CN201110603Y - Environmental protection and energy conservation air conditioner device - Google Patents
Environmental protection and energy conservation air conditioner device Download PDFInfo
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- CN201110603Y CN201110603Y CNU2007200642507U CN200720064250U CN201110603Y CN 201110603 Y CN201110603 Y CN 201110603Y CN U2007200642507 U CNU2007200642507 U CN U2007200642507U CN 200720064250 U CN200720064250 U CN 200720064250U CN 201110603 Y CN201110603 Y CN 201110603Y
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Abstract
An environment-friendly energy saving air-conditioner device is formed by electrically connecting and controlling an integrated controller (14) with an air-conditioner (2), an air interchanger (13), a water-cooling air temperature regulating device, an indoor temperature sensor (12) and an outdoor temperature sensor (15), wherein the water-cooling air temperature regulating device is a water-cooling circulation loop composed of a cold water tank (6), a water pump (5), water and air heat exchangers (3), (9) which are communicated by a water pipe (11), the water and air heat exchangers (9) is communicated with the outdoor by air ducts (7), (10), the cold water tank (6) is filled with water with temperature <=25 DEG C. When the indoor temperature t1 is <= 27 DEG C, the outdoor temperature t2 is <= 32 DEG C and t2 is >t1, the integrated controller (14) closes the air-conditioner (2), turns on the motor of the water pump (5) and a cooling fan (4) of the heat exchanger (3), and the water-cooling air temperature regulating device is led to work. When the outdoor temperature t2 is <= 30 DEG C, the integrated controller (14) turns off the water pump (5) and the cooling fan (4), and turns on the air interchanger (13) to purify the indoor air. The environment-friendly energy saving air-conditioner has the advantages that when the indoor temperature is regulated, energy consumption is saved and indoor air is purified.
Description
Technical field:
The utility model relates to a kind of aircondition of regulating indoor temperature, particularly environment protection energy-saving air conditioner device.
Background technology:
The air conditioner of existing adjusting indoor temperature has become a big source of energy consumption, in the big or middle city of some sweltering heats in summer, the air-conditioning power consumption account for the city summer, total electric energy expended 1/3.Dropped to below 28 ℃ in ambient temperature many times night in summer on the other hand, some cities, strand particularly, because the ocean is regulated, night, temperature was lower.Originally can close air-conditioning this moment, indoor and outdoor ventilations get final product, so both can keep indoor temperature suitable and do not feel sweltering heat, again can saves energy, the function that outdoor temperature open and close air conditioner is regulated but existing air conditioner has no basis does not have the function that indoor and outdoor is taken a breath yet.Thermoregulation effect is not good, not energy-conservation yet when taking a breath though the air conditioner that has has ventilatory.
Summary of the invention:
The purpose of this utility model be to overcome existing air conditioner can not according to night temperature low and shut down energy-conservation automatically, and the disadvantage that can not take a breath to the indoor and outdoor air at this moment, design a kind of aircondition, it was energy-conservation both can to reduce shutdown automatically according to outside air temperature at night, can take a breath and continued to keep the indoor air temperature cool and comfortable room air again simultaneously.
The technical solution of the utility model is the environment protection energy-saving air conditioner device, mainly comprise air conditioner 2, it is characterized in that it also includes ventilator 13 and water-cooled air register, water-cooled air register is by cold water storage cistern 6, water pump 5, water connects to be communicated with air heat exchanger 3,9, through water pipe forms the water-cooled closed circuit, is loaded in the interior space 1; Water and air heat exchanger 3,9 respectively are built-in with cooling fan 4,8, and water and heat exchanger are communicated with outdoor air through ventilation duct 7,10; Indoor and outdoor respectively are provided with temperature sensor 12,15; Be electrically connected with air conditioner 2, water pump 5, ventilator 13, cooling fan 4,8 and indoor and outdoor temperature sensor 12,15 respectively by ICU 14.
