CN203533745U

CN203533745U - Highly efficient chilled water storage constant-temperature and constant-humidity air-conditioning system used for fabric weaving workshop

Info

Publication number: CN203533745U
Application number: CN201320346581.5U
Authority: CN
Inventors: 李华
Original assignee: Glen Ray Textile Technology (suzhou) Co Ltd
Current assignee: Glen Ray Textile Technology (suzhou) Co Ltd
Priority date: 2013-06-18
Filing date: 2013-06-18
Publication date: 2014-04-09
Anticipated expiration: 2023-06-18

Abstract

The utility model discloses a highly efficient chilled water storage constant-temperature and constant-humidity air-conditioning system used for a fabric weaving workshop. The highly efficient chilled water storage constant-temperature and constant-humidity air-conditioning system comprises a refrigeration station, a spraying type air-conditioning chamber mutually connected with the refrigeration station via a water pipe and the fabric weaving workshop mutually communicated with the spraying type air-conditioning chamber via an air pipe. The refrigeration station comprises an independent refrigeration circulatory system formed by connection of a cooling tower, a cooling water pump, a centrifugal cold water unit and a chilled water primary pump via water pipes. The fabric weaving workshop comprises an environmental air supply pipeline and a technological air supply pipeline. The environmental air supply pipeline and the technological air supply pipeline are communicated with the spraying type air-conditioning chamber via a second air pipe and a third air pipe. An air return port at the bottom of the fabric weaving workshop is communicated back to the spraying type air-conditioning chamber via the second air pipe. The highly efficient chilled water storage constant-temperature and constant-humidity air-conditioning system used for the fabric weaving workshop has following beneficial effects: energy dissipation is reduced; operating cost is reduced by means of fresh air and difference of electricity between peak and valley points is lowered so that an energy-saving and high-efficient purpose is fulfilled; highly efficient constant-temperature and constant-humidity weaving environment is provided for the fabric weaving workshop; fabric quality is ensured; and production efficiency is enhanced.

Description

Face weave workshop High-efficient Water cold-storage constant temperature and humidity air-conditioning system

Technical field

The utility model relates to a kind of water cold-storage constant temperature and humidity air-conditioning system, specifically relates to a kind of air-conditioning system that is applicable to the High-efficient Water cold-storage constant temperature and humidity in face weave workshop.

Background technology

Textile mills are face weave workshop especially, the waste heat that mostly need utilize air-conditioning system to eliminate to produce in production process, remaining wet, dust, flyings etc., provide and be applicable to the humiture environment that fabric is produced, guaranteeing under the temperature in face weave workshop, humidity prerequisite, also to further keep air current flow speed in workshop and cleannes etc., the normal operation important role that this air-conditioning system is produced face weave workshop fabric.

Yet there is following deficiency in the air-conditioning system in current prior art face weave workshop conventionally: one, and the air supply mode of air-conditioning system is single, normally the part return air in face weave workshop is directly disposed in atmosphere, causes energy dissipation; Its two, air-conditioning system electric load daytime is large compared with evening, electrical network peak load is poor larger, not only affects miscellaneous equipment operational efficiency, and makes operation of air conditioner expense higher; They are three years old, in order to there are different refrigerating capacitys in the different periods as required, while making air-conditioning system operation, keep larger power output, this not only causes energy waste, also can make humidity and temperature fluctuation in workshop, cause the variation containing damp rate through weft yarn or fabric, the tension force that further causes warp thread on loom is uneven, through weft yarn, disconnect, thereby have a strong impact on the yields of weaving fabric, therefore, a kind of constant temperature and humidity air-conditioning system of high-effect energy-conserving and environment-protective become face weave workshop steady production fabric in the urgent need to.

