are staggered, the seal that the heat conductive wall that dry passage is arranged by front and back and the seal of arranging up and down form or arranged by support corrugation and the top of heat conductive wall, horizontal direction forms, wet channel is formed by heat conductive wall and support corrugation, or the seal of the heat conductive wall of being arranged by front and back and left and right layout forms; Heat conductive wall can have through hole, air enters from dry passage one side, part air enters wet channel by through hole, discharge from top, bottom or the upper and lower part of wet channel, another part air is discharged from dry passage opposite side, water is introduced wet channel from wet channel top, have processing feature simple, with low cost.
Description
Technical field
The utility model relates to a kind of dew point evaporative cooling core body.
Background technology
The heat conductive wall of the transpiration-cooled core body of conventional dew point generally has the plastic flocking sheet of employing and leaching membrane paper or two kinds of situations of film nonwoven, plastics often can be shaped to gain in strength and form seal channel by modes such as plastic uptakes, the technical scheme adopting as US Patent No. 20110220333, the intensity of leaching membrane paper or film nonwoven is bad, and can not gain in strength by modes such as plastic uptakes, while forming dry wet channel between leaching membrane paper or film nonwoven, need to increase complicated support, the sealing of dry wet channel is very more difficult formation also, in US Patent No. 6581402, typical dew point evaporative cooling core is above-mentioned situation.No matter above-mentioned two situations, be by modes such as plastic uptakes, still increases complicated support, all causes core body processing technology complexity, and cost is high.
Summary of the invention
The purpose of this utility model is for the deficiencies in the prior art, and a kind of dew point evaporative cooling core body is provided.
The purpose of this utility model is achieved through the following technical solutions: a kind of dew point evaporative cooling core body, this core body comprises multiple dry passages and multiple wet channel, dry passage and wet channel are staggered, the heat conductive wall that dry passage is arranged by front and back and the seal of arranging up and down form, wet channel is formed by heat conductive wall and support corrugation, and the corrugation direction that supports corrugation is vertical direction; Heat conductive wall has through hole, and air enters from dry passage one side, and part air enters wet channel by through hole, discharges from top, bottom or the upper and lower part of wet channel, and another part air is discharged from dry passage opposite side, and water is introduced wet channel from wet channel top.
A kind of dew point evaporative cooling core body, this core body comprises multiple dry passages and multiple wet channel, and dry passage and wet channel are staggered, and the seal that dry passage is arranged by heat conductive wall, support corrugation and top forms, and the corrugation direction that supports corrugation is horizontal direction; The seal that the heat conductive wall that wet channel is arranged by front and back and left and right are arranged forms, in heat conductive wall, there is through hole, air enters from dry passage one side, part air enters wet channel by through hole, discharge from top, bottom or the upper and lower part of wet channel, another part air is discharged from dry passage opposite side, and water is introduced wet channel from wet channel top.
Further, supporter is arranged in the air side of described dry passage, and air can enter wet channel from through hole and dry passage air side simultaneously.
Further, described through hole sealing, air can only enter wet channel from dry passage air side.
Further, described support corrugation both sides stick with glue knot heat conductive wall and form corrugated sheet.
Further, described support corrugation is paper material, and described heat conductive wall is leaching membrane paper.
Further, described seal is fluid sealant.
Further, described through hole sealing, air enters from dry passage one side, discharge from dry passage opposite side, water is introduced wet channel from wet channel top, the part air of discharging from dry passage opposite side enters wet channel from core body bottom or top, discharges from top or the bottom of wet channel.
The beneficial effects of the utility model are: the utility model provides a kind of dew point evaporative cooling core body simple, with low cost of processing, the utility model makes full use of corrugation and is combined with dull and stereotyped leaching membrane paper or the heat conductive wall of film nonwoven, as paper corrugation two sides is adhered to heat conductive wall, as leaching membrane paper, form the primary element corrugated sheet of core body, corrugated sheet is compared with dull and stereotyped leaching membrane paper or film nonwoven, intensity obviously increases, corrugated sheet and seal are combined to form core body, there is the processing of being easy to, feature with low cost.