ICU 14 circuit comprise the circuit 20,19 of air conditioner control circuit 18, power circuit 16, water-cooled air thermoregulation circuit 17 and indoor and outdoor temperature sensor 12,15; Connect into the air conditioner control circuit by infrared receiver tube VD, capacitor C 13, C14, resistance R 10-R14, infrared emission tube FD, triode Q1, the signal that the remote controller of infrared receiver tube VD reception air conditioner 2 sends, the signal that infrared emission tube FD sends reaches the infrared receiving terminal on the air conditioner 2; Connect into power circuit 16 by the AC220V power supply through fuse F1, resistance R 1, R2, capacitor C 1-C5, rectifier bridge D2, voltage-stabiliser tube D1, power supply chip VR1, provide+the 5V power supply is connected to water-cooled air thermoregulation circuit 17; By control chip U1, select chip U2A, capacitor C 6-C12, crystal oscillator pipe Y1, resistance R 5-R9, photoelectrical coupler U3, U4, U5, interface J1 connects into water-cooled air thermoregulation circuit 17, in this circuit 18 of control chip U1,17 pin are connected to the circuit 20 of the indoor temperature transmitter 12 that is concatenated into by thermistor RT1 and resistance R 3 respectively and the circuit 19 of the outdoor temperature sensor 15 that is concatenated into by quick resistance R T2 of electric heating and resistance R 4,6 of control chip U1,7 pin are connected to the resistance R 14 of air conditioner control circuit 17 and the common contact of resistance R 10 and R11 respectively, 1 of interface J1,3 pin are connected to water pump 5 motor switch circuit and cooling fan 4 on-off circuits respectively, 2 of J2,3 pin are connected to ventilator 13 on-off circuits respectively, and photoelectricity isolated tube U5 output is connected to water pump 5 motor switch circuit and cooling fan 8 on-off circuits respectively.
ICU is characterized in that control chip U1 model is STC12C1052 in its circuit, and selecting chip U2A model is M74HC139B1R.
The utility model has the advantages that: in the time of can reducing according to the outdoor temperature at night, automatically turn off air conditioner energy-saving, automatically the cold air register of fetching boiling water simultaneously continues to regulate, keep the room temperature cool and comfortable, and after outdoor temperature continues to be reduced to a certain value, turn off water-cooled air register, open ventilator simultaneously, carry out the indoor and outdoor ventilation, purify the air of a room.
Description of drawings:
Fig. 1 is the utility model environment protection energy-saving air conditioner apparatus structure schematic diagram.
Fig. 2 is an environment protection energy-saving air conditioner device ICU circuit connection diagram.
Fig. 3 is ventilator, water pump, cooling fan on-off circuit figure.
The specific embodiment:
The utility model further specifies as follows in conjunction with specific embodiments referring to accompanying drawing.
A kind of environment protection energy-saving air conditioner device, its structure is referring to accompanying drawing 1, be included in the air conditioner of installing in the interior space 12, ventilator 3 and water-cooled air register, and ICU 14, indoor temperature transmitter 12 and outdoor temperature sensor 15, water-cooled air register is connected through water pipe 11 with air heat exchanger 3,9, water pump 5, cold water storage cistern 6 by the water that places the interior space 1 and is communicated with into the water-cooled closed circuit, be built-in with cooling fan 4,8 respectively in water and the air heat exchanger 3,9, water and air heat exchanger 9 are communicated with outdoor air through ventilation duct 7,10; ICU 14 is electrically connected with the motor of air conditioner 1, water pump 5, the cooling fan 4,8 and the indoor and outdoor temperature sensor 12,15 of ventilator 13,9 respectively.
The ICU circuit is referring to accompanying drawing 2, and it is made up of circuit 20,19 electrical connections of power circuit 16, water-cooled air thermoregulation circuit 17, air conditioner control circuit 18, indoor and outdoor temperature sensor 12,15.
Connect into power circuit 16 by the AC220V power supply through fuse F1, resistance R 1, R2, capacitor C 1-C5, rectifier bridge D2, voltage-stablizer D1, power supply chip VR1, provide+the 5V power supply is connected to water-cooled air thermoregulation circuit 17, and it is vacant standby that power supply chip VR1 produces the 3.3V power supply.
By infrared receiver tube VD, capacitor C 13, C14, resistance R 10-14, infrared emission tube FD, triode Q1 connect into the signal of the remote controller transmission of air-conditioning system circuit 18, infrared receiver tube VD reception air conditioner 2, and the signal that infrared emission tube FD sends reaches the infrared receiving terminal of air conditioner 2.
