CN101706135A - Atomization thermoregulation outdoor air central air-conditioning system - Google Patents
Atomization thermoregulation outdoor air central air-conditioning system Download PDFInfo
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- CN101706135A CN101706135A CN200910186559A CN200910186559A CN101706135A CN 101706135 A CN101706135 A CN 101706135A CN 200910186559 A CN200910186559 A CN 200910186559A CN 200910186559 A CN200910186559 A CN 200910186559A CN 101706135 A CN101706135 A CN 101706135A
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Abstract
The invention discloses an atomization thermoregulation outdoor air central air-conditioning system, relating to the air-conditioner field and comprising 1. a cold-hot double-mode heat pump; 2. a heat preservation water tank; 3. an outdoor air filter and a fan; 4. a return air filter and a fan; 5. an air exhaust filter and a fan; 6. an air-conditioner air outlet; 7. a circulating water pump; 8. a radiator (ground heating system); 9. an assistant heater; a. a reverse current total-heat plate-fin heat exchanger; and b. an atomization thermoregulator of the plate-fin heat exchanger. When refrigeration is conducted in summer, atomized water is used for evaporation and heat exchange so as to reduce power consumption, atomized cold/hot medium water flow out by self water pressure, the water pump only conducts short-time cycle to reduce the power consumption, the total-heat plate-fin heat exchanger can realize latent heat recovery, and the atomization thermoregulator of the plate-fin heat exchanger can realize power-free water replenishing overflow drain protection and can provide fresh air for indoor space.
Description
Affiliated field
The present invention relates to especially a kind of atomization thermoregulation outdoor air central air conditioner system of field of air conditioning
Background technology
It is convenient that central air-conditioning regulating system known today has the multi-joint machine central air conditioner system of following form, water ring fan coil central air conditioner system, above-mentioned two kinds of central air conditioner systems are regulated temperature, but cost is high and the power consumption height can not provide new wind to indoor.Brand-new wind central air conditioner system cost is low, can provide new wind to indoor, but regulate the temperature inconvenience.
Summary of the invention;
In order to overcome multi-joint machine central air conditioner system, water ring fan coil central air conditioner system, the brand-new above-mentioned deficiency of wind central air conditioner system, the invention provides a kind of atomization thermoregulation outdoor air central air conditioner system.Comprise 1 cold and hot double-standard heat pump, 2 attemperaters, 3 new wind filters and fan, 4 return air filters and fan, 5 exhaust-air filters and fan, the outlet of 6 air-conditioning wind, 7 water circulating pumps, 8 radiators (floor heating heating system), 9 auxiliary heaters, the full hot plate wing of a adverse current heat exchanger, b plate-fin heat exchanger atomizing thermosistor.Its feature (1) adopts the full hot plate wing of a adverse current heat exchanger to carry out full heat exchange.(2) adopt summer control return air amount and control b plate-fin heat exchanger atomizing thermosistor that the atomization quantity of chilled water is regulated the room temperature jointly, when needing heating and moistening, adopt winter control return air amount and control b plate-fin heat exchanger atomizing thermosistor that the atomization quantity of heat medium water is regulated the room temperature jointly, stop the operation of b plate-fin heat exchanger atomizing thermosistor when only heating not humidification winter, open 7 water circulating pumps and regulate the room temperature with radiation mode by 8 radiators or (floor heating heating system).(3) b plate-fin heat exchanger atomizing thermosistor installation seat is lower than 2 attemperaters.
Above-mentioned said b plate-fin heat exchanger atomizing thermosistor is to be made of b1 plate-fin heat exchanger interface, b2 cistern, b3 ultrasonic atomizer, b4 ball float automatic water replenishing device, the anti-spill and leakage connecting rod of b5, b6 electromagnetism water valve, b7 exhaust duct interface.Feature (1) is that b4 ball float automatic water replenishing device and b6 electromagnetism water valve use flexible pipe to be connected.(2) b4 ball float automatic water replenishing device is contained on the anti-spill and leakage connecting rod of b5.
The invention has the beneficial effects as follows that the cold/heat medium water of atomizing is by self water pressure outflow, water pump is only done cycle down low energy consumption in short-term, utilize the atomized water evaporation and heat-exchange to cut down the consumption of energy when freeze summer, utilize full hot plate wing heat exchanger can realize that latent heat reclaims, plate-fin heat exchanger atomizing thermosistor can realize that the non-transformer moisturizing prevents spill and leakage, and the indoor new wind that provides is provided.
Description of drawings;
Fig. 1 is that wind central air conditioner system schematic diagram is transferred in the atomizing temperature adjustment.
Fig. 2 is the full hot plate wing of an adverse current heat exchanger vertical view.
Fig. 3 is the full hot plate wing of an adverse current heat exchanger side view.
Fig. 4 is the full hot plate wing of a Fig. 2 adverse current heat exchanger a-b face cutaway view.
Fig. 5 is a plate-fin heat exchanger atomizing thermosistor side view.
