CN201740131U - High-precision, energy-saving, constant-temperature and constant-humidity air-conditioner - Google Patents
High-precision, energy-saving, constant-temperature and constant-humidity air-conditioner Download PDFInfo
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- CN201740131U CN201740131U CN2010202510843U CN201020251084U CN201740131U CN 201740131 U CN201740131 U CN 201740131U CN 2010202510843 U CN2010202510843 U CN 2010202510843U CN 201020251084 U CN201020251084 U CN 201020251084U CN 201740131 U CN201740131 U CN 201740131U
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Abstract
The utility model relates to a high-precision, energy-saving, constant-temperature and constant-humidity air-conditioner, which comprises a compressor, an air blower, an electric humidifier, an electric heater and a temperature/humidity sensor. The compressor is arranged in a shell of the air-conditioner, the air blower, the electric humidifier, the electric heater and the temperature/humidity sensor are arranged at an air outlet, an exhaust pipe of the compressor is connected with a temperature/humidity control component, and the temperature/humidity control component comprises reheating solenoid valves, M reheating condensers with different condensing areas, refrigeration solenoid valves and N evaporators with identical heat exchange areas, which are connected in sequence, wherein M and N is respectively a natural number of 1-10; and the number of the reheating solenoid valves is M plus one, and the number of the refrigeration solenoid valves is N minus one. With the additional reheating condensers and the evaporators, the utility model can recover condensing heat of the system, thereby reducing waste heat emission of the unit, achieving dual functions of energy conservation and environmental protection, and further improving the seasonal energy efficiency ratio of the compressor. The whole machine can realize high-precision temperature and humidity control via switching of the reheating condensers and the reheating solenoid valves of bypass pipelines and high-precision compensation adjustment of the electric heater and the electric humidifier.
Description
Technical field
The utility model relates to a kind of air conditioner, particularly a kind of high-accuracy energy-saving constant-temperature constant-moisture air conditioner.
Background technology
At present, thermostatic and humidistatic air conditioning unit is widely used in the place that tobacco, hospital, food processing, printing house, machine room warehouse etc. have higher requirements to temperature and humidity.Thermostatic and humidistatic air conditioning unit of the prior art is after adopting refrigeration system to carry out excessive cool-down dehumidification; utilizing electrical heating to carry out heat again heats up to offset excessive refrigerating capacity again; utilize humidifier to carry out humidity compensate, avoid compressor shutdown as far as possible to keep the highly energy-consuming operational mode that the space humiture is accurately controlled to offset excessive moisture removal.
Chinese patent literature CN2632546Y discloses a kind of thermostatic and humidistatic air conditioning unit group on August 11st, 2004, it is characterized in that: comprise cabinet, compressor, evaporimeter, condenser, evaporation fan, condensation fan, described cabinet is divided into two spaces that isolate mutually, evaporimeter and evaporation fan are positioned at a chassis space, condenser and condensation fan are positioned at another chassis space, compressor is positioned at cabinet, is connected with evaporimeter and condenser respectively.It is said, binding modes such as it can realize cool-down dehumidification simultaneously, the dehumidifying that heats up, room ventilation, diverse in function, applicability is better, and has simple and reasonable for structurely, installs, cleans and keep in repair advantage eaily.But to a large amount of condensation heat of atmospheric environment discharging, distributing and ambient temperature being raise of these heats causes the serious environmental thermal pollution during operation of this structure.And it exists the control accuracy of temperature and humidity lower.Therefore, be necessary to be further improved and perfect.
The utility model content
The purpose of this utility model aim to provide a kind of simple and reasonable, be easy to produce, high-accuracy energy-saving constant-temperature constant-moisture machine that cost of manufacture is low, energy-efficient, to overcome weak point of the prior art.
A kind of high-accuracy energy-saving constant-temperature constant-moisture air conditioner by this purpose design, comprise the compressor in the air conditioner housing, with the pressure fan, electric moistening device, electric heater and the Temperature Humidity Sensor that are arranged on the air outlet, its architectural feature is to be connected with temperature control damping parts on the blast pipe of compressor; Described temperature control damping parts comprise that thermoelectrical magnetic valve again, M condensation area reheater condenser again, refrigeration magnetic valve and N the identical evaporimeter of heat exchange area inequality that links to each other successively constitutes.
The number of described M and N is 1-10; The number of thermoelectrical magnetic valve equals M+1 again, and the number of refrigeration magnetic valve equals N-1.