Brief description of the drawings
Fig. 1 is the first citation form of the present utility model;
Fig. 2 is the explosive view of Fig. 1;
Fig. 3 is the explosive view of Fig. 1;
Fig. 4 is the second implementation of the utility model the first citation form;
Fig. 5 is the utility model the third implementation with a kind of citation form;
Fig. 6 is the core body with medial support bar of the first citation form;
Fig. 7 is the four kind implementation of the utility model with a kind of citation form;
Fig. 8 is the second citation form of the present utility model;
Fig. 9 is the utility model the second citation form the second implementation;
Figure 10 is the third implementation of the utility model the second citation form;
Figure 11 is the 4th kind of implementation of the utility model the second citation form;
Figure 12 is the 5th kind of implementation of the utility model the second citation form;
Figure 13 is the 6th kind of implementation of the utility model the second citation form;
In figure, heat conductive wall 1, seal 2, support corrugation 3, through hole 4, medial support bar 5, supporter 6, corrugated sheet 131.
Detailed description of the invention
As Fig. 1, shown in Fig. 2, dew point evaporative cooling core body, comprise dry passage D and wet channel W, dry wet channel is staggered, dry passage D by fluid-tight heat conductive wall 1 and the seal 2 of arranging up and down form, wet channel W is by fluid-tight heat conductive wall 1 and support corrugation 3 and form, the corrugation direction that supports corrugation 3 is vertical direction; Heat conductive wall 1 has through hole 4, and air A enters from dry passage left side, and part air enters wet channel by through hole 4, discharges from the upper and lower part of wet channel, and another part air is discharged from dry passage right side, and water Wa introduces wet channel from wet channel top.
Corrugation 3 can be the materials such as papery, nonwoven, plastics and metal, and heat conductive wall 1 can be leaching membrane paper, film nonwoven, flocking plastic sheet or flocking sheet metal etc.
Seal 2 can be fluid sealant, as polyurethane sealant, epoxy sealing glue etc., or sealing strip both sides gluing, or rubber weather strip etc.
Fig. 2 is the explosive view 1 of Fig. 1.
Fig. 3 is the explosive view 2 of Fig. 1, and in Fig. 3, two heat conductive wall 1 and corrugation 3 form overall corrugated sheet 131, and corrugated sheet 13 can, before core body is made, adopt equipment or the streamline of automation, as corrugated paper board production line etc. is made.
The difference of Fig. 4 and Fig. 1 is, the through hole 4 of the heat conductive wall 1 of Fig. 4 is in core body bottom, and wet channel exhaust is on top, and in Fig. 1 through hole 4 at middle part, the upper and lower equal exhaust of wet channel exhaust.
The difference of Fig. 5 and Fig. 1 is, the through hole 4 of the heat conductive wall 1 of Fig. 5 is on core body top, and wet channel exhaust is in bottom, and in Fig. 1 through hole 4 at middle part, the upper and lower equal exhaust of wet channel exhaust.
Fig. 6, on the basis of Fig. 5, has increased the medial support bar 5 in dry passage, can increase like this intensity of core body.
Fig. 7 and earlier figures 1 to Fig. 6 different being, in figure above, there is through hole 4 in heat conductive wall 1, in Fig. 7, do not have, air enters from dry passage one side, discharge from dry passage opposite side, the part air of discharging from dry passage opposite side enters wet channel from core body bottom or top, discharges from top or the bottom of wet channel.
Fig. 8 is the second citation form of the present utility model, and different from the first citation form, corrugation is placed in dry passage, and is horizontal corrugation, and in the first citation form, corrugation is placed in wet channel, and is vertical corrugation.
The dew point evaporative cooling core body core body of the second citation form comprises dry passage D and wet channel W, dry wet channel is staggered, the seal 2 that dry passage is arranged by waterproof heat conductive wall 1, support corrugation 3 and top forms, and the corrugation direction that supports corrugation 3 is horizontal direction; The seal 2 that wet channel is arranged by waterproof heat conductive wall 1 and left and right forms, in heat conductive wall, there is through hole 4, air A enters from dry passage one side, part air enters wet channel by through hole 4, discharge from the upper and lower part of wet channel, another part air is discharged from dry passage opposite side, and water Wa introduces from wet channel top.
Corrugation 3 can be the materials such as papery, nonwoven, plastics and metal, and heat conductive wall 1 can be leaching membrane paper, film nonwoven, flocking plastic sheet or flocking sheet metal etc.