Utility model content

The purpose of this utility model is that a kind of water cold-storage constant temperature and humidity air-conditioning system is provided in order to solve the problems of the technologies described above, specifically be applicable to an air-conditioning system for the High-efficient Water cold-storage constant temperature and humidity in face weave workshop, there are high-effect, energy-conserving and environment-protective, efficiently keep the features such as constant temperature and humidity.Technical solution of the present utility model is as follows:

A face weave workshop High-efficient Water cold-storage constant temperature and humidity air-conditioning system, comprises refrigeration station, by water pipe, interconnects the fountain air conditioning chamber of described refrigeration station and via the be interconnected face weave workshop of described fountain air conditioning chamber of airduct; Described refrigeration station is an independent cooling circulatory system that comprises that cooling tower, cooling water pump, centrifugal water chillers, pump of chilled water and water storage pool connect into through water pipe; Described face weave workshop comprises the technique air supply duct that is positioned at the environment air supply duct at top, workshop and is positioned at loom top, described environment air supply duct and described technique air supply duct are communicated with fountain air conditioning chamber through the second airduct, the first airduct respectively, and the return air inlet of bottom, described face weave workshop is communicated with and is back to described fountain air conditioning chamber through the second airduct.

The utility model preferably, the delivery port of cooling tower, water inlet described in described refrigeration station are connected to respectively water inlet, the delivery port of condenser in centrifugal water chillers through the 5th water pipe, the 6th water pipe, in described centrifugal water chillers, the delivery port of evaporimeter is connected to the water inlet of the low temperature backwater zone of water storage pool through the second water pipe, and in described centrifugal water chillers, the water inlet of evaporimeter is connected to the delivery port in the high-temperature tempering district of water storage pool through the first water pipe.

Preferably, described fountain air conditioning chamber comprises air conditioning chamber's shell and feeding spraying pump, the return flume in it is set the utility model; Make the delivery port of described water storage pool low temperature backwater zone be connected to described feeding spraying pump through the 3rd water pipe, by the chilled water secondary pump being arranged on the 3rd water pipe, the chilled water of water storage pool low temperature backwater zone is pumped to feeding spraying pump; Make the delivery port of described return flume through the 4th water pipe, be connected to the water inlet in described water storage pool high-temperature tempering district, by the back water pump being arranged on the 4th water pipe, the water of return flume is drawn back to the high-temperature tempering district to water storage pool.

Preferably, described fountain air conditioning chamber also comprises downwind plate, band nozzle spray row, water fender water filter and the air-supply unit being installed in successively in described air conditioning chamber shell to the utility model.

The utility model preferably, is also equiped with for sending the fresh wind tube of new wind on described air conditioning chamber shell; On described the first airduct, be provided with for return air or send the first by-passing valve of new wind; On described the second airduct, be provided with for return air or send the second by-passing valve of new wind.

The utility model preferably, is equiped with the rotary collector for air filtration or trifle in the world collection near place, described face weave workshop on described the 3rd airduct; On described the 3rd airduct, near the end of described fountain air conditioning chamber, be provided with static filter and the exhaust duct of collecting for air filtration or trifle in the world, and be provided with return air inlet and pass to the first by-passing valve and the second by-passing valve.

The utility model preferably, also comprise a digital control system, described digital control system comprises temperature sensor, the humidity sensor that is arranged on environment air supply duct and technique ajutage road junction, the 3rd airduct return air inlet or water fender water filter outlet side in fresh wind tube, face weave workshop, is arranged on the differential pressure controller for regulating water flow in the 5th water pipe and is arranged on the fire-alarm at top, face weave workshop.

The beneficial effects of the utility model are mainly reflected in:

(1) the utility model utilizes water storage pool cold-storage, its refrigeration station is an independently cooling cycle system, the variation of the demand of the load variations in face weave workshop and fountain air conditioning chamber chilled water can directly not affect the operation of refrigeration station, can make the power consumption of refrigeration station greatly reduce, farthest utilize new wind, utilize electricity price between peak and valley to reduce operating cost, efficient energy-saving;

(2) the utility model provides the environment of weaving of efficient constant-temperature constant humidity for face weave workshop, what make warp beam, weft yarn and fabric remains consistent containing damp rate, reduced because of weave faults such as tension force inequality that weaving process produces, cracked ends staplings, guarantee fabric quality, enhanced productivity;

(3) the air in the utility model face weave workshop returns to fountain air conditioning chamber through return air inlet and forms return air, in return air, trifle in the world and waste material are purified by two kinds of collector separated and collected, when the enthalpy of return air is directly discharged higher than the enthalpy of outdoor new wind, when return air enthalpy will mainly utilize return air air-supply in fountain air conditioning chamber lower than the enthalpy of outdoor new wind, be conducive to equally reduce refrigeration station power consumption, at utmost utilize new wind;

(4) the utility model air supply mode variation, different air supply ducts can send respectively to diverse location in face weave workshop the wind of different humidity under the control of digital control system, for specific production process provides desirable temperature and humidity space environment, for operator provides comfortable, clean working environment, total blast volume reduces, and is conducive to efficient energy-saving.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model face weave workshop High-efficient Water cold-storage constant temperature and humidity air-conditioning system.