By control chip U1, select chip U2A, capacitor C 6-C12, crystal resonator Y1, resistance R 5-R9, photoelectrical coupler U3, U4, U5, interface J1 connects into water-cooled air thermoregulation circuit 17, in this circuit 18 of control chip U1,17 pin are connected to the circuit 20 of the indoor temperature transmitter 12 that is concatenated into by quick resistance R T1 of electric heating and resistance R 3 respectively and the circuit 19 of the outdoor temperature sensor 15 that is concatenated into by quick resistance R T2 of electric heating and resistance R 4,6 of the control chip U1 of this circuit, 7 pin are connected to the common contact of resistance 14 and resistance R 10 and R11 in the air conditioner control circuit 18 respectively, in this circuit 1 of interface J1,3 pin are connected to the on-off circuit of water pump 5 motors and the on-off circuit of cooling fan 4 respectively, 2 of J1,3 pin are connected to the on-off circuit of ventilator 13 respectively, and the output of photoelectrical coupler U5 is connected to the on-off circuit and the water pump 5 motor switch circuit of cooling fan 8 respectively.
Water storage in the cold water storage cistern 4 is the water of temperature≤25 ℃, and it can be obtained through water and air heat exchanger 8 cooling waters by the natural wind at night, and also underground water extracts injection cold water storage cistern 4 by water pump through water pipe from underground water well.
Operation principle of the present utility model:
At first the remote controller by air conditioner 2 sends a signal to ICU 14, start air conditioner 2 work by air conditioner control circuit 18, the interior space 1 is implemented adjustment, temperature is adjusted to t1≤27 ℃ in the interior space 1, while outdoor environment temperature t2≤32 ℃, and when satisfying t2>t1, water-cooled air thermoregulation circuit 18 receives indoor respectively, outer temperature sensor 12, after 15 temperature signals that transmit compare, send signal at stop air conditioner 2 by infrared emission tube FD, save the air conditioner power consumption, send control signal simultaneously through 1 of interface J1,3 pin are delivered to water pump 5 motor switch circuit and cooling fan 4 on-off circuits respectively, start water pump 5 and cooling fan 4 work simultaneously, the water-cooled conditioner is devoted oneself to work; The water of contain water temperature t3 in the water tank≤25 ℃, the water-cooled closed circuit makes the room air cooling by heat exchanger 3, continues to keep blander lower temperature; Because water pump 5 motors and cooling fan 4 power consumptions so not only reached energy-conservation but also reached temperature adjustment more than the air conditioner little power consumption.
When outdoor temperature sensor 15 detects outdoor temperature t2≤30 ℃, send control signal by water-cooled air thermoregulation circuit 17, close air conditioner 2 and water pump 5 motors and cooling fan 4, water-cooled air register is quit work, send signal through 2,3 pin of interface J1 simultaneously and inside and outside air is exchanged by force for the on-off circuit startup ventilator 13 of ventilator 13, can realize the air cleaning in the interior space 1 like this.
When outdoor temperature sensor 15 detects outdoor temperature t2=25 ℃-26 ℃, water-cooled air thermoregulation circuit 17 is given cooling fan 8 on-off circuits and water pump 5 motor switch circuit by the output output control signal of photoelectrical coupler U5, water pump 5 and water and air heat exchanger 8 are worked simultaneously, and extraneous air cools off the water storage in the water temperature 6.
Claims (3)
1, environment protection energy-saving air conditioner device, mainly comprise air conditioner (2), it is characterized in that it also includes ventilator (13) and water-cooled air register, water-cooled air register is by cold water storage cistern (6), water pump (5), water connects to be communicated with through water pipe (11) with air heat exchanger (3), (9) forms the water-cooled closed circuit, is loaded in the interior space (1); Water and air heat exchanger (3), (9) respectively are built-in with cooling fan (4), (8), and water is communicated with outdoor air through ventilation duct (7), (10) with heat exchanger (9); Indoor and outdoor respectively are provided with temperature sensor (12), (15); Be electrically connected with air conditioner (2), water pump (5), ventilator (13), cooling fan (4), (8) and indoor and outdoor temperature sensor (12), (15) respectively by ICU (14).
