CN1312445C - Ultrasound wave intensifying regenerating dehumidifying air conditioner - Google Patents
Ultrasound wave intensifying regenerating dehumidifying air conditioner Download PDFInfo
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- CN1312445C CN1312445C CNB2005101104418A CN200510110441A CN1312445C CN 1312445 C CN1312445 C CN 1312445C CN B2005101104418 A CNB2005101104418 A CN B2005101104418A CN 200510110441 A CN200510110441 A CN 200510110441A CN 1312445 C CN1312445 C CN 1312445C
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B30/00—Energy efficient heating, ventilation or air conditioning [HVAC]
- Y02B30/70—Efficient control or regulation technologies, e.g. for control of refrigerant flow, motor or heating
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Abstract
The present invention relates to a dehumidifying air conditioner for ultrasonic intensifying regenerating dehumidification, which belongs to the technical fields of ultrasonic and air conditioner project application. The present invention comprises a compressor, a condenser, a throttle valve, an evaporator, a heat exhaust fan, an air conditioner air feeder, a heat exhaust air channel, a dehumidifying/regenerating air channel and a cooling air channel, wherein the dehumidifying/regenerating air channel comprises an air return pipe, an air exhaust pipe, an adsorption bed, an ultrasonic generator and a plurality of air valves; the compressor, the condenser, the evaporator and the throttle valve are connected into an independent refrigeration system; the condenser and the evaporator are respectively placed in the heat exhaust air channel and the cooling air channel; the dehumidifying/regenerating air channel is positioned and connected between the heat exhaust air channel and the cooling air channel; a vibrator driven by the ultrasonic generator is buried in desiccant in the adsorption bed. On one hand, the present invention uses exhaust heat of the system to regenerate adsorbed matter, and on the other hand, the present invention uses special effects of ultrasonic to intensify the heat exhaust and regeneration effects; because the regeneration does not need an external heat source, the present invention has obvious energy saving effect and strong applicability, and has obvious social benefit and economic benefit.
Description
Technical field
What the present invention relates to is a kind of dehumidification air conditioner device.Particularly a kind of dehumidification air conditioner device of ultrasound wave intensifying regenerating dehumidifying belongs to the ultrasonic Air-conditioning Engineering applied technical field that involves.
Background technology
In the summer of humid area, dehumidification air conditioner is compared with common air-conditioning, has energy-saving effect preferably.The basic principle of dehumidification air conditioner is: at first utilize drier to adsorb processed airborne moisture, utilize cooling coil to air cooling-down then.In the middle of the dehumidification air conditioner operation, a crucial step is the regeneration of drier.At present, normally utilize high temperature heat source that drier is regenerated, in the prior art, application number is 200410018292, and name is called the patent of invention of hybrid dehumidification air conditioner, directly utilizes heater that drier is regenerated; Application number is 03273614, and name is called the novel solar energy adsorption and dehumidification air-conditioning and the patent of invention of hot water apparatus, then utilizes the high-temperature-hot-water of solar water heater that drier is regenerated.Above-mentioned two kinds of methods all utilize extraneous high-grade heat energy that drier is regenerated, make the desiccant temperature after the regeneration very high, not only influence the ability of drier adsorption moisture, and cause the temperature of processed air to rise, and then increase the sensible cooling load of cooling coil.Like this, less when processed air humidity, when the refrigeration duty of diving was little, the energy-saving effect of this dehumidification air conditioner was also not obvious, sometimes may also can be bigger than the energy consumption of common air-conditioning.Therefore, reducing the regeneration temperature of drier, is the key of performance dehumidification air conditioner power savings advantages.But regeneration temperature directly influences the regeneration efficiency of drier, and regeneration temperature is low more, and regeneration efficiency also will be low more.
Summary of the invention
Be deficiency and the defective that overcomes prior art, the present invention designs a kind of regeneration efficiency that neither influences drier, can reduce the dehumidification air conditioner device of the ultrasound wave intensifying regenerating dehumidifying of desiccant regeneration temperature again.When utilizing the heat extraction of air-conditioning condenser that drier is regenerated, also utilize hyperacoustic mechanism to make drier generation dither, destroy the moisture film of desiccant particle outer surface, strengthen heat, matter transmission between hot-air and the drier, make drier under lower regeneration temperature, have higher regeneration efficiency thereby reach.