The specific embodiment

Below in conjunction with accompanying drawing and specific embodiment, the utility model is described, for embodiment the utility model product or method are made to generality illustration, contribute to understand better the utility model, but can't limit the utility model scope.Experimental technique described in following embodiment, if no special instructions, is conventional method; Described material, if no special instructions, all can obtain from commercial channels.

As shown in Figure 1, a kind of face weave workshop High-efficient Water cold-storage constant temperature and humidity air-conditioning system, comprises refrigeration station, by water pipe, interconnects the fountain air conditioning chamber 4 of described refrigeration station and via the be interconnected face weave workshop 5 of described fountain air conditioning chamber 4 of airduct; Described refrigeration station is an independent cooling circulatory system that comprises that cooling tower 1, cooling water pump 11, centrifugal water chillers 2, pump 21 of chilled water and water storage pool 3 connect into through water pipe; Described face weave workshop 5 comprises the environment air supply duct 51 that is positioned at top, workshop and the technique air supply duct 52 that is positioned at loom top, described environment air supply duct 51 and described technique air supply duct 52 are communicated with fountain air conditioning chamber 4 through the second airduct T2, the first airduct T1 respectively, and the return air inlet 53 of 5 bottoms, described face weave workshop is communicated with and is back to described fountain air conditioning chamber 4 through the second airduct T3.

Above-mentioned environment air supply duct 51, technique air supply duct 52, the second airduct T2, the first airduct T1 form the utility model air supply duct system.On described the first airduct T1, be provided with for return air or send the first by-passing valve T7 of new wind, on described the second airduct T2, be provided with for return air or send the second by-passing valve T6 of new wind, on described the 3rd airduct T3, near 5 places, described face weave workshop, be equiped with the rotary collector F1 for air filtration or trifle in the world collection, on described the 3rd airduct T3, near the end of described fountain air conditioning chamber 4, be provided with static filter F2 and the exhaust duct T5 collecting for air filtration or trifle in the world, and be provided with return air inlet and pass to the first by-passing valve T7 and the second by-passing valve T6.Therefore, by above-mentioned return air inlet 53, the 3rd airduct T3, rotary collector F1, static filter F2 and exhaust duct T5, form return air duct system of the present utility model.Because returning to fountain air conditioning chamber 4 through return air inlet 53, the air in face weave workshop forms return air, in return air trifle in the world and waste material by two kinds of collectors, be that rotary collector F1 and static filter F2 separated and collected are purified, when the enthalpy of return air is directly discharged higher than the enthalpy of outdoor new wind, when return air enthalpy will mainly utilize return air air-supply in fountain air conditioning chamber lower than the enthalpy of outdoor new wind, be conducive to equally reduce refrigeration station power consumption, at utmost utilize new wind.Due to particular design of the present utility model, make air supply mode variation, different air supply ducts can send respectively to diverse location in face weave workshop the wind of different humidity under the control of digital control system, for specific production process provides desirable temperature and humidity space environment, for operator provides comfortable, clean working environment, total blast volume reduces, and is conducive to efficient energy-saving.

In present embodiment, the delivery port of cooling tower 1, water inlet described in above-mentioned refrigeration station are connected to respectively water inlet, the delivery port of condenser in centrifugal water chillers 2 through the 5th water pipe W5, the 6th water pipe W6, in centrifugal water chillers 2, the delivery port of evaporimeter is connected to the water inlet of the low temperature backwater zone 31 of water storage pool 3 through the second water pipe W2, and in centrifugal water chillers 2, the water inlet of evaporimeter is connected to the delivery port in the high-temperature tempering district 32 of water storage pool 3 through the first water pipe W1.Because above-mentioned refrigeration station is an independently cooling cycle system, the variation of the demand of the load variations in face weave workshop 5 and fountain air conditioning chamber 4 chilled waters can directly not affect the operation of refrigeration station, can make the power consumption of refrigeration station greatly reduce, farthest utilize new wind, utilize electricity price between peak and valley to reduce operating cost, efficient energy-saving.