Described reheater condenser again is connected with a bypass line that is arranged in parallel with it, and the inlet tube of reheater condenser and bypass line are connected with an end of thermoelectrical magnetic valve more again, and the other end of thermoelectrical magnetic valve links to each other with the blast pipe of compressor again.
The outlet of described reheater condenser again and bypass line were connected with cold condenser, crossed the inlet tube of cold condenser and were provided with check valve again between the reheater condenser.
The outlet of the cold condenser of described mistake is provided with expansion valve, and is connected with the inlet tube of expansion valve; Crossing cold condenser is air cooled condenser or water cooled condenser, and it is positioned over indoor or outdoor.
The outlet of described expansion valve is connected with the refrigeration magnetic valve, and expansion valve is heating power formula expansion valve or electronic expansion valve.
Described refrigeration magnetic valve links to each other with the inlet tube of evaporimeter, is provided with vapour liquid separator between the outlet of evaporimeter and the compressor, and the inlet tube of vapour liquid separator, outlet are connected with the outlet of evaporimeter and the air intake duct of compressor respectively.
Described compressor is constant volume formula compressor, variable displacement compressor, fixed formula compressor or inverter compressor frequently.
Described compressor, thermoelectrical magnetic valve, expansion valve, refrigeration magnetic valve, electric heater, electric moistening device, pressure fan and Temperature Humidity Sensor are electrically connected with master controller on the air conditioner respectively again.
The utility model compared with prior art has following usefulness:
1, by setting up the condensation area recovery system of reheater condenser again condensation heat inequality, the part that utilization is discarded originally and whole condenser heats conduct be heat energy again, not only reduced the electric heater energy-saving run of heat compensation amount again, and reduced the waste heat discharge of unit, have energy-conservation and the environmental protection double action.
2, by setting up the identical evaporimeter of heat exchange area, make unit refrigerating capacity and environmental heat load more mate, the operation of historical facts or anecdotes border is more energy-conservation, can further improve the seasonal energy efficiency ratio (seer) of compressor bank.
3, by switching the thermoelectrical magnetic valve again of reheater condenser and bypass line, thereby obtain the different progression of heat regulation again, the high-accuracy compensation that is equipped with electric heater and electric moistening device is again regulated again, and complete machine can obtain very high-precision Temperature and Humidity Control.
Description of drawings
Fig. 1 is the operation principle schematic diagram of the utility model one embodiment.
Among the figure: 1 is compressor, and 2 are thermoelectrical magnetic valve again, and 3 are reheater condenser again, a is again the inlet tube of reheater condenser, and b is again the outlet of reheater condenser, and 4 is check valve, 5 was cold condenser, and 6 is expansion valve, and 7 is evaporimeter, 71 is first evaporimeter, 72 is second evaporimeter, and c is the inlet tube of evaporimeter, and d is the outlet of evaporimeter, 8 is vapour liquid separator, 9 is electric heater, and 10 is electric moistening device, and 11 is pressure fan, 12 are the refrigeration magnetic valve, 121 are first refrigeration magnetic valve, and 122 is second refrigeration magnetic valve, and 13 is master controller, 14 is Temperature Humidity Sensor, and 15 is bypass line.
The specific embodiment
Below in conjunction with drawings and Examples the utility model is further described.
Referring to Fig. 1, this high-accuracy energy-saving constant-temperature constant-moisture air conditioner comprises the compressor 1 in the air conditioner housing and is arranged at pressure fan 11, electric moistening device 10, electric heater 9 and Temperature Humidity Sensor 14 on the air outlet.Be connected with temperature control damping parts on the blast pipe of compressor 1.Temperature control damping parts comprise that thermoelectrical magnetic valve again 2, M condensation area reheater condenser again 3, refrigeration magnetic valve 12 and N the identical evaporimeter 7 of heat exchange area inequality that links to each other successively constitutes.Described compressor 1, thermoelectrical magnetic valve 2, refrigeration magnetic valve 12, electric heater 9, expansion valve 6, electric moistening device 10, pressure fan 11 and Temperature Humidity Sensor 14 are electrically connected with master controller 13 on the air conditioner respectively again.Compressor 1 for variable displacement compressor, also can be inverter compressor.