Fig. 6 is a plate-fin heat exchanger atomizing thermosistor front view.
Fig. 7 is a plate-fin heat exchanger atomizing thermosistor vertical view.
Concrete enforcement;
Cold/the heat medium water of 1 cold and hot double-standard heat pump preparation is kept in 2 attemperaters, and 2 attemperaters connect .b plate-fin heat exchanger atomizing thermosistor by water pipe with b plate-fin heat exchanger atomizing thermosistor, 8 radiators or (floor heating heating system), 7 water circulating pumps and the seat is installed should be lower than 2 attemperaters. and be equipped with 9 auxiliary heaters.
Cold/heat medium water, do short-time duty by 7 water circulating pumps and carry through b6 magnetic valve, b4 ball float automatic water replenishing device to the b2 cistern, hutch water device was closed and is stopped to add water when water level rose to b4 ball float automatic water replenishing device.Water level continues to rise when b4 ball float automatic water replenishing device is malfunctioning, withstands b5 and prevents that the spill and leakage connecting rod makes it remove the b6 magnetic valve and can get back to normally off.
3 new wind filters and fan are contained in the full hot plate wing of a3 adverse current heat exchanger fresh inlet front, and the new wind outlet of the full hot plate wing of a2 adverse current heat exchanger is connected with the outlet of 6 air-conditioning wind by airduct.The full hot plate wing of a4 adverse current heat exchanger air draft import is connected with the b1 plate-fin heat exchanger interface of b plate-fin heat exchanger atomizing thermosistor, and b7 plate-fin heat exchanger atomizing thermosistor exhaust duct interface is connected with fan with 5 exhaust-air filters by airduct.4 return air filters are connected with the full hot plate wing of a3 adverse current heat exchanger fresh inlet by airduct with fan.
The interior chilled water of attemperater in summers 2 is done short-time duty by 7 water circulating pumps and is carried through b6 magnetic valve, b4 ball float automatic water replenishing device to the b2 cistern, hutch water device was closed and is stopped to add water when water level rose to b4 ball float automatic water replenishing device, and the b3 ultrasonic atomizer that starts in the b plate-fin heat exchanger atomizing thermosistor atomizes to chilled water.
New wind enters the new wind of a7 air channel through 3 new wind filters and fan with the full hot plate wing of a3 adverse current heat exchanger fresh inlet and carries out full heat exchange by the indoor exhaust wind that a6 moisture permeable membrane and a5 wind output channel contain the chilled water that atomizes, and is exported by airduct by the new wind of a2 to be exported to indoor new wind after adjusting is provided by 6 air-conditioning wind again.
Indoor return air is entered by the new wind of a7 air channel by the full hot plate wing of a3 adverse current heat exchanger fresh inlet by airduct through 4 return air filters and fan and carries out full heat exchange by the indoor exhaust wind that a6 moisture permeable membrane and a5 wind output channel contain the chilled water that atomizes, again by the new wind outlet of a2 by airduct by the outlet of 6 air-conditioning wind to indoor return air after adjusting is provided.
Indoor exhaust wind through 5 exhaust-air filters and fan by airduct through b7 plate-fin heat exchanger atomizing thermosistor exhaust duct interface, carrying and entering new wind and the return air of a5 wind output channel by a6 moisture permeable membrane and the new wind of a7 air channel through the chilled water of b3 ultrasonic atomizer atomizing through b1 plate-fin heat exchanger interface, the full hot plate wing of a4 adverse current heat exchanger air draft import is that its heat exchanger is lowered the temperature by the full hot plate wing of a1 adverse current heat exchanger wind exhausting outlet row to 1 cold and hot double-standard heat pump after carrying out full heat exchange.
Regulate the room temperature jointly by control return air amount and the atomization quantity of control b plate-fin heat exchanger atomizing thermosistor to chilled water.
Winter when the needs heating and moistening in 2 attemperaters heat medium water do short-time duty by 7 water circulating pumps and carry through b6 magnetic valve, b4 ball float automatic water replenishing device to the b2 cistern, hutch water device was closed and is stopped to add water when water level rose to b4 ball float automatic water replenishing device, and the b3 ultrasonic atomizer that starts in the b plate-fin heat exchanger atomizing thermosistor atomizes to heat medium water.
New wind enters the new wind of a7 air channel through 3 new wind filters and fan with the full hot plate wing of a3 adverse current heat exchanger fresh inlet and carries out full heat exchange by the indoor exhaust wind that a6 moisture permeable membrane and a5 wind output channel contain the heat medium water that atomizes, and is exported by airduct by the new wind of a2 to be exported to indoor new wind after adjusting is provided by 6 air-conditioning wind again.
Indoor return air is entered by the new wind of a7 air channel by the full hot plate wing of a3 adverse current heat exchanger fresh inlet by airduct through 4 return air filters and fan and carries out full heat exchange by the indoor exhaust wind that a6 moisture permeable membrane and a5 wind output channel contain the heat medium water that atomizes, again by the new wind outlet of a2 by airduct by the outlet of 6 air-conditioning wind to indoor return air after adjusting is provided.
