TH123182A - Air conditioners use the temperature difference of the vent gas. To balance the temperature of the heat exchanger outside - Google Patents

Abstract

DC60 (08/06/55) This invention relates to a cooling / heating air conditioner for temperature control that pumps airflow from areas in the air-conditioned target, for example. Inside the room or vehicle to the outside through the heat exchanger on the outside Residing outside the target area Conditioning such as Outside the room or vehicle In order to balance the temperature of Fluid flowing through an area Inside the heat exchanger on the outside By means of the temperature difference between the inside and outside of the conditioned target. To achieve the effect of energy saving The invention relates to the refrigeration / heating air conditioner for temperature control that acts as a pump, ventilating air flow from areas in the air-conditioned target, for example. Inside the room or vehicle to the outside through the heat exchanger on the outside Residing outside the target area Conditioning such as Outside the room or vehicle In order to balance the temperature Fluid flowing through an area Inside the heat exchanger on the outside By means of the temperature difference between the inside and outside of the conditioned target. To achieve the effect of energy saving

Claims (5)

Disclaimer (all) which will not appear on the advertisement page: edit 02/03/2020 No disclaimer ---------- 1. Air conditioners that use the difference in the vent gas temperature to adjust the temperature balance. Of the heat exchanger on the outside Where related to air conditioning cooling / heating For temperature control Serves to pump the drainage fluid from the air conditioned target area (105) on the target. Conditioning such as Indoors or inside a vehicle And / or pumps the air flow to the outside (1051) through the body Outside heat exchanger (1021) located outside the air-conditioned target, such as outside or outside a vehicle, to serve as heat exchanger with refrigerant fluid pipelines (103) placed through the interior of the side heat exchanger. out By means of the temperature difference between the two fluids When an air conditioner is used as a cooler, the air stream Drain from various air-conditioned target areas such as rooms with relatively low temperatures. Will be used to help Reduce the temperature of the heat exchanger outside. Located outside the building as a condenser and when the air conditioner is operated as a heat pump to deliver hot air. A relatively high temperature exhaust air stream is used to increase the temperature of the outdoor heat exchanger located outdoors. It is an evaporator. And its main morphology is as follows The main set of air conditioners (101), where mainly consists of Accelerator device, heat exchanger inside (203), compression equipment, piping system, control equipment (201), blower fan The air flow for the air conditioner and the housing and connected to the pipe of the outer heat exchanger (1021) is installed in the area. There is a temperature difference outside (130) to create an eddy-flow pathway of the refrigerant fluid pipe (103). The discharge volume (1061) and the discharge path (1060) for the area discharge fluid. Target air conditioning (105) to flow through and to drain to the area. With temperature difference on the outside (130) through the heat exchanger on the outside (1021), the heat exchanger on the outside (1021) with the refrigerant fluid tube (103) to let the substance Cooling Flows from the main unit to exchanger the heat with the air current on the outside (1051) of the area with the temperature difference on the outside (130) of the exchanger. Outside heat (1021) and venting fluid from the air target area (105), blower pump (1041), or outside heat exchanger fan assembly (104) installed at one point. Or more of the three points Which consists of a fluid outlet path (1060) or the input side Or on the outward side of the heat exchanger (1021), which pumps the drainage fluid from the air-conditioned target area 105) to further drain to the outside temperature-difference area (130) through the exchanger. Outer heat exchanger (1021), the aforementioned outer heat exchanger fan assembly (104), and the aforementioned blower pump (1041) consist of a vented or blower fan or driven air pump. The electric motor acts to pump the fluid from the target area of the air conditioner (105) with a difference. Of the temperature from the air-conditioned target area (120) through the volume control device (1061) and the fluid outlet path (1060), or act simultaneously to pump the vented fluid from the air-conditioned target area (105) and the air flow to the outside ( 1051) in order to drain to areas where there is a difference. Of the outside temperature (130) through the outer heat exchanger (1021) in order to Both air is vented to the outside temperature difference area (130) through the exchanger. Outside heat (1021), refrigerant fluid tube (103), a vortex pipe for splice. Connect the main unit of the air conditioner (101) and the heat exchanger on the outside (1021), where in it there is a refrigerant in the gas state. Or flowing liquid, a volume control device (1061) containing Fluid opening door, door closed open or closed, open, close In order to use and adjust the amount of fluid draining from Conditioned target area (105), fluid outlet (1066), which will be the fluid passage structure. To let The fluid is vented from the air-conditioned target area (105), its working principle is as follows: when it works Serves to deliver cool air to the air-conditioned target area (120) by means of an outside heat exchanger fan unit (104) and / or equipment. Control the amount of drain (1061) Either or both, come pump the drainage fluid from the area. A relatively low temperature air-conditioned target (105) in the air-conditioned target area (120) indoors or acts simultaneously to pump the venting fluid from the air-conditioned target area (105) and the outer air stream (1051) through the exchanger. Outside heat (1021) will enable Amplified the effect of lowering the temperature of the outer heat exchanger (1021) and in this way the Helps to expand the cooling efficiency of the air conditioner, when it works as a heat pump, delivers hot air to the air-conditioned target area (120) by pumping the drainage fluid from the air-conditioned target area (105) with a relatively high temperature to it. The outer heat exchanger (1021) through the outer heat exchanger (1021) results in an increase in the temperature of the outer heat exchanger (1021) and in this way improves efficiency. Heating of air conditioners, air conditioners use the temperature difference of the vent gas to adjust the temperature balance. Of the outer heat exchanger according to this invention Will be assembled with a pump Acts on the pump The air current flowing through the outside of the heat exchanger on the outside (1021) by the set path Outer heat exchanger fan (104) and / or blower pump (1041), according to the air conditioner used, the difference in the vent gas temperature is balanced. The temperature of this outside heat exchanger By using the heat insulating device (110) built in the target point It is possible to insulate the air-conditioned target area (120) and the outer temperature difference area (130). The heat-insulating structure (110) consists of the wall of the building, the housing of the support. Or mechanical enclosures made of heat insulating materials or materials with good thermal insulation properties, according to air conditioners using the temperature difference of the vent gas to balance. The temperature of this outside heat exchanger The air-conditioned target areas (120) mentioned above are often defined or enclosed within buildings or vehicles or boats. Or inside an airplane Or within various equipment Which will cause the air conditioner to function Forced temperature rise or forced temperature reduction. Where the fluid is discharged from the area Conditioning target (105) mentioned above. Is defined as the air flow from the interior Air conditioning target area (120) flowing through the outer heat exchanger (1021), according to the air conditioner used, the temperature difference of the vent gas is balanced. The temperature of this outside heat exchanger The area of the temperature difference outside (130) above. It is defined as an outside area that is insulated from the target area. Air conditioning (120) through the heat insulating device (110), according to the air conditioner used, the temperature difference of the vent gas to balance. Temperature of the heat exchanger outside The air currents outside (1051) mentioned above. It is defined as the air stream that surrounds the area where the temperature difference is outside (130), in air conditioners where the temperature difference of the vent gas is used to balance it. Temperature of the heat exchanger outside The temperature of the venting fluid from the air-conditioned target area (105) is included. Higher temperature of the heat exchanger with the outside Located on the outside of the thermostat, in an air conditioner where the temperature difference of the vent gas is balanced. Temperature of the heat exchanger outside The temperature of the vented fluid from the air-conditioned target area (105) is included. The lower temperature of the heat exchanger and the outside located on the outside of the thermostat, in an air conditioner where the temperature difference of the vent gas is balanced. Temperature of the heat exchanger outside Drainage fluid from the air-conditioned target area (105) is included. A heat exchanger with a refrigerant fluid tube (103) installed in the outer heat exchanger (1021) in the area or the outer surface of the Outside heat exchanger (1021), an air conditioner that uses the temperature difference of the vent gas to balance the temperature. Of the outer heat exchanger according to this invention Will be created using the principles of Do the work mentioned above With different types of air conditioners including central air conditioners or split air conditioners. Or by using a cooling tower to replace the used air conditioner Cooling tower of the outer heat exchanger (1021) 2. Air conditioners that use the difference in the vent gas temperature to adjust the temperature. Of the heat exchanger on the outside As stated in Clause 1, where it will include Using the air conditioner with the vent fan assembly, the outer heat exchanger (104) and the fluid outlet (106) pump the fluid from the target area, the air conditioner (105) and the air flow to the outside (1051). Flows simultaneously through the outer heat exchanger (1021), and its main morphology is as follows: the main set of air conditioners (101), which is mainly composed of Accelerator device, heat exchanger inside (203), compression equipment, piping system, control equipment (201), blower fan The air flow for the air conditioner and the housing and coupled to the pipe of the outer heat exchanger (1021) is installed in the area. Where there is a temperature difference on the outside (130) to form a Eddy flow pathway of the refrigerant fluid pipe (103) and is equipped with control devices The discharge volume (1061) and the fluid discharge path (106) consist of t In order to make The drainage fluid from the air-conditioned target area (105) flows through the outer heat exchanger (1021), the outer heat exchanger (1021) with the refrigerant fluid tube (103) to allow the refrigerant. It flows from the main unit to the heat exchanger with the air current on the outside (1051) of the temperature difference area on the outside (130) of the heat exchanger on the outside (1021) and the fluid drained from the target area. Air conditioning (105), refrigerant fluid pipe (103), a vortex pipe for splice Connect the main unit of the air conditioner (101) and the heat exchanger on the outside (1021), where in it there is a refrigerant in the gas state. The outer heat exchanger (104) consists of a blower or blower or air pump driven by an electric motor. Acts on the pump The outer air stream (1051) in the area with the outside temperature difference (130) and serves to pump the drainage fluid from the air-conditioned target area (105) with the temperature difference which is pumped from the target area. The air conditioning (120) passes through a volume control device (1061) and a fluid outlet (106) in order to allow both air currents to be vented to an area of differentiation. Temperature on the outside (130) through the heat exchanger on the outside (1021), the volume control device (1061) consisting of Fluid opening door, door stopper or valve to close In order to use and adjust the amount of fluid draining from the area. Conditioning target (105), fluid outlet (1060), which will be the fluid passage structure. To let Drainage fluid is drained from the air-conditioned target area (105), in this way a combined air-conditioning unit (1000) is built by the aforementioned structure 3. Air conditioners that use the difference in the vent gas temperature to adjust the temperature. Of the heat exchanger on the outside As stated in Clause 1, where it will include Using a combined air conditioner Without using the fluid exchanger fan assembly (106) in order to pump the vented fluid from the air-conditioned target area (105) to the outer heat exchanger (1021), and its main morphology is as follows: The main set of air conditioners (101), where mainly consists of Accelerator device, heat exchanger inside (203), compression device, piping system, control device (201), blower fan The air flow for the air conditioner and the housing and coupled to the pipe of the outer heat exchanger (1021) is installed in the area. Where there is a temperature difference on the outside (130) to form a The eddy path by the refrigerant fluid pipe path (103) and the fluid outlet path (106) consists of t And there is a volume control device (1061) and a blower pump (1041), a heat exchanger on the outside (1021) with a refrigerant fluid tube (103) to let the refrigerant flow from the main unit. To the heat exchange with the discharge flow from Air-conditioned target area (105), through the outer heat exchanger (1021), refrigerant fluid pipe (103), which is a vortex pipe for articulation. Connect the main unit of the air conditioner (101) and the heat exchanger on the outside (1021), where in it there is a refrigerant in the gas state. Or liquid vortex, air pump (1041) containing A set of ventilation fans or blowers driven by an electric motor. It serves to pump the drainage fluid from the air-conditioned target area (105) with the temperature difference from the air-conditioned target area (120) through the volume control device (1061) and the fluid outlet path (106) in order to continue to drain to the floor. Outer temperature difference tee (130) through an outer heat exchanger (1021), a vent throttling device (1061) consisting of Fluid opening door, door stopper or valve to close In order to use and adjust the amount of fluid draining from the area. Conditioning target (105), fluid outlet (1060), which will be the fluid passage structure. To let The drainage fluid is drained from the target area of the A / C (105), in this way a combined A / C unit (1000) is built by the aforementioned structure 4. Air conditioners that use the difference in the vent gas temperature to adjust the temperature. Of the heat exchanger on the outside As stated in Clause 1, where it will include Using the fluid path (1060) and the exchanger exhaust fan assembly It is heated outside (104) in order to pump the vented fluid from the air-conditioned target area (105) and the outer air stream (1051) to flow simultaneously through the outer heat exchanger (1021) in the air conditioning unit ( 1000), and its main morphology is as follows: the main set of air conditioners (101), which mainly consists of The accelerator device, the heat exchanger on the inside (203), the compression device, the duct system, the control device (201), the air flow fan for the air conditioner and the housing and connected to the pipe of the outer heat exchanger. (1021) installed in the area Where there is a temperature difference on the outside (130) to form a The eddy path by the refrigerant fluid pipe path (103) and the fluid discharge path (106) consists of t And there is a volume control device (1061), an outer heat exchanger (1021) with a refrigerant fluid tube (103) to allow the refrigerant to flow from the main unit to exchange the heat with the air flow at Outside (1051) of the area exposed to temperature differences on the outside (130) of the exchanger. The outer heat (1021) and the venting fluid from the air-conditioned target area (105), the refrigerant fluid pipe (103), a vortex pipe for articulation. Connect the main unit of the air conditioner (101) and the heat exchanger on the outside (1021), where in it there is a refrigerant in the gas state. The outer heat exchanger (104) consists of a blower or blower or air pump driven by an electric motor. Acts on the pump The outer air stream (1051) in the area with the outer temperature difference (130) and serves to pump the drainage fluid from the air-conditioned target area (105) with the temperature difference, which is pumped from the target area. Air conditioning (120) through a volume control device (1061) and a fluid outlet path (1060) in order to allow both air flows Are vented to areas with differentiation of The temperature outside (130) passes through the heat exchanger outside (1021), in this way the air conditioning unit (1000) is built. Drain control device (1061) consisting of Fluid opening door, door stopper or valve to close In order to use and adjust the amount of fluid draining from the area. Conditioning target (105), fluid outlet (1060), which will be the fluid passage structure. To let There is a drainage fluid from the air-conditioned target area (105) 5. Air conditioners that use the difference in the vent gas temperature to adjust the temperature. Of the heat exchanger on the outside As stated in Clause 1, where it will include Using a blower pump (1041) installed separately. And ventilation throttling device (1061), and an air conditioning unit (1000) will be used without the external exchanger ventilation fan unit (104) and its main morphology is as follows: Air conditioners (101) where mainly consists of The accelerator device, the heat exchanger on the inside (203), the compression device, the duct system, the control device (201), the air flow fan for the air conditioner and the housing and connected to the pipe of the outer heat exchanger. (1021) installed in the area Where there is a temperature difference on the outside (130) to form a Eddy path by refrigerant fluid pipe path (103) and fluid discharge path (1060), volume control device (1061), air pump (1041), heat exchanger on the outside (1021) with refrigerant fluid tube (103) to allow refrigerant to flow from The main unit goes to the heat exchanger with the exchanger. Outer heat (1021) and venting fluid from the air-conditioned target area (105), refrigerant fluid pipe (103), a vortex pipe device for articulation. Connect the main unit of the air conditioner (101) and the heat exchanger on the outside (1021), where in it there is a refrigerant in the gas state. Or flowing liquid, in this way a combined air-conditioning unit (1000) is constructed by the aforementioned structure, the blower pump (1041) consisting A set of blower fans or blowers driven by an electric motor. It serves to pump the drainage fluid from the air-conditioned target area (105) with the temperature difference from the air-conditioned target area (120) through the volume control device (1061) and the fluid outlet path (106) in order to continue to drain to the floor. Outer temperature difference tee (130) through an outer heat exchanger (1021), a vent throttling device (1061) consisting of Fluid opening door, door stopper or valve to close In order to use and adjust the amount of fluid draining from the area. Conditioning target (105), fluid outlet (1060), which will be the fluid passage structure. To let There is a drainage fluid from the air-conditioned target area (105) 6. Air conditioners that use the difference in the vent gas temperature to adjust the temperature. Of the heat exchanger on the outside As stated in Clause 1, where it will include Using the combined air conditioning unit (1000), installed together with the built-in ventilation fan assembly. The outer heat exchanger (104) and the fluid outlet path (1060) and the blower pump (1041) and their main morphology are as follows: the main set of air conditioners (101), where they mainly consist of The accelerator device, the heat exchanger on the inside (203), the compression device, the duct system, the control device (201), the air flow fan for the air conditioner and the housing and connected to the pipe of the outer heat exchanger. (1021) installed in the area Where there is a temperature difference on the outside (130) to form a Eddy path by the refrigerant fluid pipe path (103) and the fluid outlet path (1061), and the blower pump (1041), the outer heat exchanger (1021) with the refrigerant fluid tube. (103) to allow refrigerant to flow from the main unit to exchange the heat with the air current outside (1051) of the area exposed to the outer temperature difference (130) of the exchanger. Outer heat (1021) and venting fluid from the air-conditioned target area (105), refrigerant fluid pipe (103), a vortex pipe device for articulation. Connect the main unit of the air conditioner (101) and the heat exchanger on the outside (1021), where in it there is a refrigerant in the gas state. The outer heat exchanger (104) consists of a blower or blower or air pump driven by an electric motor. Acts on the pump The outer air stream (1051) in the area with the outer temperature difference (130) and serves to pump the drainage fluid from the air-conditioned target area (105) with the temperature difference, which is pumped from the target area. The air conditioning (120) is passed through the volume control device (1061) and the fluid outlet path (1060) by the blower pump (1041) in order to allow both air flows to be vented to an area with a temperature difference outside. (130) through the outer heat exchanger (1021), in this way an air conditioning unit (1000) is built by the aforementioned structure, the blower pump (1041) consisting A set of ventilation fans or blowers or an air pump driven by an electric motor. Serves to pump fluid from the