Reheater condenser 3 is connected with a bypass line that is arranged in parallel with it 15 again, is used to increase heat regulation progression again, that is enlarges the condensation adjustable range of heat again.In the accompanying drawing again the number of reheater condenser 3 be two, each again reheater condenser 3 be provided with again outside the thermoelectrical magnetic valve 2, bypass line 15 also needs to be provided with a thermoelectrical magnetic valve 2 again, promptly the number of thermoelectrical magnetic valve 2 equals M+1 again, therefore the number of thermoelectrical magnetic valve 2 is three again.In general, reheater condenser 3 numbers are many more again, and the control accuracy of temperature and humidity is also high more, and each again the condensation area of reheater condenser 3 be inequality, can obtain more heat regulation progression more like this.The inlet tube a of reheater condenser 3 and bypass line 15 are connected with an end of thermoelectrical magnetic valve 2 more again, and the other end of thermoelectrical magnetic valve 2 links to each other with the blast pipe of compressor 1 again.The outlet b of reheater condenser 3 and bypass line 15 were connected with cold condenser 5 again, crossed the inlet tube of cold condenser and were provided with check valve 4 again between the reheater condenser.The outlet of crossing cold condenser 5 is provided with expansion valve 6, and is connected with the inlet tube of expansion valve, and expansion valve 6 is an electronic expansion valve, and the system's adjusting function and the Temperature and Humidity Control precision of employing electric expansion valve can be more excellent.
Cross cold condenser 5 and be water cooled condenser, it can be positioned over indoor or outdoor, and its effect mainly is to guarantee to have certain degree of supercooling at stream through cold condenser 5 and before entering expansion valve 6 at refrigerant under any operating condition.The outlet of expansion valve 6 is connected with refrigeration magnetic valve 12.Refrigeration magnetic valve 12 links to each other with the inlet tube c of evaporimeter 7, is provided with vapour liquid separator 8 between evaporimeter 7 and the compressor 1, and the inlet tube of vapour liquid separator 8, outlet are connected with the outlet d of evaporimeter 7 and the air intake duct of compressor 1 respectively.If adopt the system or the fixed system of formula compressor frequently of constant volume formula compressor, evaporimeter 7 can be designed as one or two, and to be designed to two for good.Evaporimeter 7 is the system that three or above design are only applicable to variable displacement compressor or inverter compressor, and evaporimeter 7 numbers are many more, and the control accuracy of temperature and humidity is also high more, and operation is also more mated.The number of evaporimeter shown in the accompanying drawing 7 is three, it should be noted that independent one evaporimeter 7 need not to be provided with refrigeration magnetic valve 12, and the number of refrigeration magnetic valve 12 equals N-1, so the number of the refrigeration magnetic valve 12 in this enforcement is two.And the heat exchange area of each evaporimeter 7 design is identical, can help the even separatory of each evaporimeter 7 like this.
Operation principle of the present utility model is: according to the signal feedback of controlled environment by Temperature Humidity Sensor 14, adopt PID control scheme to control the action of thermoelectrical magnetic valve 2, refrigeration magnetic valve 12, electric heater 9 and electric moistening device 10 by main electric controller again.
The control of thermoelectrical magnetic valve 2 again:
1) is lower than desired temperature when ambient temperature value, perhaps constantly descend and level off to desired temperature, and its fall off rate is during greater than certain pid value: if had only the thermoelectrical magnetic valve again 2 on the bypass line 15 to be in opening at that time, and with each thermoelectrical magnetic valve again 2 of being connected of reheater condenser 3 again, then start one of the condensation area minimum wherein thermoelectrical magnetic valve again 2 on the reheater condenser 3 again; If at that time one of the condensation area minimum again the thermoelectrical magnetic valve again 2 on the reheater condenser 3 be in opening, then start the thermoelectrical magnetic valve again 2 on big slightly one reheater condenser again 3 of condensation area; So analogize, when all thermoelectrical magnetic valves 2 again, comprise that the thermoelectrical magnetic valve again 2 that is connected with reheater condenser 3 and bypass line 15 more all opens, temperature does not still reach setting value, then close the thermoelectrical magnetic valve again 2 that is connected with bypass line 15, feasible condensation of reclaiming heat again reaches maximum.
2) be higher than desired temperature when ambient temperature value, perhaps constantly rise and level off to desired temperature, and its climbing speed is during greater than certain pid value, 2 of thermoelectrical magnetic valves are by above-mentioned opposite sequentially-operating again: open the thermoelectrical magnetic valve again 2 that is connected with bypass line 15 earlier, judge according to PID again, press condensation area order from big to small, progressively close each reheater condenser 3 again, up to one of the condensation area minimum again till the thermoelectrical magnetic valve again 2 on the reheater condenser 3, do not reclaim condensation heat this moment.
