CN202392975U - Dew-point tubular indirect-direct devaporizer - Google Patents
Dew-point tubular indirect-direct devaporizer Download PDFInfo
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- CN202392975U CN202392975U CN201120499486XU CN201120499486U CN202392975U CN 202392975 U CN202392975 U CN 202392975U CN 201120499486X U CN201120499486X U CN 201120499486XU CN 201120499486 U CN201120499486 U CN 201120499486U CN 202392975 U CN202392975 U CN 202392975U
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Abstract
The utility model discloses a dew-point tubular indirect-direct devaporizer, which includes a filter, a tubular cooler, a direct devaporizer and an air feeder that are sequentially arranged as per the air inlet direction and in a casing of the unit, wherein the tubular cooler includes a pre-cooling section and a cooling section. Through the adoption of the structure of the dew-point tubular indirect-direct devaporizer, the heat exchange efficiency is greatly improved, and the temperature of the outlet air is close to the dew-point temperature.
Description
Technical field
The utility model belongs to the air conditioner refrigerating technical field, relates to a kind of devaporizer of idle call, be specifically related to a kind of make air themperature be reduced near the tubular type of dew-point temperature indirectly-direct evaporative cooler.
Background technology
Because energy shortage and air-conditioning consumes energy increase more so, add that environmental pollution is serious day by day in recent years, people are to the raising of comfortable life property requirement or the like various aspects, press for all that exploitation is energy-conservation, healthy, environmental protection, Eco-power heating air conditioning equipment.
The limiting temperature of tradition indirect evaporation cooler is the wet-bulb temperature of auxiliary air; At present in practical engineering application; The efficient of indirect evaporation cooler generally has only about 70%; This makes that wind pushing temperature is too high when using indirect evaporation cooler separately, is difficult to satisfy the air conditioning of the requirement realization interior architecture of ventilation state point.
The purpose of the bigger temperature drop of air be should realize, energy-conservation, healthy, environmental protection requirement satisfied simultaneously, and simple in structure, and economic and reliable is the Refrigeration Technique that presses for exploitation at present.
Summary of the invention
The purpose of the utility model provide a kind of dew point tubular type indirectly-direct evaporative cooler; Start with from optimizing cooler construction; Improve the heat exchange efficiency of tube type indirect evaporative cooler, the air near dew-point temperature can be provided, can keep its water capacity constant again.
The technical scheme that the utility model adopted is; A kind of dew point tubular type indirectly-direct evaporative cooler; Be included in the filter, chimney cooler, direct evaporative cooler and the pressure fan that set gradually by the air intake direction in the machine unit shell, chimney cooler is made up of precooling zone and cooling section.
The characteristics of the utility model also are,
The structure of chimney cooler precooling zone is: comprise the heat exchanger tube family that many staggered heat exchanger tube a form; The top of heat exchanger tube family is disposed with overfire air fan a, water fender a and water-locator a from top to bottom; The machine unit shell wall that overfire air fan a is corresponding is provided with overfire air fan air outlet a; The bottom of heat exchanger tube family is provided with water tank a, and water tank a is connected with water pump a and water-locator a through pipeline.
The cross section of heat exchanger tube a is the inclined-plane, and the downward-sloping placement of heat exchanger tube one end of primary air import department.
The structure of chimney cooler cooling section is: comprise the heat exchanger tube family that many heat exchanger tube b form; Heat exchanger tube family middle and upper part heat exchanger tube is staggered; The length of bottom heat exchanger tube reduces from top to bottom successively, and the top of heat exchanger tube family is disposed with overfire air fan b, water fender b and water-locator b from top to bottom, and the machine unit shell wall that overfire air fan b is corresponding is provided with overfire air fan air outlet b; The bottom of heat exchanger tube family is provided with water tank b, and water tank b is connected with water pump b and water-locator b through pipeline.
The cross section of heat exchanger tube b is the inclined-plane, and the downward-sloping placement of heat exchanger tube one end of primary air import department.
Direct evaporative cooler comprises the water-locator c of filler, the setting of filler top and the water tank c that the filler bottom is provided with, and water tank c is connected with water pump c and water-locator c through pipeline.
It is cold-producing medium that the utility model adopts water, can provide dry-bulb temperature lower and near the air of dew-point temperature than outdoor wet-bulb temperature, can keep water capacity constant or water capacity is reduced.This cooler promotes effective, the comprehensive utilization energy-conservation and energy biglyyer, and its wet bulb efficient can reach more than 100%.
Compare with existing tube type indirect evaporative cooler, the utility model devaporizer has following characteristics:
(1) before cooling section, is provided with precooling zone; Primary air is carried out precooling treatment; The air themperature that gets into cooling section is reduced, and through after the continuous cooling of secondary side, the fiducial temperature that gets into wet channel as auxiliary air further reduces; Strengthened the temperature difference of a secondary side air, the heat exchange better effects if.Precooling zone is general indirect evaporation cooling procedure in this process, and the air-treatment of cooling section is a dew point formula evaporative cooling process.