air-conditioned target area (105) with a difference Of the temperature from the air-conditioned target area (120) through the ventilation control device (1061) and the fluid outlet path (106) in order to continue to discharge to the area with outside temperature differences (130) through Outer heat exchanger (1021), in order to allow both air currents to be vented to the outer temperature difference area (130) through the outer heat exchanger (1021), apparatus Control the amount of drain (1061) containing Fluid opening door, door stopper or valve to close In order to use and adjust the amount of fluid draining from the area. Conditioning target (105), fluid outlet (1060), which will be the fluid passage structure. To let There is a drainage fluid from the air-conditioned target area (105) 7. Air conditioners that use the difference in the vent gas temperature to adjust the temperature. Of the heat exchanger on the outside As stated in Clause 1, where it will include Use of an outdoor unit of a split air conditioner (2002) with an exhaust fan unit. The air of the heat exchanger outside (104) and the split air conditioner master unit (2001) are installed together with the fluid outlet path (1060), and its main morphology is as follows: the main unit of the split air conditioner. Section (2001), where mainly Accelerator device, inner heat exchanger (203), compression device, duct system, control device (201), air flow fan for air conditioning and housing, and connected to the duct. The outer heat exchanger (1021) is installed in an outdoor unit of a split air conditioner (2002) in an area with an outside temperature difference (130) to form a route. Eddy current by refrigerant fluid pipe path (103) and fluid discharge path (1060) and vent throttling device (1061), outdoor unit of split air conditioner (2002) with housing and housing. exchange Heat exchanger outside (1021) where the outer heat exchanger (1021) will have a fluid tube of Refrigerant (103) to allow refrigerant to flow from the main unit of split air conditioner (2001) to exchange heat with the outside air stream (1051) of the area with The temperature difference is outside (130) of the heat exchanger outside (1021) and the venting fluid from the air-conditioned target area (105) and there is an exchanger exhaust fan assembly. Outer heat (104) where the outer heat exchanger (104) ventilation fan assembly consists of a vent fan or blower or air pump driven by an electric motor. It serves to pump the air flow on the outside (1051) in the area with the outside temperature difference (130) and to pump the drainage fluid from the air-conditioned target area (105) with the temperature difference. From the air-conditioned target area (120) through the air volume control device (1061) and the fluid distance path (1060), and in order to make two air currents. Was vented to the area where the The temperature difference on the outside (130) through the heat exchanger on the outside (1021), the refrigerant fluid tube (103), a vortex pipe fitting. Connect the main unit of the air conditioner (101) and the heat exchanger on the outside (1021), where in it there is a refrigerant in the gas state. Or flowing liquid, a volume control device (1061) containing Fluid opening door, door stopper or valve to close In order to use and adjust the amount of fluid draining from the area. Conditioning target (105), fluid outlet (1060), which will be the fluid passage structure. To let There is a drainage fluid from the air-conditioned target area (105) 8. Air conditioners that use the difference in the vent gas temperature to adjust the temperature. Of the heat exchanger on the outside As stated in Clause 1, where it will include The use of the split air conditioner master unit (2001) created in conjunction with the blower pump (1041) and the outdoor unit of the split air conditioner (2002) was used without the vent fan unit. The air of the heat exchanger on the outside (104) and its main morphology are as follows: The main set of split air conditioners (2001), which mainly consists of Accelerator device, inner heat exchanger (203), compression device, duct system, control device (201), air flow fan for air conditioning and housing, and connected to the duct. The outer heat exchanger (1021) is installed in an outdoor unit of a split air conditioner (2002) in an area with an outside temperature difference (130) to form a route. Eddy flow by refrigerant fluid pipe path (103) and fluid discharge path (1060) and vent throttling device (1061) and blower pump (1041), outdoor unit of split air conditioner. Part (2002) with a jacket and an exchanger Heat exchanger outside (1021) where the outer heat exchanger (1021) will have a fluid tube of Refrigerant (103) to allow refrigerant to flow from the main unit of the split air conditioner (2001) to the heat exchanger with the cooling fluid from the target area of the air conditioner (105) by means of the heat exchanger on the side Outside (1021), refrigerant fluid tube (103), which is a vortex pipe fitting for splicing. Connect the main unit of the air conditioner (101) and the heat exchanger on the outside (1021), where in it there is a refrigerant in the gas state. Or vortex, air pump (1041) containing A set of ventilation fans or blowers or an air pump driven by an electric motor. Serves to pump fluid from the air-conditioned target area (105) with a difference Of the temperature from the air-conditioned target area (120) through the ventilation control device (1061) and the fluid outlet path (106) in order to continue to discharge to the area with outside temperature differences (130) through Outside heat exchanger (1021), a venting throttling device (1061) consisting of Fluid opening door, door stopper or valve to close In order to use and adjust the amount of fluid draining from the area. Conditioning target (105), fluid outlet (1060), which will be the fluid passage structure. To let There is a drainage fluid from the air-conditioned target area (105) 9. Air conditioners that use the difference in the vent gas temperature to adjust the temperature. Of the heat exchanger on the outside As stated in Clause 1, where it will include Using a split-installed fluid path (1060), a split air conditioner master unit (2001) and an outdoor unit of a split air conditioner (2002) with a vent fan unit. The air flow of the outer heat exchanger (104) and its main morphology are as follows: The main set of split air conditioners (2001), which mainly consists of Accelerator device, inner heat exchanger (203), compression device, duct system, control device (201), air flow fan for air conditioning and housing and coupling to the ducts. The outer heat exchanger (1021), installed in the outdoor unit of the split air conditioner (2002), in the area with the outside temperature difference (130) to form a path. Eddy current by means of refrigerant fluid pipe (103) and with fluid outlet path (1060) and vent throttling device (1061), outdoor unit of split air conditioner (2002) with housing and Exchanger Heat exchanger outside (1021), where the heat exchanger and the air current outside (1021) will have a fluid tube of Refrigerant (103) to allow refrigerant to flow from the main unit of split air conditioner (2001) to exchange heat with the outside air stream (1051) of the area with The temperature difference is outside (130) of the heat exchanger outside (1021) and the venting fluid from the air-conditioned target area (105), and there is a set of exchanger air breather. Outer heat (104) where the outer heat exchanger (104) ventilation fan assembly consists of a vent fan or blower. Or an air pump driven by an electric motor It serves to pump the air flow on the outside (1051) in the area with the outside temperature difference (130) and serve the air conditioning target (120) through the volume control device (1061) and the fluid outlet (1060). In order to allow two air flows to be vented to the area of difference The temperature on the outside (130) passes through the heat exchanger on the outside (1021), the refrigerant fluid tube (103), which is a vortex pipe device for articulation. Connect the main unit of the split air conditioner (2001) and the heat exchanger on the outside (1021), where in it there is a refrigerant in the gas state. Or flowing liquid, a volume control device (1061) containing Fluid opening door, door closing valve, valve to close In order to use and adjust the amount of fluid draining from the area. Conditioning target (105), fluid outlet (1060), which will be the fluid passage structure. To let There is a drainage fluid from the air-conditioned target area (105) 1 0. Air conditioners that use the difference in the vent gas temperature to adjust the temperature Of the heat exchanger on the outside As stated in Clause 1, where it will include Using a separate blower pump (1041), a split air conditioner master unit (2001) and an outdoor unit of a split air conditioner (2002) without an exhaust fan unit. Of the outer heat exchanger (104), and their main morphology is as follows: The main set of split air conditioners (2001), which mainly consists of Accelerator device, inner heat exchanger (203), compression device, duct system, control device (201), air flow fan for air conditioning and housing and coupling to the ducts. The outer heat exchanger (1021) is installed in an area with an outer temperature difference (130) to form an eddy-flow path of the refrigerant fluid pipe (103) and has a path. Fluid outlet (1060), vent throttling device (1061) and air pump (1041), outdoor unit of split air conditioner (2002) with housing and exchanger. Heat exchanger outside (1021) where the outer heat exchanger (1021) will have a fluid tube of Refrigerant (103) to allow refrigerant to flow from the main unit of the split air conditioner (2001) to the heat exchanger with the cooling fluid from the target area of the air conditioner (105) by means of the heat exchanger on the side Outside (1021), refrigerant fluid tube (103), which is a vortex pipe fitting for splicing. Connect the main unit of the air conditioner (101) and the heat exchanger on the outside (1021), where in it there is a refrigerant in the gas state. Or vortex, air pump (1041) containing A set of ventilation fans or blowers or an air pump driven by an electric motor. Serves to pump fluid from the air-conditioned target area (105) with a difference Of the temperature from the air-conditioned target area (120) through the ventilation control device (1061) and the fluid outlet path (106) in order to continue to discharge to the area with outside temperature differences (130) through The outer heat exchanger (1021), the fluid outlet path (1060), which forms the fluid passage structure. To let There is a drainage fluid from the air-conditioned target area (105) 1 1. Air conditioners that use the difference in the vent gas temperature to adjust the temperature Of the heat exchanger on the outside As stated in Clause 1, where it will include Using the split air conditioner master unit (2001), the outdoor unit of the split air conditioner (2002) with the outer heat exchanger fan unit (104) and the blower pump (1041). Install separately And its main morphology is as follows: the main series of split air conditioners (2001), which mainly consists of Accelerator