Seal 2 can be fluid sealant, as polyurethane sealant, epoxy sealing glue etc., or sealing strip both sides gluing, or rubber weather strip etc.
The difference of Fig. 9 and Fig. 8 is, the through hole 4 of the heat conductive wall 1 of Fig. 9 is on core body top, and wet channel exhaust is in bottom, and in Fig. 8 through hole 4 at middle part, the upper and lower equal exhaust of wet channel exhaust.
The difference of Figure 10 and Fig. 8 is, the through hole 4 of the heat conductive wall 1 of Figure 10 is in core body bottom, and wet channel exhaust is on top, and in Fig. 8 through hole 4 at middle part, the upper and lower equal exhaust of wet channel exhaust.
Figure 11 is different from Fig. 8 to be, the seal 2 that the air side of dry passage is arranged is replaced by the supporter 6 that can ventilate, and air can enter wet channel from through hole 4 and dry passage air side simultaneously.
Figure 12 is different from Figure 11 to be, the through hole 4 of heat conductive wall 1 seals, and air can only enter wet channel from dry passage air side.
Figure 13 and earlier figures 8 to Figure 11 different being, in Fig. 8 to Figure 11 above, there is through hole 4 in heat conductive wall 1, in Figure 13, do not have, air enters from dry passage one side, discharge from dry passage opposite side, the part air of discharging from dry passage D opposite side from core body bottom or top enter wet channel W, from the top of wet channel W or bottom discharge.
Claims (7)
1. a dew point evaporative cooling core body, it is characterized in that: this core body comprises multiple dry passages and multiple wet channel, dry passage and wet channel are staggered, the heat conductive wall (1) that dry passage is arranged by front and back and the seal (2) of arranging up and down form, wet channel is formed by heat conductive wall (1) and support corrugation (3), and the corrugation direction that supports corrugation (3) is vertical direction; In heat conductive wall (1), have through hole (4).
2. a dew point evaporative cooling core body, it is characterized in that: this core body comprises multiple dry passages and multiple wet channel, dry passage and wet channel are staggered, the seal (2) that dry passage is arranged by heat conductive wall (1), support corrugation (3) and top forms, and the corrugation direction that supports corrugation (3) is horizontal direction; The seal (2) that the heat conductive wall (1) that wet channel is arranged by front and back and left and right are arranged forms, and has through hole (4) in heat conductive wall (1).
3. dew point evaporative cooling core body according to claim 2, is characterized in that, supporter (6) is arranged in the air side of described dry passage.
4. according to the dew point evaporative cooling core body described in claim 1-3 any one, it is characterized in that described through hole (4) sealing.
5. according to the dew point evaporative cooling core body described in claim 1-3 any one, it is characterized in that, described support corrugation (3) both sides stick with glue knot heat conductive wall (1) and form corrugated sheet (131).
6. according to the dew point evaporative cooling core body described in claim 1-3 any one, it is characterized in that, described support corrugation (3) is paper material, and described heat conductive wall (1) is leaching membrane paper.
7. according to the dew point evaporative cooling core body described in claim 1-3 any one, it is characterized in that, described seal (2) is fluid sealant.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201420393173.XU CN203964733U (en) | 2014-07-16 | 2014-07-16 | A kind of dew point evaporative cooling core body |
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CN201420393173.XU CN203964733U (en) | 2014-07-16 | 2014-07-16 | A kind of dew point evaporative cooling core body |
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CN203964733U true CN203964733U (en) | 2014-11-26 |
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CN201420393173.XU Expired - Fee Related CN203964733U (en) | 2014-07-16 | 2014-07-16 | A kind of dew point evaporative cooling core body |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107044695A (en) * | 2017-04-01 | 2017-08-15 | 西安工程大学 | Staggered form dew point evaporation cooling high-temperature handpiece Water Chilling Units |
-
2014
- 2014-07-16 CN CN201420393173.XU patent/CN203964733U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107044695A (en) * | 2017-04-01 | 2017-08-15 | 西安工程大学 | Staggered form dew point evaporation cooling high-temperature handpiece Water Chilling Units |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20141126 Termination date: 20200716 |
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CF01 | Termination of patent right due to non-payment of annual fee |