(2) general dew point indirect evaporative cooler is a dew point plate type indirect evaporation cooler, and the utility model adopts tube type indirect evaporative cooler to realize the depoint depression temp effect.
(3) the heat exchanger tube section is the inclined plane, prevents that the outer trickle of heat exchanger tube from getting into pipe interior; From the downward-sloping certain angle of heat exchanger tube primary air import department, prevent the water droplet that the gets into heat exchanger tube that flows backwards back.
(4) primary air and auxiliary air are cross-current; Auxiliary air from lower to upper, and water sprays from top to bottom, the two forms adverse current; Below above-mentioned precooling zone, cooling section and the direct evaporator section water pump and water tank separately is set all, controls the unlatching of water pump at any time, move the different functions section, satisfy the demand of different regions, Various Seasonal.
Description of drawings
Fig. 1 is the structural representation of a kind of embodiment of the utility model devaporizer.
Fig. 2 is the schematic cross-section of heat exchanger tube in the utility model devaporizer.
Fig. 3 is the air flow process sketch map of the utility model devaporizer.
Among the figure, 1. filter, 2. heat exchanger tube a, 3. water pump a, 4. water pump b, 5. water pump c; 6. water tank a, 7. water tank b, 8. water tank c, 9. auxiliary air air inlet, 10. filler, 11. water-locator a; 12. water-locator b, 13. water-locator c, 14. water fender a, 15. water fender b, 16. overfire air fan a; 17. overfire air fan b, 18. overfire air fan air outlet a, 19. overfire air fan air outlet b, 20. pressure fans, 21. heat exchanger tube b.
The specific embodiment
Below in conjunction with the accompanying drawing and the specific embodiment the utility model is elaborated.
The utility model dew point tubular type that shown in Figure 1 is indirectly-structural representation of a kind of embodiment of direct evaporative cooler.Be included in the filter 1, chimney cooler, direct evaporative cooler and the pressure fan 20 that set gradually by the air intake direction in the machine unit shell, chimney cooler is made up of precooling zone and cooling section.
The structure of chimney cooler precooling zone is: comprise the heat exchanger tube family that many staggered heat exchanger tube a2 form; The top of heat exchanger tube family sets gradually overfire air fan a16, water fender a14 and water-locator a11 from top to bottom; On the machine unit shell wall of overfire air fan a16 correspondence overfire air fan air outlet a18 is set; The bottom of heat exchanger tube family is provided with water tank a6, and water tank a6 is connected with water pump a3 and water-locator a11 through pipeline.
The structure of chimney cooler cooling section is: comprise the heat exchanger tube family that many heat exchanger tube b21 form; Heat exchanger tube family middle and upper part heat exchanger tube is staggered; The length of bottom heat exchanger tube reduces from top to bottom successively; The top of heat exchanger tube family is disposed with overfire air fan b17, water fender b15 and water-locator b12 from top to bottom; The machine unit shell wall that overfire air fan b17 is corresponding is provided with overfire air fan air outlet b19, and the bottom of heat exchanger tube family is provided with water tank b7, and water tank b7 is connected with water pump b4 and water-locator b12 through pipeline.
Direct evaporative cooler comprises the water-locator c13 of filler 10, the setting of filler 10 tops and the water tank c8 that filler 10 bottoms are provided with, and water tank c8 is connected with water pump c5 and water-locator c13 through pipeline.
Heat exchanger tube a2 and heat exchanger tube b21 prevent to get into the aqueous reflux in the pipe from cooling section primary air import department heat exchange pipeline certain angle that tilts a little; And the heat exchanger tube section is the inclined plane, prevents that water droplet is in pipe in two subchannels, and the structure of heat exchanger tube a2 and heat exchanger tube b21 is as shown in Figure 2.
In precooling zone and the cooling section, be processed air and separated by heat exchanger tube, be primary air passage and secondary-air passage with the processing air.In each section of cooler movement, primary air from left to right, auxiliary air from lower to upper, primary air and auxiliary air are cross-current; Water is close to wall from top to bottom and is formed moisture film in secondary-air passage, auxiliary air and water form adverse current; Primary air and water are also realized adverse current, and the air flow process signal is as shown in Figure 3.
In the whole system, each functional section is provided with water circuit system separately, and the water system between each section separately; Can open water pump a3, water pump b4 and water pump c5 simultaneously; Also can open water pump a3 and water pump c5 simultaneously, perhaps just open water pump c5, satisfy the demand of Various Seasonal, different regions.As open water pump a3, water pump b4 and water pump c5 simultaneously and can realize the dew point cool effect, the demanding occasion that is adapted at lowering the temperature is used; Open the cooling-down effect that water pump a3 and water pump c5 can realize general tube type indirect evaporative cooler simultaneously; Only opening water pump c5, promptly is direct evaporative cooler, can lower the temperature, and also can realize humidification in the winter time.Therefore, see that each functional section water system is separately controlled separately from whole water circuit system.