device, inner heat exchanger (203), compression device, duct system, control device (201), air flow fan for air conditioning and housing and coupling to the ducts. The outer heat exchanger (1021) is installed in an area with an outer temperature difference (130) to form an eddy-flow path of the refrigerant fluid pipe (103) and has a path. Fluid outlet (1060), vent throttling device (1061) and air pump (1041), outdoor unit of split air conditioner (2002) with housing and exchanger. Heat exchanger outside (1021) where the outer heat exchanger (1021) will have a fluid tube of Refrigerant (103) To allow refrigerant to flow from the main unit of the split air conditioner (2001) to exchange heat with the outside air stream (1051) of the area with The temperature difference is outside (130) of the heat exchanger outside (1021) and the venting fluid from the air-conditioned target area (105), and there is a set of exchanger air breather. Outer heat (104) where the outer heat exchanger (104) ventilation fan assembly consists of a vent fan or blower. Or an air pump driven by an electric motor It serves to pump the air flow on the outside (1051) in the area with the outside temperature difference (130) and to pump the drainage fluid from the air-conditioned target area (105) with the temperature difference. From the target area, air conditioning (120) through the volume control device (1061) and the fluid outlet (1060) in order to allow the two air streams to be vented to the difference area. The temperature on the outside (130) passes through the heat exchanger on the outside (1021), the refrigerant fluid tube (103), which is a vortex pipe device for articulation. Connect the main unit of the split air conditioner (2001) and the heat exchanger on the outside (1021), where in it there is a refrigerant in the gas state. Or flowing liquid, a volume control device (1061) consisting of Fluid opening door, door closing valve, valve to close In order to use and adjust the amount of fluid draining from the area. Conditioning target (105), fluid outlet (1060), which will be the fluid passage structure. To let There is a drainage fluid from the air-conditioned target area (105) 1 2. Air conditioners that use the temperature difference of the vent gas to adjust the temperature balance. Of the heat exchanger on the outside As stated in Clause 1, where it will include Using the main unit of the water-cooled air conditioner (2005), the cooling tower using the powered fan (2003) and the blower pump (1041) are installed separately, and its main morphology is as follows: The main set of Water-cooled air conditioners (2005) where the main unit Most of the air conditioners consist of Accelerator device, inner heat exchanger (203), compression device, piping system, control device (201), water-cooled cooling equipment, air flow blow-out, air flow and housing and water pipe (107) Water-cooled condensation device located in the main unit. The water cooling tower (2005) is connected to the water inlet and outlet (109) of the water inlet and drain of the cooling tower. The powered fan (2003) is positioned in an area with The temperature difference outside (130) to form a vortex and a fluid outlet (1060), a throttling device (1061) and an air pump (1041), and by a pump path. The blower (1041) will pump the vented fluid from the air-conditioned target area (105) through the fluid outlet path (1060) and the ventilation throttling device (1061) to the air inlet. Of the gilded house uses a fan that uses energy (2003), a cooling tower uses a fan that uses energy (2003) that consists of Cooling tower ready With a cooling tower fan set (108), for example, a cooling tower with a mechanical flow according to Flow type, cooling tower with induction counter-flow mechanical method, counter-flow cooling tower, cooling tower with flow mechanical flow method. Bracket or evaporative cooling tower And the cooling tower uses a powered fan (2003) with air inlet This will cause the fluid to drain the air-conditioned target area (105) that is pumped from the area. The air-conditioned target (120) through the blower pump (1041) is directed through the fluid outlet path (1060) into the air inlet of the cooling tower, the powered fan (2003), and is transmitted through the tower. Cooling uses a fan that uses energy (2003) to cool the water stream. It is then vented to the surrounding area through the cooling tower fan unit (108) and there is an inlet and outlet (109) to connect the water pipes (107) to allow the cooling water to flow. Loop between cooling towers using fans Energy-efficient (2003) and water-cooled air conditioner master unit (2005), water pipes (107) are positioned between the main unit's water-cooled condensing device. The water-cooled air conditioner (2005) and the water inlet and outlet (109) of the cooling tower are used. Power fan (2003), cooling tower fan unit (108) consisting of a vent fan or blower or an air pump driven by an electric motor. And it is responsible for one or more of the following tasks: Consisting of 1) pumping air flow on the outside (1051) from the outside temperature difference area (130) to the outside temperature difference area (130) through the inside of the tower. do The cooling is powered by a fan (2003), 2), the pumping fluid from the air-conditioned target area (105) with a temperature difference from the target area, the air volume control (1061), the blower pump. (1041) and the fluid outlet path (1060) to the area where the difference The temperature at the outside (130) passes through the cooling tower using a powered fan (2003), 3). The outside air (1051) and the vented fluid from the air-conditioned target area (105) are vented together. To the area with outside temperature difference (130) through the cooling tower, use the powered fan (2003), the water pump (111) for the cooling pump between the main units of the air conditioner. Water cooling (2005) and cooling tower use a powered fan (2003) through water hoses (107) and inlet and outlet hoses (109) for cooling vortex, ventilation throttling devices (1061) where include Fluid opening door, door stopper or valve to close In order to use and adjust the amount of fluid draining from the area. Conditioning target (105), fluid outlet (1060), which will be the fluid passage structure. To let There is a drainage fluid from the air-conditioned target area (105) 1 3. Air conditioners that use the difference in the vent gas temperature to adjust the temperature balance. Of the heat exchanger on the outside As stated in Clause 1, where it will include The main use of the water cooled air conditioner (2005) and the cooling tower uses the powered fan (2003) and its main morphology is as follows: the main set of the water cooled air conditioner (2005) where Which set of Most of the air conditioners consist of Accelerator device, inner heat exchanger (203), compression device, piping system, control device (201), water-cooled cooling device, air flow air flow, and housing and water pipes (107). Of the water-cooled condensing device is placed in the main unit The water-cooled air conditioner (2005) is connected to the water inlet and outlet (109) of the water inlet and drain of the cooling tower. The powered fan (2003) is placed in an area with The temperature difference outside (130) to create a vortex and a drainage path (1060), a control device for the discharge rate (1061) to deliver the fluid from the The target area of the air conditioner (105) to the air inlet of the cooling tower uses the powered fan (2003), the cooling tower uses the powered fan (2003) which consists of Cooling tower ready With a cooling tower fan set (108), for example, a cooling tower with a mechanical flow according to Flow type, cooling tower with induction counter-flow mechanical method, counter-flow cooling tower, cooling tower with flow mechanical flow method. Bracket or evaporative cooling tower And the cooling tower uses a powered fan (2003) with air inlet This will cause the fluid to drain the air-conditioned target area (105) being pumped from the area. The conditioned target (120) is directed through the fluid outlet path (1060) into the inlet of the The cooling tower air is powered by a fan (2003) and is passed through the cooling tower. The powered fan (2003) is used to cool the water stream. And later being drained to the surrounding area Through the cooling tower fan assembly (108) and there will be water inlet and outlet (109) to connect the water pipes (107) in order to allow the cooling water to circulate between cooling towers. 2003) and a water cooled air conditioner master unit (2005), a water pipe (107) positioned between the water-cooled condensing device of the main unit of the The water-cooled air conditioner (2005) and the water inlet and outlet (109) of the cooling tower are used. Power fan (2003), cooling tower fan unit (108) consisting of a vent fan or blower or an air pump driven by an electric motor. And it is responsible for one or more of the following tasks: Consisting of 1) pumping air flow on the outside (1051) from the outside temperature difference area (130) to the outside temperature difference area (130) through the inside of the tower. do The cooling is powered by a fan (2003), 2), the pumping fluid from the air-conditioned target area (105), with the temperature difference from the air-conditioned target area (120), through a volume control device (1061) and a vent path. The fluid (1060) goes to the area where the temperature difference at the outside (130) passes through the cooling tower, uses the powered fan (2003), 3) the air flow outside (1051) and the drainage fluid from the target area. Air conditioning (105) is ventilated together. To an area with an outside temperature difference (130) through the cooling tower, use a powered fan (2003), a water pump (111) for the cooling pump between the main units of the water-cooled air conditioner ( 2005) and the cooling tower uses a powered fan (2003) through a water pipe (107) and an inlet and outlet (109) for the cooling vortex, a discharge throttling device (1061) consisting of Fluid opening door, door stopper or valve to close In order to use and adjust the amount of fluid draining from the area. Conditioning target (105), fluid outlet (1060), which will be the fluid passage structure. To let There is a drainage fluid from the air-conditioned target area (105) 1 4. Air conditioners that use the difference in the vent gas temperature to adjust the temperature balance. Of the heat exchanger on the outside As stated in Clause 1, where it will include Using a water-cooled main unit (2005), a natural flow cooling tower (2003) and a separate blower pump (1041). And their main morphology is as follows: the main set of water cooled air conditioners (2005) where the main set of Most of the air conditioners consist of Accelerator device, heat exchanger inside (203), compression device, piping system, control device (201), the water-cooled cooling device blows the air flow used to the air conditioner and the housing and water pipe (107) of the water-cooled condensing device. Posing in the main set Of a water-cooled (2005) air conditioner coupled to the inlet and outlet (109) of the water inlet and drains of the natural flow cooling tower (2004) located in the area. With an outside