In present embodiment, above-mentioned fountain air conditioning chamber 4 comprises air conditioning chamber's shell 47 and the feeding spraying pump 41 in it is set, return flume 42, make the delivery port of described water storage pool 3 low temperature backwater zones 31 be connected to described feeding spraying pump 41 through the 3rd water pipe W3, by the chilled water secondary pump 22 being arranged on the 3rd water pipe W3, the chilled water of water storage pool 3 low temperature backwater zones 31 is pumped to feeding spraying pump 41, also can make the delivery port of described return flume 42 through the 4th water pipe W4, be connected to the water inlet in described water storage pool 3 high-temperature tempering districts 32, by the back water pump 23 being arranged on the 4th water pipe W4, the water of return flume 42 is drawn back to the high-temperature tempering district 32 to water storage pool 3.Above-mentioned fountain air conditioning chamber 4 also comprises downwind plate 43, band nozzle spray row 44, water fender water filter 45 and the air-supply unit 46 being installed in successively in described air conditioning chamber shell 47, is also equiped with for sending the fresh wind tube T4 of new wind on described air conditioning chamber shell 47.

In addition, the utility model face weave workshop High-efficient Water cold-storage constant temperature and humidity air-conditioning system also can comprise and also comprises a digital control system, described digital control system comprises temperature sensor, the humidity sensor that is arranged on environment

air supply duct

51 and 52 mouthfuls of technique air supply ducts in fresh wind tube T4, face weave workshop 5, the 3rd airduct T3 return air inlet, water fender water filter 45 outlet sides, is arranged on the differential pressure controller for regulating water flow in the 5th water pipe W3 and is arranged on the fire-alarm at 5 tops, face weave workshop.Details are as follows for the utility model specific operation process:

The operation of refrigeration station:

Pump 21 of chilled water is delivered to the low temperature backwater zone 31 of water storage pool 3 from the high-temperature tempering district 32 extraction water of water storage pool 3 after centrifugal water chillers 2 by the second water pipe W2, chilled water secondary pump 22 extracts from the low temperature backwater zone 31 of water storage pool 3 feeding spraying pump 41 that chilled water is delivered to fountain air conditioning chamber 4, and the freezing water yield of fountain air conditioning chamber 4 is controlled by the differential pressure controller for regulating water flow being arranged in the 5th water pipe W3.If the required freezing water yield in fountain air conditioning chamber 4 continues to be less than the specified water yield of centrifugal water chillers 2 of flowing through, have exhaustless chilled water is stored in water storage pool 3, chilled water in low temperature backwater zone 31 can get more and more, and slowly overflows and flows into high-temperature tempering district 32, thereby realize cold-storage.Chilled water secondary pump 22 is drawn chilled water from the low temperature backwater zone 31 of water storage pool 3 and is sent to fountain air conditioning chamber 4, and the chilled water backwater of fountain air conditioning chamber 4 and overflow water are returned to the high-temperature tempering district 32 of water storage pool 3 by return flume 42.Only have the enthalpy of working as outdoor air higher than setting value, centrifugal water chillers 2 just will be moved, if the water temperature of the low temperature backwater zone 31 of water storage pool 3 surpasses setting value, centrifugal water chillers 2 brings into operation.If outdoor air enthalpy is lower than setting value, centrifugal water chillers 2 can not be moved.If the water temperature in the high-temperature tempering district 32 of water storage pool 3 is lower than setting value, water storage pool 3 cold-storages finish, centrifugal water chillers 2 is by out of service, therefore, cold machine boot sequence is: 1. enthalpy sensor sends signal, and 2. cold accumulating pond temperature sensor sends signal, 3. require to start cold machine, 4. start pump and cooling water pump, 5. water flow switch confirms there are current, 6. cold machine startup in the evaporimeter of cold machine and condenser.