The operation principle of the utility model devaporizer is,
The secondary-air passage that outdoor new wind directly gets into the precooling zone of the utility model heat exchanger tube a2 through filter 1.Auxiliary air and water carry out the wet exchange of heat, and temperature reduces but absorbs primary air side heat simultaneously, and discharges from precooling zone overfire air fan air outlet a18 through overfire air fan a16 rapidly, and primary air is got into cooling section by the precooling continued.This part air again some heat exchanger tube b21 primary air passage section gets out from the bottom after cooling section cooling; Having arrived secondary-air passage is in the wet channel; Flow from bottom to top along the auxiliary air runner then, carry out the wet exchange of heat with water, the air ' s wet bulb temperature in the secondary runner reduces; Cool off the primary air of remainder in the cooling section again; This part auxiliary air is discharged to outdoor from cooling section overfire air fan air outlet b19 through overfire air fan b17, finally warm eventually near dew-point temperature through direct evaporative cooling section cooling back, sends into conditioned area from pressure fan 20.At this moment, divide the part primary air temperature flow into the secondary passage lower,, thereby make wind pushing temperature near dew-point temperature so that the final wet-bulb temperature that exchanges with water of auxiliary air is near the primary air dew-point temperature.
Claims (6)
- A dew point tubular type indirectly-direct evaporative cooler; It is characterized in that; Be included in the filter (1), chimney cooler, direct evaporative cooler and the pressure fan (20) that set gradually by the air intake direction in the machine unit shell, described chimney cooler is made up of precooling zone and cooling section.
- According to the described dew point tubular type of claim 1 indirectly-direct evaporative cooler; It is characterized in that; The structure of said chimney cooler precooling zone is: comprise the heat exchanger tube family that many staggered heat exchanger tube a (2) form; The top of heat exchanger tube family is disposed with overfire air fan a (16), water fender a (14) and water-locator a (11) from top to bottom; The machine unit shell wall that overfire air fan a (16) is corresponding is provided with overfire air fan air outlet a (18), and the bottom of heat exchanger tube family is provided with water tank a (6), and said water tank a (6) is connected with water pump a (3) and water-locator a (11) through pipeline.
- According to the described dew point tubular type of claim 2 indirectly-direct evaporative cooler, it is characterized in that the cross section of said heat exchanger tube a (2) is the inclined-plane, and the downward-sloping placement of heat exchanger tube one end of primary air import department.
- According to the described dew point tubular type of claim 1 indirectly-direct evaporative cooler; It is characterized in that; The structure of said chimney cooler cooling section is: comprise the heat exchanger tube family that many heat exchanger tube b (21) form; Heat exchanger tube family middle and upper part heat exchanger tube is staggered; The length of bottom heat exchanger tube reduces from top to bottom successively, and the top of heat exchanger tube family is disposed with overfire air fan b (17), water fender b (15) and water-locator b (12) from top to bottom, and the machine unit shell wall that overfire air fan b (17) is corresponding is provided with overfire air fan air outlet b (19); The bottom of heat exchanger tube family is provided with water tank b (7), and said water tank b (7) is connected with water pump b (4) and water-locator b (12) through pipeline.
- According to the described dew point tubular type of claim 4 indirectly-direct evaporative cooler, it is characterized in that the cross section of said heat exchanger tube b (21) is the inclined-plane, and the downward-sloping placement of heat exchanger tube one end of primary air import department.
- According to the described dew point tubular type of claim 1 indirectly-direct evaporative cooler; It is characterized in that; Described direct evaporative cooler comprises the water-locator c (13) of filler (10), the setting of filler (10) top and the water tank c (8) that filler (10) bottom is provided with, and described water tank c (8) is connected with water pump c (5) and water-locator c (13) through pipeline.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201120499486XU CN202392975U (en) | 2011-12-05 | 2011-12-05 | Dew-point tubular indirect-direct devaporizer |
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CN201120499486XU CN202392975U (en) | 2011-12-05 | 2011-12-05 | Dew-point tubular indirect-direct devaporizer |
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CN201120499486XU Expired - Fee Related CN202392975U (en) | 2011-12-05 | 2011-12-05 | Dew-point tubular indirect-direct devaporizer |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103245017A (en) * | 2013-04-12 | 2013-08-14 | 西安工程大学 | Closed cross-flow plate-fin dew-point indirect evaporative cooling outdoor unit |
-
2011
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103245017A (en) * | 2013-04-12 | 2013-08-14 | 西安工程大学 | Closed cross-flow plate-fin dew-point indirect evaporative cooling outdoor unit |
CN103245017B (en) * | 2013-04-12 | 2016-01-13 | 西安工程大学 | The off-premises station of enclosed distributary plate wing dew point indirect evaporative cooling |
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Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20120822 Termination date: 20131205 |