temperature difference (130) to create a vortex and a drainage path (1060), a volume control device (1061) and a blower pump (1041), and by way of The blower pump (1041) pumps the drainage fluid from the natural target area (2004) through the fluid discharge path (1060) and the discharge throttling device (1061), the natural flow cooling tower (2004) consisting of Cooling tower with Natural flow, for example, a cooling tower with a natural flowing flow and a cooling tower with natural flow (2004) with an air inlet. And it will have the function of Work as follows One or more Consisting of 1) the delivery of air stream on the outside (1051) from the outside temperature difference area (130) into the air inlet of the tower. Natural flowing cooling (2004) and through the natural flowing cooling tower (2004) cool the water stream. And later drained to the periphery through the cooling tower, 2) Drainage fluid from the air-conditioned target area (105) pumped from the air-conditioned target area (120) by means of the blower pump ( 1041) through the fluid outlet path (1060) into the air inlet of the naturally flowing cooling tower (2204) and through the cooling tower with Natural Flow (2004) to cool the water stream. And later the part is vented to the surrounding area through the cooling tower, 3) the discharge of the air-conditioned target area (105) and the outer air stream (1051) into the air inlet of the cooling tower. Which flows naturally (2004) and passes through a natural flowing cooling tower (2004) to cool the water stream and later drain it to the surrounding area. Through cooling tower There will be water inlet and outlet (109) to connect the water pipe (107) to allow the cooling water to circulate between the A natural flow cooling tower (2004) and a water cooled air conditioner master unit (2005), a water pipe (107) positioned between the water-cooled condensing device of the main unit. Water-cooled air conditioning (2005) and water inlet and outlet (109) of the cooling tower with Natural remote (2004), water pump (111) for the cooling pump between the main unit of the water-cooled air conditioner (2005) and the cooling tower, the fan used energy (2003) through the water pipe (107), and Water inlet and outlet (109) for cooling vortex, drain volume control device (1061) consisting of Fluid opening door, door stopper or valve to close In order to use and adjust the amount of fluid draining from the area. Conditioning target (105), fluid outlet (1060), which will be the fluid passage structure. To let There is drainage of the drainage fluid from the air-conditioned area (105) 1 5. Air conditioners that use the difference in the vent gas temperature to adjust the temperature balance. Of the heat exchanger on the outside As stated in Clause 1 where it will continue to be used With split air conditioner Which mainly consists of Outdoor series of Split air conditioner (2002), in which it has a main station outside of the building. Split air conditioner (2007) and outer heat exchanger (1021) and ventilation fan assembly (104) and modular air conditioner indoor unit (2006), in which they are built in. Inner heat exchanger (203), flow regulator (202), flow blower fan. Pre-adjusted air (204) and control devices (201) and refrigerant compression and circulation cycles at It is assembled from the refrigerant fluid pipe (103) located between it and the fluid outlet path (1060) installed from the air-conditioned target area (120) to the outer heat exchanger (1021) to assist. For use in different areas 1 6. Air conditioners that use the difference in the vent gas temperature to adjust the temperature balance. Of the heat exchanger on the outside As stated in claim 15, where its main morphology is that the outdoor installation of a modular air conditioner (2002) consists of an exchanger. Outside heat (1021) and fan unit (104) and the main station outside of the building. Split air conditioners (2007) and are installed in indoor unit of split air conditioners (2006) consisting of Inner heat exchanger (203), flow controller (202), regulator (201), tuned air blower fan (204) and control device. The amount of drain (1061) and a compression cycle has been made And circulating the refrigerant that is made up of The refrigerant fluid pipe (103) is installed between the two above units. And a fluid outlet path (1060) and an outer air stream (1051) were installed into the target area, air adjustment (120) between the vent throttling device (1061) and the outer heat exchanger (1021). ) And where the outdoor unit of the split air conditioner (2002) installed with the master station Outside the building of a split air conditioner (2007), the outer heat exchanger (1021), the refrigerant fluid pipe (103) and the ventilation fan assembly (104) where the main station outside The building of the Split Air Conditioner (2007) is mainly composed of compression equipment and will be a compression generator. And circulates through the refrigerant fluid tube (103) towards the outer heat exchanger (1021) and towards the inner heat exchanger (203) and the flow regulator (202) in Indoor unit of split air conditioner (2006) installed in target area air conditioner (120), indoor unit of split air conditioner (2006) is installed together with unit. The heat exchanger inside (203), the flow control device (202), the tuned air blower (204) and the regulator (201) are used to control the electrical power input. And to operate the air conditioning unit, the indoor unit of the split air conditioner (2006) will be installed next with the ventilation control device (1061) and the fluid outlet (1060), the heat exchanger on the outside. (1021) of the outdoor unit of the split air conditioner (2002) will be installed together with the refrigerant fluid pipe (103) to allow The refrigerant flows through, exchanging heat with the air stream outside (1051) in an area with The temperature difference outside (130) in the outer heat exchanger (1021) and the venting fluid from the air-conditioned target area (105), the ventilating fan assembly outside the heat exchanger (104) is attached. Located on the outdoor unit of a modular air conditioner (2002), it consists of a ventilator or a blower or an air pump driven by an electric motor. Where the current conduction range The intake air is determined between the fluid outlet path (1060) and the outer heat exchanger (1021) for pumping the outer air intake (1051) from the area with a difference of The temperature outside (130) and for the pump fluid vented from the air-conditioned target area (105) with a temperature difference. And is being pumped from the air-conditioned target area (120) via a control device The discharge volume (1061) and the fluid outlet path (106) in order to allow both air currents to Heat exchanger It is subsequently drained to the outer heat exchanger area (130) through the outer heat exchanger (1021), the refrigerant fluid pipe (103) containing pipe fittings for Connect The outdoor master station of the split air conditioner (2007) and the outer heat exchanger (1021) and the flow regulator (202) and the heat exchanger on the inside (203) of the indoor unit of the air conditioner. Modular (2006) to induce eddy Where inside the pipe Will leave the refrigerant in a gas state Or the state of the liquid to pass through, a discharge control device (1061) consisting of Fluid opening door, door stopper or valve to close In order to use and adjust the amount of fluid draining from Conditioned target area (105), fluid discharge path (1060), which will be the fluid passage structure. To let Ventilation fluid is provided from the air-conditioned target area (105) according to the amount of discharge from the air-conditioned target area (120), the refrigerant fluid pipe (103) and the fluid outlet (1060) can be installed separately as series Or assembled together as a pipe structure 1 7. Air conditioners that use the difference in the vent gas temperature to adjust the temperature balance. Of the heat exchanger on the outside As stated in claim 15, where its main morphology is that the outdoor installation of a modular air conditioner (2002) consists of an exchanger. The outer heating (1021) and the outdoor master station of the split air conditioner (2007), and the indoor unit of the split air conditioner (2006) with the internal heat exchanger (203 ), A flow control device (202), a regulator (201), an adjustable air flow fan (204), a blower pump (1041) and a venting throttling device (1061), and a compression circuit is built. And the refrigerant vortex that is assembled from the refrigerant fluid hoses (103) is installed between the two above units. And a fluid drain path (1060) is installed in the air-conditioned target area (120) between the exhaust throttle (1061), the blower pump (1041) and the outer heat exchanger (1021) and where the outer unit. Building of a split air conditioner (2002) installed with the main station. Outside the building of the split air conditioner (2007), the heat exchanger outside (1021), and the refrigerant fluid pipe (103) and where the main station outside the building of the split air conditioner (2007) by It is mainly composed of a compression device, and it creates a compression and vortex flow through the refrigerant fluid pipe (103) towards the outer heat exchanger (1021) and towards the exchanger. The indoor unit (203) and the flow control device (202) in the indoor unit of the split air conditioner (2006) are installed in the target area of the air conditioner (120), the indoor unit of the split air conditioner (2006). ) Will be installed together with the The heat exchanger inside (203), the flow control device (202), the tuned air blower fan (204), and there is a control device (201) that controls the power input. And to operate the air conditioning unit, the indoor unit of the split air conditioner (2006) will be installed next with the vent volume control device (1061), the blower pump (1041) and the fluid outlet (1060), The outer heat exchanger (1021) of the outdoor unit of the split air conditioner (2002) is installed with the refrigerant fluid pipe (103) to allow the fluid to The refrigerant flows through the heat exchange with the venting fluid from the air-conditioned target area (105), the refrigerant fluid pipe (103) containing Pipe fittings for connection Outdoor master station of split air conditioner (2007) and outer heat exchanger (1021) and flow control device (202) and inner heat exchanger (203) of indoor unit. Parted (2006) to create a vortex Where inside the pipe Will leave the refrigerant in a gas state Or the state of the fluid passing through, a discharge control device (1061) consisting of Fluid opening door, door stopper or valve to close In order to use and control the amount of fluid draining from Conditioned target area (105), fluid discharge path (1060) containing The flow structure for the discharge of the air-conditioned target area (105) according to the amount of discharge from the air-conditioned target area (120), the refrigerant fluid pipe (103) and the fluid discharge path (1060) can be installed. Separated into a series Or assembled together as a pipe structure 1 8. Air conditioners that use the difference in the vent gas temperature to adjust the temperature balance. Of the heat exchanger