The operation in fountain air conditioning chamber 4 and face weave workshop 5:

The air in face weave workshop 5 returns to fountain air conditioning chamber 4 through return air inlet 53 and forms return air, in return air trifle in the world and waste material by two kinds of collectors, be that rotary collector F1 and static filter F2 separated and collected are purified, when the enthalpy of the return air enthalpy higher than outdoor new wind, fresh wind tube T4 and exhaust duct T5 open, return air inlet 53 turns down, return air will directly be discharged by exhaust duct T5, and fountain air conditioning chamber 4 will utilize the new wind of outdoor fresh wind tube T4 to greatest extent.When the enthalpy of return air enthalpy lower than outdoor new wind, fresh wind tube T4 and exhaust duct T5 turn down, and air returning valve is opened, and fountain air conditioning chamber will mainly utilize return air air-supply, are conducive to reduce refrigeration station power consumption, at utmost utilize new wind.

While needing moistening and lowering temperature, 4 pairs of fountain air conditioning chambers air carries out humidification and cooling processing, the chilled water that feeding spraying pump 41 obtains absorption is transported to band nozzle spray row 44, nozzle on it is ejected into the chilled water of atomization in air, by this process, absorption of air partly atomized water, completed cooling and process humidification; While needing dehumidification cooling, if fountain air conditioning chamber 4 air dew point to be dealt with is higher than spraying the shower water of row's 44 top nozzles ejections with nozzle, so airborne part aqueous vapor will condense in the surface of shower water, and air is dehumidified.If reach the object of dehumidifying, air themperature after fountain air conditioning chamber 4 processes is lower than meeting the face weave workshop desired temperature of 5 environmental requirement possibly, for fear of post bake and energy waste, can realize the humiture requirement in face weave workshop 5 by the method that the air of return air He Jing fountain air conditioning chamber 4 is mixed.If the humidity of fountain air conditioning chamber 4 air-supplies is excessive, to reduce the rotation speed of fan of air-supply unit 46, reduce water spray or close with the spray air-valve on nozzle spray row 44, open fresh wind tube T4 simultaneously.If the humidity of fountain air conditioning chamber 4 air-supplies is too low, to open with the spray air-valve on nozzle spray row 44, close fresh wind tube T4, improve the rotation speed of fan of air-supply unit 46 simultaneously.

Therefore, because the utility model utilizes the refrigeration station of water storage pool cold-storage, it is an independent cooling circulatory system, the variation of the demand of the load variations in face weave workshop and fountain air conditioning chamber chilled water can directly not affect the operation of refrigeration station, can make the power consumption of refrigeration station greatly reduce, farthest utilize new wind, utilize electricity price between peak and valley to reduce operating cost, efficient energy-saving; The utility model provides the environment of weaving of efficient constant-temperature constant humidity for face weave workshop, what make warp beam, weft yarn and fabric remains consistent containing damp rate, reduced because of weave faults such as tension force inequality that weaving process produces, cracked ends staplings, guarantee fabric quality, enhanced productivity.

And, the air in the utility model face weave workshop returns to fountain air conditioning chamber through return air inlet and forms return air, in return air, trifle in the world and waste material are purified by two kinds of collector separated and collected, when the enthalpy of return air is directly discharged higher than the enthalpy of outdoor new wind, when return air enthalpy will mainly utilize return air air-supply in fountain air conditioning chamber lower than the enthalpy of outdoor new wind, be conducive to equally reduce refrigeration station power consumption, at utmost utilize new wind; The variation of the utility model air supply mode, different air supply ducts can send respectively to diverse location in face weave workshop the wind of different humidity under the control of digital control system, for specific production process provides desirable temperature and humidity space environment, for operator provides comfortable, clean working environment, total blast volume reduces, and is conducive to efficient energy-saving.

The above is only preferred embodiment of the present utility model; should be understood that; for those skilled in the art; do not departing under the prerequisite of the utility model know-why; can also make some improvement and modification, these improve and modification also should be considered as protection domain of the present utility model.

Claims

1. a face weave workshop High-efficient Water cold-storage constant temperature and humidity air-conditioning system, is characterized in that:

Comprise refrigeration station, by water pipe, interconnect the fountain air conditioning chamber (4) of described refrigeration station and via the be interconnected face weave workshop (5) of described fountain air conditioning chamber (4) of airduct;

Described refrigeration station is an independent cooling circulatory system that comprises that cooling tower (1), cooling water pump (11), centrifugal water chillers (2), a pump of chilled water (21) and water storage pool (3) connect into through water pipe;

Described face weave workshop (5) comprises the technique air supply duct (52) that is positioned at the environment air supply duct (51) at top, workshop and is positioned at loom top, described environment air supply duct (51) and described technique air supply duct (52) are communicated with fountain air conditioning chamber (4) through the second airduct (T2), the first airduct (T1) respectively, and the return air inlet (53) of bottom, described face weave workshop (5) is communicated with and is back to described fountain air conditioning chamber (4) through the 3rd airduct (T3).