2, environment protection energy-saving air conditioner device according to claim 1 is characterized in that its ICU (14) circuit comprises air conditioner control circuit (18), power circuit (16), water-cooled air thermoregulation circuit (17) and indoor and outdoor temperature sensor (12), the circuit (20) of (15), (19); Connect into air conditioner control circuit (18) by infrared receiver tube VD, capacitor C 13, C14, resistance R 10-R14, infrared emission tube FD, triode Q1, the signal that the remote controller of infrared receiver tube VD reception air conditioner (2) sends, the signal that infrared emission tube FD sends reaches the infrared receiving terminal on the air conditioner (2); Connect into power circuit (16) by the AC220V power supply through fuse F1, resistance R 1, R2, capacitor C 1-C5, rectifier bridge D2, voltage-stabiliser tube D1, power supply chip VR1, provide+the 5V power supply is connected to water-cooled air thermoregulation circuit (17); By control chip U1, select chip U2A, capacitor C 6-C12, crystal oscillator pipe Y1, resistance R 5-R9, photoelectrical coupler U3, U4, U5, interface J1 connects into water-cooled air thermoregulation circuit (17), in this circuit 18 of control chip U1,17 pin are connected to the circuit (20) of the indoor temperature transmitter (12) that is concatenated into by thermistor RT1 and resistance R 3 respectively and the circuit (19) of the outdoor temperature sensor (15) that is concatenated into by quick resistance R T2 of electric heating and resistance R 4,6 of control chip U1,7 pin are connected to the resistance R 14 of air conditioner control circuit (17) and the common contact of resistance R 10 and R11 respectively, 1 of interface J1,3 pin are connected to water pump (5) motor switch circuit and cooling fan (4) on-off circuit respectively, 2 of J2,3 pin are connected to ventilator (13) on-off circuit respectively, and photoelectricity isolated tube U5 output is connected to water pump (5) motor switch circuit and cooling fan (8) on-off circuit respectively.
3, environment protection energy-saving air conditioner device according to claim 2 is characterized in that control chip U1 model is STC12C1052 in its ICU (14) circuit, and selecting chip U2A model is M74HC139B1R (16).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CNU2007200642507U CN201110603Y (en) | 2007-08-23 | 2007-08-23 | Environmental protection and energy conservation air conditioner device |
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CNU2007200642507U CN201110603Y (en) | 2007-08-23 | 2007-08-23 | Environmental protection and energy conservation air conditioner device |
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CNU2007200642507U Expired - Fee Related CN201110603Y (en) | 2007-08-23 | 2007-08-23 | Environmental protection and energy conservation air conditioner device |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2011006314A1 (en) * | 2009-07-13 | 2011-01-20 | 苏州昆拓冷机有限公司 | Intelligent energy-saving air conditioner |
CN102252467A (en) * | 2011-04-20 | 2011-11-23 | 徐志强 | Energy-saving cooling system used for machine station and capable of improving heat-exchange effect |
CN103383123A (en) * | 2013-04-02 | 2013-11-06 | 中国石油大学(华东) | Solar power semiconductor air conditioning system |
CN105571058A (en) * | 2015-12-25 | 2016-05-11 | 无锡信大气象传感网科技有限公司 | Temperature control method |
CN107588506A (en) * | 2017-09-30 | 2018-01-16 | 广东美的制冷设备有限公司 | Air conditioner and its control method and device |
-
2007
- 2007-08-23 CN CNU2007200642507U patent/CN201110603Y/en not_active Expired - Fee Related
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2011006314A1 (en) * | 2009-07-13 | 2011-01-20 | 苏州昆拓冷机有限公司 | Intelligent energy-saving air conditioner |
CN102252467A (en) * | 2011-04-20 | 2011-11-23 | 徐志强 | Energy-saving cooling system used for machine station and capable of improving heat-exchange effect |
CN103383123A (en) * | 2013-04-02 | 2013-11-06 | 中国石油大学(华东) | Solar power semiconductor air conditioning system |
CN103383123B (en) * | 2013-04-02 | 2015-07-15 | 中国石油大学(华东) | Solar power semiconductor air conditioning system |
CN105571058A (en) * | 2015-12-25 | 2016-05-11 | 无锡信大气象传感网科技有限公司 | Temperature control method |
CN107588506A (en) * | 2017-09-30 | 2018-01-16 | 广东美的制冷设备有限公司 | Air conditioner and its control method and device |
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CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20080903 |