The present invention realizes by following technical proposals, the present invention includes compressor, condenser, choke valve, evaporimeter, heat extraction blower fan, air-conditioning ventilating, heat extraction air channel, dehumidifying/regeneration air channel, cooling air channel.The A supersonic generator, the B ultrasonic sonic generator, the A oscillator, the B oscillator, the A adsorbent bed, the B adsorbent bed, dividing plate and some control air-valves, wherein, dehumidifying/regeneration air channel comprises the indoor backwind tube of A, the indoor backwind tube of B, A exhaust duct, B exhaust duct.
Two ends, the left and right sides, dehumidifying/regeneration air channel link to each other with the entrance point of heat extraction ducting outlet end with the cooling air channel respectively, on dehumidifying/regeneration air channel is divided into by dividing plate, following two autonomous channels, indoor backwind tube of A and A exhaust duct lay respectively at two ends, the outside, autonomous channel on dehumidifying/regeneration air channel, indoor backwind tube of B and B exhaust duct lay respectively at two ends, the outside, autonomous channel under dehumidifying/regeneration air channel, condenser and heat extraction blower fan place the heat extraction air channel successively by the direction of air-flow, evaporimeter and air-conditioning ventilating place the cooling air channel successively by the direction of air-flow, the A air-valve is installed in the upper channel entrance point in dehumidifying/regeneration air channel, the G air-valve is installed in the upper channel port of export in dehumidifying/regeneration air channel, C air-valve and E air-valve are installed in respectively in indoor backwind tube of A and the A exhaust duct, the B air-valve is installed in the lower channel entrance point in dehumidifying/regeneration air channel, the H air-valve is installed in the lower channel port of export in dehumidifying/regeneration air channel, D air-valve and F air-valve are installed in respectively in indoor backwind tube of B and the B exhaust duct, A adsorbent bed and B adsorbent bed lay respectively at dehumidifying/regeneration air channel on, the middle part of lower channel, the drier filling is in two adsorbent beds.The A oscillator is embedded in the A adsorbent bed, the B oscillator is embedded in the B adsorbent bed, A supersonic generator and B ultrasonic sonic generator lay respectively at dehumidifying/regeneration air channel on, the outside of lower channel, and respectively with the A oscillator, the B oscillator links to each other, advancing of condenser coil, the port of export is the outlet by pipeline and compressor respectively, one end of choke valve links to each other, advancing of evaporator coil, the port of export is the other end by pipeline and choke valve respectively, the import of compressor links to each other, the cooling air channel, indoor backwind tube of A and the indoor backwind tube of B all are connected the heat extraction air channel with air-conditioned room, A exhaust duct and B exhaust duct all are connected with outdoor.The start and stop of the switching of A air-valve, B air-valve, C air-valve, D air-valve, E air-valve, F air-valve, G air-valve and H air-valve and A supersonic generator and B ultrasonic sonic generator are by the unified control of controller follow procedure.
When the drier in the A adsorbent bed need be regenerated, the B adsorbent bed then was used for the dehumidifying of indoor humid air; Otherwise when the drier in the B adsorbent bed need be regenerated, the A adsorbent bed then was used for the dehumidifying of indoor humid air; So cycle alternation operation.The regeneration of the drier in A adsorbent bed and the B adsorbent bed is to realize by the condensation heat extraction that utilizes refrigeration system.The effect of A supersonic generator and B ultrasonic sonic generator is when drier is regenerated, drive the vibration of drier generation high-frequency by traction A oscillator and B oscillator, constantly destroy the moisture film and the air film of desiccant particle outer surface, to reach the caloic exchange coefficient that strengthens between drier and the hot-air, improve the regeneration efficiency of drier under low regeneration temperature situation.