on the outside As stated in claim 15, where its main morphology is that the outdoor installation of a modular air conditioner (2002) consists of an exchanger. Outside heat (1021) and ventilation fan assembly (104) and the main station outside of the building Split air conditioner (2007) and indoor unit installation of a modular air conditioner (2006) consists of an inner heat exchanger (203), a flow regulator (202), a regulator (201) and. The fan blows the adjusted air stream (204), creating a compressed and eddy current circuit that is assembled from the refrigerant fluid pipe (103), installed between Both sets above And the installation of separate ventilation throttling devices (1061) in the heat insulation equipment (110) and are installed The fluid outlet path (1060) and the external airflow (1051) into the air-conditioned target area (120) between the exhaust throttle (1061) and the outer heat exchanger (1021) where the outdoor unit. Of split air conditioner (2002) installed with the main station Outside the building of a split air conditioner (2007), heat exchanger outside (1021). Refrigerant fluid duct (103) and ventilation fan assembly (104) at the main station outside The building of the Split Air Conditioner (2007) is mainly composed of compression equipment and will create compression circuits. And circulates through the refrigerant fluid tube (103) towards the outer heat exchanger (1021) and towards the inner heat exchanger (203) and the flow regulator (202) in Indoor unit of split air conditioner (2006) installed in target area air conditioner (120), indoor unit of split air conditioner (2006) is installed together with unit. The heat exchanger inside (203), the flow control device (202), the tuned air blower fan (204), and there is a control device (201) that controls the power input. And to drive the air conditioner to work, the heat-insulating device (110) is installed separately to the ventilation volume control device (1061) and the fluid outlet path (1060), the heat exchanger on the outside (1021) of the unit. Outside the building of a split air conditioner (2002) it is installed with a refrigerant fluid pipe (103) to allow the fluid to The cooler flows through it exchanging heat with the airflow outside (1051) in areas with The temperature difference outside (130) in the outer heat exchanger (1021) and the venting fluid from the air-conditioned target area (105), the outer heat exchanger ventilation fan assembly (104) is installed. On the outdoor unit of a split air conditioner (2002), it consists of a ventilation fan or a blower or an air pump driven by an electric motor. Where the range of The inlet air flow is determined between the fluid outlet path (1060) and the exchanger. Outside heat (1021) for pumping air to the outside (1051) from the The temperature difference is outside (130) and for the venting fluid pump from the air-conditioned target area (105) with a temperature difference. And it is pumped from the air-conditioned target area (120) through the volume control device (1061) and the fluid outlet path (106) to allow the air flow They can exchange heat with each other. And later being drained to an area where there is a difference of Temperature on the outside (130) through the heat exchanger on the outside (1021), the refrigerant fluid pipe (103) containing Pipe fittings for connection The outdoor master station of the split air conditioner (2007) and the outer heat exchanger (1021) and the flow regulator (202) and the heat exchanger on the inside (203) of the indoor unit of the air conditioner. Modular (2006) to induce eddy Where inside the pipe Will leave the refrigerant in a gas state Or the state of the fluid passing through, a discharge control device (1061) consisting of Fluid door, door stopper or valve Yes, open In order to use and control the amount of fluid draining from Conditioned target area (105), fluid discharge path (1060) containing The fluid passage structure for the discharge of the air-conditioned target area (105) according to the amount of discharge from the air-conditioned target area (120), the refrigerant fluid pipe (103) and the fluid discharge path (1060) can be installed separately. Set together Or assembled together as a pipe structure 1 9. Air conditioners that use the difference in the vent gas temperature to adjust the temperature balance. Of the heat exchanger on the outside As stated in claim 15, where its main morphology is that the outdoor installation of a modular air conditioner (2002) consists of an exchanger. It is heated outside (1021) and the main station outside the building of the split air conditioner (2007) and the indoor unit of the split air conditioner (2006) is installed with an exchanger. The inner heat (203), the flow regulator (202), the regulator (201) and the adjustable air flow forest fan (204), and a compression circuit is built. And a whirlpool for cooling that is assembled Up from the refrigerant fluid pipe (103) is installed between the two above units. And installation The blower pump (1041) and the venting throttling device (1061) are separated in the heat-insulating device (110), and a fluid outlet path (1060) is installed in the target area (120) between the exhaust throttling device. (1061), blower pump (1041) and outer heat exchanger (1021) where the outdoor unit of the split air conditioner (2002) installed with the main station. Outside the building of the Split Air Conditioner (2007), the outer heat exchanger (1021) and the refrigerant fluid pipe (103) where the main station outside the split air conditioner (2007) is mainly. It is then composed of a compression device and will create a compression and eddy cycle through the refrigerant fluid pipe (103) directed towards the outer heat exchanger (1021) and towards the heat exchanger where Inside (203) and flow control device (202) in the indoor unit of the split air conditioner (2006) installed in the target area of the air conditioner (120), the indoor unit of the split air conditioner (2006) will Is installed with the body The inner heat exchanger (203), the flow regulator (202), the tuned air blower (204) and the regulator (201) are used to control the power output. electricity And to drive the air conditioner to work, the heat-insulating device (110) is installed separately to the air-throttling device (1061) and the fluid outlet path (1060), the heat exchanger on the outside (1021) of the unit. Outside the building of a split air conditioner (2002) it is installed with a refrigerant fluid pipe (103) to allow the fluid to The refrigerant flows through the heat flow and the venting fluid from the air-conditioned target area (105), the refrigerant fluid pipe (103) containing Pipe fittings for connection The outdoor master station of the split air conditioner (2007) and the outer heat exchanger (1021) and the flow regulator (202) and the heat exchanger on the inside (203) of the indoor unit of the air conditioner. Modular (2006) to induce eddy Where inside the pipe Will leave the refrigerant in a gas state Or the state of the fluid passing through it, a blower pump (1041) containing Blower fan unit Or ventilated or air pump driven by electric motor It serves to pump the drainage fluid from the air-conditioned target area (105) with the relative temperature difference from the air-conditioned target area (120) through the volume control device (1061) and the fluid outlet path (1060) and exchange. Heat as it flows through The heat exchanger on the outside (1021) and subsequently drained to the difference area of Outside temperature (130), a throttling device (1061) containing Fluid opening door, door stopper or valve to close In order to complete the job and control the amount of fluid draining from Conditioned target area (105), fluid discharge path (1060) containing The fluid passage structure for the discharge of the air-conditioned target area (105) according to the amount of discharge from the air-conditioned target area (120), the refrigerant fluid pipe (103) and the fluid discharge path (1060) can be attached. Set separately in a series Or assembled together as a structure of pipes 2 0. Air conditioners that use the difference in the vent gas temperature to adjust the temperature. Of the heat exchanger on the outside As stated in claim 15, where its main morphology is that the outdoor installation of a modular air conditioner (2002) consists of an exchanger. Outside heat (1021) and ventilation fan assembly (104) and the main station outside of the building Split air conditioner (2007) 9 Indoor unit installation of split air conditioner (2006) consists of an inner heat exchanger (203), flow control device (202), control device (201) and The fan blows the tuned air stream (204), creating a compressed and eddy current circuit assembled from the refrigerant fluid pipe (103), installed between (1061) in the heat-insulating device (110). ) And a fluid outlet path (1060) and an outward airflow (1051) were installed into the air-conditioned target area (120) between devices. Control the amount of ventilation (1061), the blower pump (1041) and the heat exchanger outside (1021) where the outdoor unit of the split air conditioner (2002) installed with the main station. Outside the building of the split air conditioner (2007), the outer heat exchanger (1021), the refrigerant fluid pipe (103) and the air vent fan assembly (104) where the main station outside The building of the Split Air Conditioner (2007) is mainly composed of compression equipment and will create compression circuits. And circulates through the refrigerant fluid tube (103) towards the outer heat exchanger (1021) and towards the inner heat exchanger (203) and the flow regulator (202) in Indoor unit of split air conditioner (2006) installed in target area air conditioner (120), indoor unit of split air conditioner (2006) is installed together with unit. The heat exchanger inside (203), the flow control device (202), the tuned air blower fan (204), and there is a control device (201) that controls the power input. And driving the air conditioner to work, the heat-insulating device (110) is installed separately to the exhaust throttling device (1061) and the fluid outlet (1060), the outer heat exchanger (1021) of the kit. Outside the building of a split air conditioner (2002) it is installed with a refrigerant fluid pipe (103) to allow the fluid to The refrigerant flows through it exchanging heat with the air stream outside (1051) in areas where there is The temperature difference outside (130) in the outer heat exchanger (1021) and the venting fluid from the air-conditioned target area (105), the outer heat exchanger ventilation fan assembly (104) is installed. On the outdoor unit of a split air conditioner (2002), it consists of a ventilating fan or blower, or an air pump driven by an electric motor. Where the range of The inlet air current is determined between the fluid outlet path (1060) and the exchanger. Outside heat (1021) for pumping air to the outside (1051) from an area with The temperature difference is outside (130) and for the venting fluid pump from the air-conditioned target area (105) with a temperature difference. It is pumped from the air-conditioned target area (120) through the volume control device (1061) and the fluid outlet path (106) in