Indoor exhaust wind through 5 exhaust-air filters and fan by airduct through b7 plate-fin heat exchanger atomizing thermosistor exhaust duct interface, carry and enter new wind and the return air of a5 wind output channel by a6 moisture permeable membrane and the new wind of a7 air channel through the heat medium water of b3 ultrasonic atomizer atomizing through b1 plate-fin heat exchanger interface, the full hot plate wing of a4 adverse current heat exchanger air draft import and discharge by the heat energy in the 1 cold and hot double-standard heat pump absorption air draft by the full hot plate wing of a1 adverse current heat exchanger wind exhausting outlet after carrying out full heat exchange.
Regulate the room temperature jointly by control return air amount and the atomization quantity of control b plate-fin heat exchanger atomizing thermosistor to heat medium water
Stop the operation of b plate-fin heat exchanger atomizing thermosistor when only heating not humidification winter, open 7 water circulating pumps and provide sensible heat with radiation mode by 8 radiators or (floor heating heating system).
Reduce to when winter temperature and to open 9 auxiliary heaters when cold and hot double-standard heat pump can not start and add hot water.
Claims (2)
1. an atomization thermoregulation outdoor air central air conditioner system comprises 1 cold and hot double-standard heat pump, 2 attemperaters, 3 new wind filters and fan, 4 return air filters and fan, 5 exhaust-air filters and fan, the outlet of 6 air-conditioning wind, 7 water circulating pumps, 8 radiators (floor heating heating system), 9 auxiliary heaters, the full hot plate wing of a adverse current heat exchanger, b plate-fin heat exchanger atomizing thermosistor.Be characterised in that the full hot plate wing of (1) employing a adverse current heat exchanger carries out full heat exchange.(2) adopt summer control return air amount and control b plate-fin heat exchanger atomizing thermosistor that the atomization quantity of chilled water is regulated the room temperature jointly, when needing heating and moistening, adopt winter control return air amount and control b plate-fin heat exchanger atomizing thermosistor that the atomization quantity of heat medium water is regulated the room temperature jointly, stop the operation of b plate-fin heat exchanger atomizing thermosistor when only heating not humidification winter, open 7 water circulating pumps and regulate the room temperature with radiation mode by 8 radiators or (floor heating heating system).(3) b plate-fin heat exchanger atomizing thermosistor installation seat is lower than 2 attemperaters.
2. the b plate-fin heat exchanger atomizing thermosistor according to right 1 described atomization thermoregulation outdoor air central air conditioner system is made of b1 plate-fin heat exchanger interface, b2 cistern, b3 ultrasonic atomizer, b4 ball float automatic water replenishing device, the anti-spill and leakage connecting rod of b5, b6 electromagnetism water valve, b7 exhaust duct interface.Be characterised in that b4 ball float automatic water replenishing device and b6 electromagnetism water valve use flexible pipe to be connected, b4 ball float automatic water replenishing device is contained on the anti-spill and leakage connecting rod of b5.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN200910186559A CN101706135A (en) | 2009-11-26 | 2009-11-26 | Atomization thermoregulation outdoor air central air-conditioning system |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN200910186559A CN101706135A (en) | 2009-11-26 | 2009-11-26 | Atomization thermoregulation outdoor air central air-conditioning system |
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| CN101706135A true CN101706135A (en) | 2010-05-12 |
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| CN200910186559A Pending CN101706135A (en) | 2009-11-26 | 2009-11-26 | Atomization thermoregulation outdoor air central air-conditioning system |
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Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104704296A (en) * | 2012-09-10 | 2015-06-10 | 上海朗诗建筑科技有限公司 | Total heat recovery device effectively reducing power consumption in fresh air handling |
| CN107388447A (en) * | 2017-08-03 | 2017-11-24 | 四川建源节能科技有限公司 | Purification fresh air with cooling and warming dehumidifying heat recovery function |
| CN109974488A (en) * | 2019-04-22 | 2019-07-05 | 佛山市科蓝环保科技股份有限公司 | Heat exchange structure and heat-exchanger rig with the heat exchange structure |
-
2009
- 2009-11-26 CN CN200910186559A patent/CN101706135A/en active Pending
Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104704296A (en) * | 2012-09-10 | 2015-06-10 | 上海朗诗建筑科技有限公司 | Total heat recovery device effectively reducing power consumption in fresh air handling |
| CN107388447A (en) * | 2017-08-03 | 2017-11-24 | 四川建源节能科技有限公司 | Purification fresh air with cooling and warming dehumidifying heat recovery function |
| CN107388447B (en) * | 2017-08-03 | 2018-05-18 | 四川建源节能科技有限公司 | Purification fresh air with cooling and warming dehumidifying heat recovery function |
| CN109974488A (en) * | 2019-04-22 | 2019-07-05 | 佛山市科蓝环保科技股份有限公司 | Heat exchange structure and heat-exchanger rig with the heat exchange structure |
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Application publication date: 20100512 |