Beneficial effect of the present invention:
The dehumidification air conditioner device of ultrasound wave intensifying regenerating dehumidifying of the present invention has utilized the heat extraction of refrigeration system that drier is regenerated dexterously, simultaneously, also creatively utilize the regeneration effect under hyperacoustic Mohaupt effect and the cavitation effect reinforcement heat extraction, the recovery utilization rate of condensation heat extraction is improved significantly; Lower regeneration temperature can reduce sensible cooling load greatly, and then reduces the energy consumption of dehumidification air conditioner refrigeration system, improves the energy utilization efficiency of dehumidification air conditioner refrigeration system; Because the present invention does not need other external thermal source to finish the regenerative process of adsorbate, so not only energy-saving effect is obvious, and has very strong adaptability and operability, has remarkable social benefit and economic benefit.
Description of drawings
Fig. 1 is the dehumidification air conditioner device structural representation of ultrasound wave intensifying regenerating dehumidifying of the present invention.
The specific embodiment
As shown in Figure 1, the present invention includes compressor 1, condenser 2, choke valve 3, evaporimeter 4, heat extraction blower fan 5, air-conditioning ventilating 6, heat extraction air channel 7, dehumidifying/regeneration air channel 8, cooling air channel 9, A air-valve 14, B air-valve 15, C air-valve 16, D air-valve 17, E air-valve 18, F air-valve 19, G air-valve 20, H air-valve 21, A supersonic generator 22, B ultrasonic sonic generator 23, A oscillator 24, B oscillator 25, A adsorbent bed 26, B adsorbent bed 27, dividing plate 28, wherein, dehumidifying/regeneration air channel 8 comprises the indoor backwind tube 10 of A, the indoor backwind tube 11 of B, A exhaust duct 12, B exhaust duct 13.Two ends, 8 left and right sides, dehumidifying/regeneration air channel link to each other with the entrance point of heat extraction air channel 7 ports of export with cooling air channel 9 respectively, on dehumidifying/regeneration air channel 8 is divided into by dividing plate 28, following two autonomous channels, dividing plate 28 outer surfaces are covered with the sound absorption heat-barrier material, indoor backwind tube 10 of A and A exhaust duct 12 lay respectively at two ends, the outside, autonomous channel on dehumidifying/regeneration air channel 8, indoor backwind tube 11 of B and B exhaust duct 13 lay respectively at dehumidifying/two ends, the outside, 8 times autonomous channels, regeneration air channel, condenser 2 and heat extraction blower fan 5 place heat extraction air channel 7 successively by the direction of air-flow, evaporimeter 4 and air-conditioning ventilating 6 place cooling air channel 9 successively by the direction of air-flow, A air-valve 14 is installed in the upper channel entrance point in dehumidifying/regeneration air channel 8, G air-valve 20 is installed in the upper channel port of export in dehumidifying/regeneration air channel 8, C air-valve 16 and E air-valve 18 are installed in respectively in indoor backwind tube 10 of A and the A exhaust duct 12, B air-valve 15 is installed in the lower channel entrance point in dehumidifying/regeneration air channel 8, H air-valve 21 is installed in the lower channel port of export in dehumidifying/regeneration air channel 8, D air-valve 17 and F air-valve 19 are installed in respectively in indoor backwind tube 11 of B and the B exhaust duct 13, A adsorbent bed 26 and B adsorbent bed 27 lay respectively at dehumidifying/regeneration air channel 8 on, the middle part of lower channel, filling silica gel is as drier in A adsorbent bed 26 and the B adsorbent bed 27, A oscillator 24 is embedded in the A adsorbent bed 26, B oscillator 25 is embedded in the B adsorbent bed 27, A supersonic generator 22 and B ultrasonic sonic generator 23 lay respectively at dehumidifying/regeneration air channel 8 on, the outside of lower channel, and respectively with A oscillator 24, B oscillator 25 links to each other, advancing of condenser 2 coil pipes, the port of export is the outlet by pipeline and compressor 1 respectively, one end of choke valve 3 links to each other, advancing of evaporimeter 4 coil pipes, the port of export is the other end by pipeline and choke valve 3 respectively, the import of compressor 1 links to each other, cooling air channel 9, indoor backwind tube 10 of A and the indoor backwind tube 11 of B all are connected heat extraction air channel 7 with air-conditioned room, A exhaust duct 12 and B exhaust duct 13 all are connected with outdoor.The start and stop of the switching of A air-valve 14, B air-valve 15, C air-valve 16, D air-valve 17, E air-valve 18, F air-valve 19, G air-valve 20 and H air-valve 21 and A supersonic generator 22 and B ultrasonic sonic generator 23 are by the unified control of controller follow procedure.