order to allow the air flow. They can exchange heat with each other. And later being drained to an area where there is a difference of Temperature on the outside (130) through the heat exchanger on the outside (1021), the refrigerant fluid pipe (103) containing Pipe fittings for connection The outdoor master station of the split air conditioner (2007) and the outer heat exchanger (1021) and the flow regulator (202) and the heat exchanger on the inside (203) of the indoor unit of the air conditioner. Modular (2006) to induce eddy Where inside the pipe Will leave the refrigerant in a gas state Or the state of the fluid passing through, a discharge control device (1061) consisting of Fluid opening door, door stopper or valve to close In order to use and control the amount of fluid draining from Conditioned target area (105), fluid discharge path (1060) containing The flow structure for the discharge of the air-conditioned target area (105) according to the volume of the discharge from the air-conditioned target area (120), the refrigerant fluid pipe (103) and the Thai ventilation path for the discharge of the air-conditioned target area. (105) According to the amount of air flow from the target area (120), the refrigerant fluid pipe (103) and the drain (1060) can be installed separately in a series Or assembled together as a pipe structure 2 1. Air conditioners that use the difference of the vent gas temperature to adjust the temperature balance. Of the heat exchanger on the outside As stated in claim 15, where its main morphology is that the outdoor installation of a modular air conditioner (2002) consists of an exchanger. Outside heat (1021) and exhaust fan assembly (104), outside master station installation. The modular air-conditioning building (2007) that was installed in a separate unit and the indoor unit of the split air conditioner (2006) consisted of a heat exchanger inside (203). , Flow regulators (202), regulators (201) and tuned air blower fans (204) and exhaust throttles (1061), and the assembly of refrigerant compression and eddy circuits. From the refrigerant fluid pipe (103) is installed between the units. All three above And a fluid outlet path (1060) and an outer air stream (1051) were installed into the air-conditioned target area (120) between the throttling device (1061) and the outer heat exchanger (1021). Where the outdoor unit of the split (2002) air conditioner installed with the body The outer heat exchanger (1021), the refrigerant fluid pipe (103), the ventilation fan unit (104), and the outdoor main station of the split air conditioner (2007) are separately installed as Set Where the main station outside the building of the Split Air Conditioner (2007) is essentially composed of a compression device and will form the compression circuit. And continue flowing through the pipe The refrigerant fluid (103) is directed towards the outer heat exchanger (1021) and towards the inner heat exchanger (203) and the flow regulator (202) in the indoor unit of Split air conditioner (2006) installed in the target area of air conditioner (120), the indoor unit of split air conditioner (2006) will be installed together with Goa. The inner heat exchanger (203), the flow regulator (202), the blower fan with the tuned air flow (204) and there will be a regulator (201) to act as the control unit of the split air conditioner (2006). To be installed next with the vent throttling device (1061) and the fluid outlet path (1060), the outer heat exchanger (1021) of the split air conditioner outdoor unit (2002) will be attached. Set together with the refrigerant fluid pipe (103) to let the substance The refrigerant flows through it exchanging heat with the airflow outside (1051) in an area where the The temperature difference outside (130) in the outer heat exchanger (1021) and the venting fluid from the air-conditioned target area (105), the outer heat exchanger ventilation fan assembly (104) is installed. On the outdoor unit of a split air conditioner (2002), it consists of a ventilator or blower or an air pump driven by an electric motor. Where the range of The inlet air current is determined between the fluid outlet path (1060) and the exchanger. Outside heat (1021) for pumping air to the outside (1051) from an area with The temperature difference is outside (130) and for the venting fluid pump from the air-conditioned target area (105) with a temperature difference. And it is pumped from the air-conditioned target area (120) through the volume control device (1061) and the fluid outlet path (106) to allow the air flow Both of them can exchange heat. And later being drained to an area where there is a difference of Temperature on the outside (130) through the heat exchanger on the outside (1021), the refrigerant fluid pipe (103) containing Pipe fittings for connection The outdoor main station of the split air conditioner (2007) installed separately, and the outer heat exchanger (1021) and the flow control device (202) and the heat exchanger. On the inside (203) of the indoor unit of the split air conditioner (2006) to induce the vortex. Where inside the pipe Will let the refrigerant in the gas state or the liquid state pass through Drain control device (1061) consisting of Fluid opening door, door stopper or valve to close In order to use and control the amount of fluid draining from Conditioned target area (105), fluid discharge path (1060) containing The flow structure for the discharge of the air-conditioned target area (105) according to the volume of the discharge from the air-conditioned target area (120), the refrigerant fluid pipe (103) and the Thai ventilation path for the discharge of the air-conditioned target area. (105) According to the amount of air discharge from target area (120), refrigerant fluid pipe (103) and fluid drain (1060) can be installed separately in series. Or assembled together as a pipe structure 2 2. Air conditioners that use the difference of the vent gas temperature to adjust the temperature balance. Of the heat exchanger on the outside As stated in claim 15, where its main morphology is that the outdoor installation of a modular air conditioner (2002) consists of an exchanger. The heating outside (1021) and the outdoor main station of the split air conditioner (2007) were installed in a separate series. And the indoor unit installation of the split air conditioner (2006) consists of an inner heat exchanger (203), a flow regulator (202), a control device (201) and a fan, a modified air flow forest. (204), blower pump (1041) and drain throttling device (1061) and compression circuit construction. And circulating refrigerant at It is assembled from a refrigerant fluid pipe (103), installed between the three above units, and a fluid outlet path (1060) is installed in the air-conditioned target area (120) between the controls. Ventilation volume (1061), blower pump (1041) and outer heat exchanger (1021) where the outdoor unit of the modular air conditioner (2002) installed with the housing. Outer heat exchanger (1021), refrigerant fluid pipe (103) and outer main station. The outdoor modular air conditioner (2007) is mainly composed of a compression device and it creates a compression circuit. And circulates through the refrigerant fluid tube (103) towards the outer heat exchanger (1021) and towards the inner heat exchanger (203) and the flow regulator (202) in Indoor unit of split air conditioner (2006) installed in target area of air conditioner (120), indoor unit of split air conditioner (2006) is installed together. The inner heat exchanger (203), the flow regulator (202), the blower fan with the tuned air flow (204) and the control device (201) are used to control the electrical power input. And to drive the air conditioner to work, the indoor unit of the split air conditioner (2006) will be installed next with the vent volume control device (1061), the blower pump (1041) and the fluid outlet (1060). The outer heat exchanger (1021) of the outdoor unit of the split air conditioner (2002) is installed with the refrigerant fluid pipe (103) to allow the fluid to The refrigerant flows through the heat exchange with the venting fluid from the air-conditioned target area (105), the refrigerant fluid pipe (103) containing Pipe fittings for connection The outdoor main station of the split air conditioner (2007) installed separately, and the outer heat exchanger (1021) and the flow regulator (202) and the heat exchanger. On the inside (203) of the indoor unit of the split air conditioner (2006) to induce the vortex Where inside the pipe Will allow the refrigerant in a gas or liquid state to pass through, a blower pump (1041) containing Blower fan unit Or ventilated or air pump driven by electric motor It serves to pump the drainage fluid from the air-conditioned target area (105) with a relative temperature difference from the air-conditioned target area (120) through the ventilation control device (1061) and the fluid outlet path (1060) and flow through the exchanger. It is heated outside (1021) and subsequently drained to an outer temperature difference area (130), a vent throttling device (1061) consisting of Fluid opening door, door stopper or valve to close In order to use and control the amount of fluid draining from Conditioned target area (105), fluid discharge path (1060) containing The fluid passage structure for the discharge of the air-conditioned target area (105) according to the amount of discharge from the air-conditioned target area (120), the refrigerant fluid pipe (103) and the fluid discharge path (1060) can be installed separately. Part Or assembled together as a pipe structure 2 3. Air conditioners that use the difference of the vent gas temperature to adjust the temperature balance. Of the heat exchanger on the outside As stated in claim 15, where its main morphology is that the outdoor installation of the Split Air Conditioner (2002) consists of an exchanger. Outside heat (1021) and ventilation fan assembly (104), outside master station installation. The modular air-conditioning building (2007) that was installed in a separate unit and the indoor unit of the split air conditioner (2006) consists of the heat exchanger inside ( 203), flow control device (202), control device (201) and adjustable air flow fan (204) and compression circuit construction. And circulating refrigerant that is assembled from the pipes of The refrigerant flow (103) is installed between the three above units. And installation of separate equipment The amount of discharge (1061) was controlled in the heat-insulating device (110) and a fluid outlet path (1060) was installed and the outside air stream (1051) was introduced into the air-conditioned target area (120) between the throttling devices. Vent (1061) and outer heat exchanger (1021), where the outdoor unit of the split air conditioner (2002) installed with the unit. The outer heat exchanger (1021), the refrigerant fluid pipe (103), the ventilation fan unit (104), and the outdoor main station of the split air conditioner (2007) are separately installed as Set Where the main station outside the building of the Split Air Conditioner (2007) essentially includes Compression equipment and will create compression circuits And continue flowing through the pipe The refrigerant fluid (103) is directed towards the