The control of refrigeration magnetic valve 12:
1) is higher than humidity set point when the ambient humidity value, perhaps constantly rise and level off to humidity set point, and its climbing speed is during greater than certain pid value: if whole at that time refrigeration magnetic valves 12 all is in opening, then close the refrigeration magnetic valve 12 that first evaporimeter 71 is connected; If had only the refrigeration magnetic valve 12 of first evaporimeter 71 to close at that time, then closed the refrigeration magnetic valve 12 of second evaporimeter 72; So analogize, all close up to all refrigeration magnetic valves 12.
2) be lower than humidity set point when the ambient humidity value, perhaps constantly descend and level off to humidity set point, and its fall off rate is during greater than certain pid value, 12 of magnetic valves of refrigeration are by above-mentioned opposite sequentially-operating: if whole at that time refrigeration magnetic valves 12 all is in closed condition, then open the refrigeration magnetic valve 12 that first evaporimeter 71 is connected; If had only the refrigeration magnetic valve 12 of second evaporimeter 7 to open at that time, then opened the refrigeration magnetic valve 12 of second evaporimeter 72; So analogize, all open up to all refrigeration magnetic valves 12.
3) for the unit that adopts varying capacity formula compressor 1, the action of each refrigeration magnetic valve 12 is except being subjected to ambient humidity control, the capacity that also is subjected to the variable displacement type capacity compressor drops into the restriction of ratio, is example with evaporimeter 7 to be designed to three: when the capacity input ratio of varying capacity formula compressor is in the 0--30% scope, can only open 121, the second refrigeration magnetic valves 122 of first refrigeration magnetic valve can not open; When the capacity input ratio of varying capacity formula compressor is in the 30--60% scope, all refrigeration magnetic valves 12 can open or cut out; When the capacity input ratio of varying capacity formula compressor is in the 60--100% scope, can only close 121, the second refrigeration magnetic valves 122 of first refrigeration magnetic valve and can not close.
The control of electric heater 9:
Under 2 closing state of thermoelectrical magnetic valve again that all thermoelectrical magnetic valves again 2 that are connected with reheater condenser 3 are more all opened, are connected with bypass line 15, if when ambient temperature value still is lower than desired temperature, perhaps constantly descend and level off to desired temperature, and its fall off rate is during greater than certain pid value: electric heater 9 begins to come into operation, judge according to PID, progressively load in proportion and drop into; Otherwise off-load input progressively.
The control of electric moistening device 10:
For the system of constant volume formula compressor, under the state that all refrigeration magnetic valves 12 are all opened; Compressor capacity in correspondence drops in the proportion, refrigeration magnetic valve 12 is opened quantity and is reached under the state of the upper limit, if when the ambient humidity value still is lower than humidity set point, perhaps constantly descend and level off to humidity set point, and its fall off rate is during greater than certain pid value: electric moistening device 10 begins to come into operation, judge according to PID, progressively load in proportion and drop into; Otherwise off-load input progressively.
Claims (9)
1. high-accuracy energy-saving constant-temperature constant-moisture air conditioner, comprise the compressor (1) in the air conditioner housing, and be arranged at pressure fan (11), electric moistening device (10), electric heater (9) and Temperature Humidity Sensor on the air outlet, it is characterized in that being connected with temperature control damping parts on the blast pipe of compressor; Described temperature control damping parts comprise that thermoelectrical magnetic valve again (2), M condensation area reheater condenser again (3), refrigeration magnetic valve (12) and N the identical evaporimeter (7) of heat exchange area inequality that links to each other successively constitutes.
2. high-accuracy energy-saving constant-temperature constant-moisture air conditioner according to claim 1, the number that it is characterized in that described M and N are 1-10; The number of thermoelectrical magnetic valve (2) equals M+1 again, and the number of refrigeration magnetic valve (12) equals N-1.
3. high-accuracy energy-saving constant-temperature constant-moisture air conditioner according to claim 1 and 2, it is characterized in that described reheater condenser again (3) is connected with a bypass line that is arranged in parallel with it (15), inlet tube of reheater condenser (a) and bypass line are connected with an end of thermoelectrical magnetic valve (2) more again, and the other end of thermoelectrical magnetic valve links to each other with the blast pipe of compressor again.
4. high-accuracy energy-saving constant-temperature constant-moisture air conditioner according to claim 3, the outlet (b) and the bypass line (15) that it is characterized in that described reheater condenser again (3) were connected with cold condenser (5), crossed the inlet tube of cold condenser and were provided with check valve (4) again between the reheater condenser.
5. high-accuracy energy-saving constant-temperature constant-moisture air conditioner according to claim 4 is characterized in that the outlet of the cold condenser of described mistake (5) is provided with expansion valve (6), and is connected with the inlet tube of expansion valve; Crossing cold condenser is air cooled condenser or water cooled condenser, and it is positioned over indoor or outdoor.