When the drier in the A adsorbent bed 26 need be regenerated, B air-valve 15, C air-valve 16, F air-valve 19, G air-valve 20 cuts out, A air-valve 14, D air-valve 17, E air-valve 18, H air-valve 21 is opened, A supersonic generator 22 is started working, B ultrasonic sonic generator 23 quits work, outdoor air under the effect of heat extraction blower fan 5 after condenser 2 is heated, through A adsorbent bed 26, by the caloic exchange moisture in the drier is taken away, discharge from A exhaust duct 12 at last, progressively realize the desiccant regeneration in the A adsorbent bed 26, room air is then by the indoor backwind tube 11 of B, through the drier dehumidifying that B adsorbent bed 27 is dried, after evaporimeter 4 coolings, send into air-conditioned room then.
When the drier in the B adsorbent bed 27 need be regenerated, B air-valve 15, C air-valve 16, F air-valve 19, G air-valve 20 is opened, A air-valve 14, D air-valve 17, E air-valve 18, H air-valve 21 cuts out, B ultrasonic sonic generator 23 is started working, A supersonic generator 22 quits work, outdoor air under the effect of heat extraction blower fan 5 after condenser 2 is heated, through B adsorbent bed 27, by the caloic exchange moisture in the drier is taken away, discharged from B exhaust duct 13 at last, progressively realize the desiccant regeneration in the B adsorbent bed 27, room air is then by the indoor backwind tube 10 of A, through A adsorbent bed 26, the drier dehumidifying that is dried is sent into air-conditioned room then after evaporimeter 4 coolings.
The effect of A supersonic generator 22 and B ultrasonic sonic generator 23 is when drier is regenerated, drive the vibration of drier generation high-frequency by traction A oscillator 24 and B oscillator 25, constantly destroy the moisture film and the air film of desiccant particle outer surface, to reach the caloic exchange coefficient that strengthens between drier and the hot-air, improve the regeneration efficiency of drier under low regeneration temperature situation.
Claims (3)
1. the dehumidification air conditioner device of ultrasound wave intensifying regenerating dehumidifying, comprise compressor (1), condenser (2), choke valve (3), evaporimeter (4), heat extraction blower fan (5), air-conditioning ventilating (6), heat extraction air channel (7), dehumidifying/regeneration air channel (8), cooling air channel (9), A air-valve (14), B air-valve (15), C air-valve (16), D air-valve (17), E air-valve (18), F air-valve (19), G air-valve (20), H air-valve (21), it is characterized in that also comprising A supersonic generator (22), B ultrasonic sonic generator (23), A oscillator (24), B oscillator (25), A adsorbent bed (26), B adsorbent bed (27), dividing plate (28), dehumidifying/regeneration air channel (8) comprises the indoor backwind tube of A (10), the indoor backwind tube of B (11), A exhaust duct (12), B exhaust duct (13), two ends, the left and right sides, dehumidifying/regeneration air channel (8) link to each other with the entrance point of heat extraction air channel (7) port of export with cooling air channel (9) respectively, on dehumidifying/regeneration air channel (8) is divided into by dividing plate (28), following two autonomous channels, indoor backwind tube of A (10) and A exhaust duct (12) lay respectively at dehumidifying/regeneration air channel (8) and go up two ends, the outside, autonomous channel, indoor backwind tube of B (11) and B exhaust duct (13) lay respectively at two ends, the outside, autonomous channel under dehumidifying/regeneration air channel (8), condenser (2) and heat extraction blower fan (5) place heat extraction air channel (7) successively by the direction of air-flow, evaporimeter (4) and air-conditioning ventilating (6) place cooling air channel (9) successively by the direction of air-flow, A air-valve (14) is installed in the upper channel entrance point of dehumidifying/regeneration