outer heat exchanger (1021) and towards the inner heat exchanger (203) and the flow regulator (202) in the indoor unit of Split air conditioner (2006) is installed in the target area. Air conditioner (120), indoor unit of split air conditioner (2006) is installed together with the unit. The inner heat exchanger (203), the flow regulator (202), the blower fan with the tuned air flow (204) and the control device (201) are used to control the electrical power input. And to drive the air conditioner to work, the heat-insulating device (110) is installed separately to the air-throttling device (1061) and the fluid outlet path (1060), the heat exchanger on the outside (1021) of the unit. Outside the building of a split air conditioner (2002) it is installed with a refrigerant fluid pipe (103) to allow the fluid to The refrigerant flows through it exchanging heat with the air stream outside (1051) in areas where there is The temperature difference outside (130) in the outer heat exchanger (1021) and the venting fluid from the air-conditioned target area (105), the outer heat exchanger ventilation fan assembly (104) is installed. On the outdoor unit of a split air conditioner (2002), it consists of a ventilator or blower or an air pump driven by an electric motor. Where the range of The inlet air current is determined between the fluid outlet path (1060) and the exchanger. Outside heat (1021) for pumping air to the outside (1051) from an area with The temperature difference is outside (130) and for the venting fluid pump from the air-conditioned target area (105) with a temperature difference. And it is pumped from the air-conditioned target area (120) through the volume control device (1061) and the fluid outlet path (106) to allow the air flow Both of them can exchange heat. And later being drained to an area where there is a difference of Temperature on the outside (130) through the heat exchanger on the outside (1021), the refrigerant fluid pipe (103) containing Pipe fittings for connection The outdoor main station of the split air conditioner (2007) installed separately, and the outer heat exchanger (1021) and the flow control device (202) and the heat exchanger. On the inside (203) of the indoor unit of the split air conditioner (2006) to induce the vortex. Where inside the pipe Will allow refrigerant to pass through the gaseous or liquid state, the venting throttling device (1061) containing Fluid opening door, door stopper or valve to close In order to use and control the amount of fluid draining from Air target area (105), fluid discharge path (1060) containing Structure of the flow to drain the air from the target area (105) according to the amount of discharge from the target area. Air conditioning (120), refrigerant fluid pipe (103) and fluid drain (1060) can be installed individually as a series. Or assembled together as a pipe structure 2 4. Air conditioners that use the difference of the vent gas temperature to adjust the temperature balance. Of the heat exchanger on the outside According to Clause 15, where its main morphology is the outdoor installation of a modular air conditioner (2002), it consists of an exchanger. Outside heating (1021), outdoor master station installation of split air conditioners (2007) installed separately in a series. And the indoor unit installation of the split air conditioner (2006) consists of an inner heat exchanger (203), a remote control device (202), a control device (201) and an adjustable air flow fan. W (204) and construction of compression circuits. The refrigerant fluid is formed from the refrigerant fluid pipe (103) installed between the three above units. And the installation of a separate blower pump (1041) and a venting throttling device (1061), in the heat detector (110) and a fluid flow path (1060) installed in the target area of the air conditioner ( 120) during the ventilation throttling device (1061), the blower pump (1041) and the outer heat exchanger (1021), where the outdoor unit of the split air conditioner (2002) is installed with body Outside heat exchanger (1021), refrigerant fluid tube (103), and outside main site. Building of split air conditioner (2007), installed separately in series Where the main station The outdoor split air conditioner (2007) is mainly composed of a compression device and it creates a compression circuit. And flows through the refrigerant fluid pipe (103) towards the heat exchanger outside (1021) and directed towards the inner heat exchanger (203) and flow control device (202) in the indoor unit of the modular air conditioner (2006) installed in the target area of the air conditioner ( 120), indoor air-conditioning modular (2006) is installed with the unit. The heat exchanger inside (203), the flow control device (202), the tuned air blower fan (204), and there is a control device (201) that controls the power input. And to drive the air conditioner to work, the heat-insulating device (110) is installed separately with the volume control device (1061), the blower pump (1041) and the fluid outlet (1060), the heat exchanger at The exterior (1021) of the outdoor unit of the split air conditioner (2002) is installed with the refrigerant fluid pipe (103) to allow the fluid to The refrigerant flows through the exchange of heat with the venting fluid from the air-conditioned target area (105), the refrigerant fluid pipe (103) containing Pipe fittings for connection The outdoor master station of the split air conditioner (2007) and the outer heat exchanger (1021) and the flow regulator (202) and the heat exchanger on the inside (203) of the indoor unit of the air conditioner. Modular (2006) to induce eddy Where inside the pipe Will leave the refrigerant in a gas state Or the state of the liquid to pass through A blower pump (1041) consisting of Blower fan unit Or ventilated or air pump driven by electric motor It serves to pump the drainage fluid from the air-conditioned target area (105) with the relative temperature difference from the air-conditioned target floor (120) through the volume control device (1061) and the fluid outlet path (1060) and flow through the air conditioner. The outer heat exchanger (1021) and subsequently drained to an outer temperature difference area (130), a throttling device (1061) consisting of Fluid opening door, door stopper or valve to close In order to use and control the amount of fluid draining from Air target area (105), fluid discharge path (1060) containing Structure of the flow to drain the air from the target area (105) according to the amount of discharge from the target area. Air conditioning (120), refrigerant fluid pipe (103) and fluid drain (1060) can be installed individually as a series. Or assembled together as a pipe structure 2 5. Air conditioners that use the difference of the vent gas temperature to adjust the temperature balance. Of the heat exchanger on the outside According to claim 15, where its main morphology is that the outdoor installation of a split air conditioner (2002) consists of an exchanger. Outside heat (1021) and exhaust fan assembly (104), outside master station installation. The building part of the split air conditioner (2007) that was installed in a separate unit and the indoor unit of the split air conditioner (2006) consists of a changeover regulator. It is hot inside (203), remote control device (202), control device (201) and pre-built blower fan (204) and the construction of compression circuits. And flows through the cooling media that is made up of the B pipe of The refrigerant flow (103) is installed between the three above units. And installation of the air pump section (1041) and the distribution throttling device (1061) in the insulating device (110) and the fluid flow path (1060) and the air flow conduction on the outside ( 1051) into the area Target to replace split air conditioner (2000) where the outdoor unit of split air conditioner (2002) equipped with The outer heat exchanger (1021), the refrigerant fluid pipe (103), the ventilation fan assembly (104) and the outdoor main site of the split air conditioner (2007) attached. Set separately from each other in a series Where the main station outside the building of the Split Air Conditioner (2007) essentially includes Compression equipment and will create compression circuits And flows through the pipe The refrigerant fluid (103) is directed towards the heat exchanger on the outside. (1021) and go The internal heat exchanger (203) and the flow regulator (202) in the indoor unit of the The modular air conditioner (2006) is installed in the target area of air conditioner (120), the indoor unit of the split air conditioner (2006) is installed with the unit. The heat exchanger inside (203), the flow control device (202), the tuned air blower (204) and the regulator (201) are used to control the electrical power input. And to drive the air conditioner to work, the heat-insulating device (110) is installed separately with the volume control device (1061), the blower pump (1041) and the fluid drainage path (1060), the flow controller (1060). It is heated outside (1021) of the outdoor unit of a split air conditioner (2002) to be installed with the refrigerant fluid pipe (103) to allow the material to be heated. The refrigerant flows through it exchanging heat with the airflow outside (1051) in areas where there is The temperature difference outside (130) in the outside heat exchanger (1021) and the venting fluid from the air-conditioned target area (105), the ventilating fan unit of the outer heat exchanger (104). Installed on an outdoor unit of a split air conditioner (2002), it consists of a ventilation fan or air flow fan or an air pump driven by an electric motor. Where the range of The inlet air current is determined between the fluid outlet path (1060) and the exchanger. Outside heat (1021) for pumping air to the outside (1051) from an area with The temperature difference is outside (130) and for the venting fluid pump from the air-conditioned target area (105) with the temperature difference. It is pumped from the air-conditioned target area (120) through the volume control device (1061) and the fluid outlet (106) in order to allow the air flow. They can exchange heat with each other. And later being drained to an area where there is a difference of Temperature on the outside (130) through the heat exchanger on the outside (1021), the refrigerant fluid pipe (103) containing Pipe fittings for connection The outdoor main station of the split air conditioner (2007) installed separately and the outer heat exchanger (1021) and flow control device (202) and the heat exchanger at The inside (203) of the indoor unit of the split air conditioner (2006) to cause the vortex Where inside the pipe Will allow the refrigerant in a gaseous or liquid state to pass through, a discharge throttling device (1061) containing Fluid opening door, door stopper or valve to close In order to use and control the amount of fluid draining from Air target area (105), fluid discharge path (1060) containing Structure of the flow to drain the air from the target area (105) according to the amount of discharge from the target area. Air conditioning (120), refrigerant fluid pipe (103) and fluid drain (1060) can be installed individually in a series. Or assembled together to form a pipe structure