6. high-accuracy energy-saving constant-temperature constant-moisture air conditioner according to claim 5 is characterized in that the outlet of described expansion valve (6) is connected with refrigeration magnetic valve (12), and expansion valve is heating power formula expansion valve or electronic expansion valve.
7. high-accuracy energy-saving constant-temperature constant-moisture air conditioner according to claim 6, it is characterized in that described refrigeration magnetic valve (12) links to each other with the inlet tube (c) of evaporimeter (7), be provided with vapour liquid separator (8) between outlet of evaporimeter (d) and the compressor (1), the inlet tube of vapour liquid separator, outlet are connected with the outlet of evaporimeter and the air intake duct of compressor respectively.
8. high-accuracy energy-saving constant-temperature constant-moisture air conditioner according to claim 7 is characterized in that described compressor (1) is constant volume formula compressor, variable displacement compressor, fixed formula compressor or inverter compressor frequently.
9. high-accuracy energy-saving constant-temperature constant-moisture air conditioner according to claim 1 is characterized in that described compressor (1), thermoelectrical magnetic valve (2), electric heater (9), electric moistening device (10), pressure fan (11), expansion valve (6), refrigeration magnetic valve (12) and Temperature Humidity Sensor (14) are electrically connected with master controller (13) on the air conditioner respectively again.
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Cited By (7)
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CN101865497A (en) * | 2010-07-01 | 2010-10-20 | 广东申菱空调设备有限公司 | High-accuracy energy-saving constant-temperature constant-moisture air conditioner and control method thereof |
CN103712297A (en) * | 2012-10-08 | 2014-04-09 | 株式会社Egenc | Highly efficient air conditioning apparatus, using waste heat, for precisely controlling thermo-hygrostat in clean room |
TWI448652B (en) * | 2011-12-19 | 2014-08-11 | Nat Univ Chin Yi Technology | Temperature and humidity control air conditioner |
CN104296272A (en) * | 2014-10-27 | 2015-01-21 | 广东申菱空调设备有限公司 | High-temperature type dehumidifier and control method thereof |
CN109059098A (en) * | 2018-05-14 | 2018-12-21 | 深圳市星邑股份有限公司 | Small-sized constant-temperature constant-humidity precise air conditioning device and control method thereof |
CN110360669A (en) * | 2019-07-31 | 2019-10-22 | 苏州海派特热能设备有限公司 | A kind of explosion-proof temperature and humidity control system in cool place library |
CN112113270A (en) * | 2020-08-20 | 2020-12-22 | 王海全 | Air conditioner exhaust temperature heat compensation system |
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2010
- 2010-07-01 CN CN2010202510843U patent/CN201740131U/en not_active Expired - Lifetime
Cited By (9)
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CN101865497A (en) * | 2010-07-01 | 2010-10-20 | 广东申菱空调设备有限公司 | High-accuracy energy-saving constant-temperature constant-moisture air conditioner and control method thereof |
CN101865497B (en) * | 2010-07-01 | 2013-02-20 | 广东申菱空调设备有限公司 | High-accuracy energy-saving constant-temperature constant-moisture air conditioner and control method thereof |
TWI448652B (en) * | 2011-12-19 | 2014-08-11 | Nat Univ Chin Yi Technology | Temperature and humidity control air conditioner |
CN103712297A (en) * | 2012-10-08 | 2014-04-09 | 株式会社Egenc | Highly efficient air conditioning apparatus, using waste heat, for precisely controlling thermo-hygrostat in clean room |
CN103712297B (en) * | 2012-10-08 | 2016-06-15 | 株式会社Egenc | The accurate air-conditioning device controlling Waste Heat Reuse high efficiency dust free room Constant Temperature and Humidity Chambers |
CN104296272A (en) * | 2014-10-27 | 2015-01-21 | 广东申菱空调设备有限公司 | High-temperature type dehumidifier and control method thereof |
CN109059098A (en) * | 2018-05-14 | 2018-12-21 | 深圳市星邑股份有限公司 | Small-sized constant-temperature constant-humidity precise air conditioning device and control method thereof |
CN110360669A (en) * | 2019-07-31 | 2019-10-22 | 苏州海派特热能设备有限公司 | A kind of explosion-proof temperature and humidity control system in cool place library |
CN112113270A (en) * | 2020-08-20 | 2020-12-22 | 王海全 | Air conditioner exhaust temperature heat compensation system |
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