2. face weave according to claim 1 workshop High-efficient Water cold-storage constant temperature and humidity air-conditioning system, it is characterized in that: the delivery port of cooling tower described in described refrigeration station (1), water inlet is respectively through the 5th water pipe (W5), the 6th water pipe (W6) is connected to the water inlet of condenser in centrifugal water chillers (2), delivery port, in described centrifugal water chillers (2), the delivery port of evaporimeter is connected to the water inlet of the low temperature backwater zone (31) of water storage pool (3) through the second water pipe (W2), in described centrifugal water chillers (2), the water inlet of evaporimeter is connected to the delivery port in the high-temperature tempering district (32) of water storage pool (3) through the first water pipe (W1).

3. face weave according to claim 1 workshop High-efficient Water cold-storage constant temperature and humidity air-conditioning system, is characterized in that:

Described fountain air conditioning chamber (4) comprises air conditioning chamber's shell (47) and feeding spraying pump (41), the return flume (42) in it is set;

Make the delivery port of described water storage pool (3) low temperature backwater zone (31) be connected to described feeding spraying pump (41) through the 3rd water pipe (W3), by the chilled water secondary pump (22) being arranged on the 3rd water pipe (W3), the chilled water of water storage pool (3) low temperature backwater zone (31) is pumped to feeding spraying pump (41);

Make the delivery port of described return flume (42) through the 4th water pipe (W4), be connected to the water inlet in described water storage pool (3) high-temperature tempering district (32), by the back water pump (23) being arranged on the 4th water pipe (W4), the water of return flume (42) is drawn back to the high-temperature tempering district (32) to water storage pool (3).

4. face weave according to claim 1 workshop High-efficient Water cold-storage constant temperature and humidity air-conditioning system, is characterized in that: described fountain air conditioning chamber (4) also comprises downwind plate (43), band nozzle spray row (44), water fender water filter (45) and the air-supply unit (46) being installed in successively in described air conditioning chamber shell (47).

5. face weave according to claim 4 workshop High-efficient Water cold-storage constant temperature and humidity air-conditioning system, is characterized in that: on described air conditioning chamber shell (47), be also equiped with the fresh wind tube (T4) for sending new wind.

6. face weave according to claim 1 workshop High-efficient Water cold-storage constant temperature and humidity air-conditioning system, is characterized in that: on described the first airduct (T1), be provided with for return air or send first by-passing valve (T7) of new wind.

7. face weave according to claim 1 workshop High-efficient Water cold-storage constant temperature and humidity air-conditioning system, is characterized in that: on described the second airduct (T2), be provided with for return air or send second by-passing valve (T6) of new wind.

8. face weave according to claim 1 workshop High-efficient Water cold-storage constant temperature and humidity air-conditioning system, is characterized in that: in the upper close described face weave workshop (5) of described the 3rd airduct (T3), locate to be equiped with the rotary collector (F1) for air filtration or trifle in the world collection.

9. face weave according to claim 1 workshop High-efficient Water cold-storage constant temperature and humidity air-conditioning system, it is characterized in that: in the upper end near described fountain air conditioning chamber (4) of described the 3rd airduct (T3), be provided with static filter (F2) and the exhaust duct (T5) for air filtration or trifle in the world, collected, and be provided with return air inlet and pass to the first by-passing valve (T7) and the second by-passing valve (T6).

10. face weave according to claim 1 workshop High-efficient Water cold-storage constant temperature and humidity air-conditioning system, it is characterized in that: also comprise a digital control system, described digital control system comprises and is arranged on environment air supply duct (51) and technique air supply duct (52) mouth in fresh wind tube (T4) and face weave workshop (5), temperature sensor and the humidity sensor of the 3rd airduct (T3) return air inlet or water fender water filter (45) outlet side, be arranged on the differential pressure controller for regulating water flow in the 5th water pipe (W3) and be arranged on the fire-alarm at top, face weave workshop (5).