air channel (8), G air-valve (20) is installed in the upper channel port of export of dehumidifying/regeneration air channel (8), C air-valve (16) and E air-valve (18) are installed in respectively in indoor backwind tube of A (10) and the A exhaust duct (12), B air-valve (15) is installed in the lower channel entrance point of dehumidifying/regeneration air channel (8), H air-valve (21) is installed in the lower channel port of export of dehumidifying/regeneration air channel (8), D air-valve (17) and F air-valve (19) are installed in respectively in indoor backwind tube of B (11) and the B exhaust duct (13), A adsorbent bed (26) and B adsorbent bed (27) lay respectively at dehumidifying/regeneration air channel (8) on, the middle part of lower channel, the drier filling is in A adsorbent bed (26) and B adsorbent bed (27), A oscillator (24) is embedded in the A adsorbent bed (26), B oscillator (25) is embedded in the B adsorbent bed (27), A supersonic generator (22) and B ultrasonic sonic generator (23) lay respectively at dehumidifying/regeneration air channel (8) on, the outside of lower channel, and respectively with A oscillator (24), B oscillator (25) links to each other, advancing of condenser (2) coil pipe, the port of export is the outlet by pipeline and compressor (1) respectively, one end of choke valve (3) links to each other, advancing of evaporimeter (4) coil pipe, the port of export is the other end by pipeline and choke valve (3) respectively, the import of compressor (1) links to each other, cooling air channel (9), indoor backwind tube of A (10) and the indoor backwind tube of B (11) all are connected with air-conditioned room, heat extraction air channel (7), A exhaust duct (12) and B exhaust duct (13) all are connected with outdoor.
2. the dehumidification air conditioner device of ultrasound wave intensifying regenerating dehumidifying according to claim 1 is characterized in that the drier of described A adsorbent bed (26) and the interior filling of B adsorbent bed (27) is a silica gel, and dividing plate (28) outer surface is covered with the sound absorption heat-barrier material.
3. the dehumidification air conditioner device of ultrasound wave intensifying regenerating according to claim 1 dehumidifying is characterized in that the switching of described A air-valve (14), B air-valve (15), C air-valve (16), D air-valve (17), E air-valve (18), F air-valve (19), G air-valve (20) and H air-valve (21) and the start and stop of A supersonic generator (22) and B ultrasonic sonic generator (23) unify to control by the controller follow procedure.
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Families Citing this family (8)
Publication number | Priority date | Publication date | Assignee | Title |
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JP4321650B2 (en) * | 2007-12-07 | 2009-08-26 | ダイキン工業株式会社 | Humidity control device |
CN102177825B (en) * | 2011-03-24 | 2012-07-04 | 中国扬子集团滁州扬子空调器有限公司 | Air cooling-dehumidifying method and cooling-dehumidifying air-conditioning system for plant factory |
CN102261703B (en) * | 2011-07-25 | 2013-07-10 | 上海交通大学 | Runner dehumidification air-conditioning system adopting heat pipes for heat recovery and adopting ultrasound for enhancing regeneration |
JP6528094B2 (en) * | 2015-04-08 | 2019-06-12 | シャープ株式会社 | Water accumulation device and water accumulation method |
CN105387535A (en) * | 2015-12-14 | 2016-03-09 | 泰州市日高冷机有限公司 | Split type absorbing rotary plate and rotary wheel dehumidifier applying absorbing rotary plate |
CN105402831A (en) * | 2015-12-14 | 2016-03-16 | 泰州市日高冷机有限公司 | Adsorption rotary disc and rotary dehumidifier with adsorption rotary disc |
JP6955582B2 (en) * | 2018-01-04 | 2021-10-27 | シャープ株式会社 | Humidity control device and humidity control method |
CN112689732A (en) * | 2018-09-18 | 2021-04-20 | 夏普株式会社 | Humidity control system |
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