MX2012003013A - Air conditioning device utilizing temperature differentiation of exhausted gas to even temperature of external heat exchanger. - Google Patents

Abstract

This invention relates to a cooling/heating air conditioning device for regulating temperature, which pumps an airflow exhausted from a space in an air conditioning object such as inside of a room or vehicle to the external through the external heat exchanger disposed at the external of the air conditioning object such as outside of the room or vehicle so as to equalize the temperature of the fluid flowing through the internal of the external heat exchanger by means of the temperature difference between the internal and external of the air conditioning object for achieving an energy saving effect.

Description

TITLE: AIR CONDITIONING DEVICE THAT USES DIFFERENTIATION OF TEMPERATURE OF THE EXHAUST GAS TO EQUALIZE THE TEMPERATURE OF THE EXTERNAL HEAT EXCHANGER REFERENCE CROSSED TO RELATED REQUEST This application is a Continuation-in-Part of my E patent application. OR . TO . Serial No. 12/961, 585 filed on December 7, 2010.

BACKGROUND OF THE INVENTION (a) Field of the Invention This invention relates to a device for air conditioning by cooling / heating, to regulate the temperature, which pumps a flow of air discharged from an air-conditioned space such as the interior of a room or vehicle to the outside through the external heat exchanger placed on the outside of the air conditioning object such as the outside of the room or vehicle, to equalize the temperature of the fluid circulating through the internal part of the external heat exchanger by the difference of temperature between the internal and external part of the air conditioning object, to achieve an effect of saving energy. (b) Description of the Previous Technique Conventionally, during the use of an air conditioning device by cooling / heating, due to the need for external ventilation, ventilation holes are typically placed in a window-type air conditioning device to perform external ventilation, alternatively a window-type main unit is cooperated with a ventilation device such as a ventilator or ventilation device with interchange total heat to perform external ventilation. However, it is unfortunate that to date, when operating as a refrigerant, the window type air conditioning device or split type air conditioning device, the discharge air flow at a relatively lower temperature of the air space has not been used. an air conditioning object such as inside a room, to facilitate the temperature decrease of an external heat exchanger that is placed outside as a condenser, and when the air conditioning device is operated as a heater, the discharge air flow of a relatively higher temperature has not been used to facilitate the increase of the temperature of the external heat exchanger that is placed externally as an evaporator.

COMPENDIUM OF THE INVENTION This invention relates to a cooling / heating air conditioning device for regulating temperature, which pumps a flow of air discharged from a space in an air-conditioning object such as the interior of a room or vehicle to the outside through of the external heat exchanger placed on the outside of the air conditioning object such as outside the room or vehicle to equalize the temperature of the fluid circulating through the internal part of the device or external heat exchanger by temperature differentiation between the two fluids. When the air conditioning device is operated as a refrigerant, the airflow of a relatively lower temperature, discharged from the air-conditioned space such as the interior of the room, can be used to facilitate the reduction of the temperature of the exchanger external heat that is placed outside as a condenser, and when the air conditioning device is operated as a heater, the discharge air flow with relatively higher temperature can be used to facilitate the temperature increase of the external heat exchanger that is placed outside or outside as an evaporator, the energy saving feature of the present invention is applicable in the internal or external space of an air cooling / heating device in the gas state or liquid state temperature regulating device installed in a fixed member such as the internal part of an architectural structure, Factory, public construction or field; or applicable in the internal or external space of an air heating / cooling device in the gas state or liquid temperature regulating device installed in a mobile member such as a road vehicle, a railway vehicle or aircraft or applicable in space internal or external of a gas heating / cooling device in the gas state or liquid temperature regulating device installed in a device device.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a diagram of the operating principles of this invention illustrated by the integral air conditioning device.

Figure 2 is a structural schematic view of an embodiment of the present invention having an integral air conditioning device, with a fan unit for air flow discharge of the external heat exchanger (104) and a discharge path of fluid (106) for pumping a fluid discharged from the airconditioning space (105) and an external air flow (1051) for circulating together through an external heat exchanger (1021).

Figure 3 is a structural schematic view of an embodiment of the present invention having an integral air conditioning device without a fan unit for air flow discharge from heat exchanger (104) and a ventilation device (1041) which is commonly constructed with a fluid discharge path (106) for pumping a fluid discharged from the air-conditioned space (105) to flow through an external heat exchanger (1021).

Figure 4 is a structural schematic view of an embodiment of the present invention having a fluid discharge path (1060) and an air flow discharge fan unit of the external heat exchanger (104) for pumping a discharged fluid of the air conditioning object space (105) and an external air flow (1051) to flow together through an external heat exchanger (1021) in the assembly of the air conditioning device (1000).

Figure 5 is a schematic structural view of an embodiment of the present invention having a blower pump (1041) mounted separately and a device for regulating the amount of exhaust (1061) and having a mounting of the air conditioning device (1000) without the fan unit for discharge of air flow from the external heat exchanger (104).

Figure 6 is a structural schematic view of an embodiment of the present invention having an integral air conditioning device assembly (1000) positioned with a fan unit for air flow discharge of the external heat exchanger (104) and the fluid discharge path (1060) and the blower pump (1041).

Fig. 7 is a structural schematic view of an embodiment of the present invention having an outdoor unit of the air conditioning device, of the split type (2002) with a fan unit for discharge of air from external heat exchanger ( 104) and a main unit of the air conditioning device, of split type (2001) mounted with the fluid discharge path (1060).

Figure 8 is a structural schematic view of an embodiment of the present invention, having the main unit of the air conditioning device, of the split type (2001) commonly constructed with the blower pump (1041) and having an outdoor unit of the air conditioning device, split type (2002) without the fan unit for discharge of air flow from the external heat exchanger (104).

Figure 9 is a structural schematic view of one embodiment of the present invention having the separately mounted fluid discharge path (1060), the main unit of air conditioning device, split type (2001) and the outdoor unit of the air conditioning device, of divided type (2002) with the air flow discharge fan unit of the external heat exchanger (104).

Figure 10 is a schematic structural view of an embodiment of the present invention having the separately mounted blower pump (1041), the main unit of the air conditioning device, of the split type (2001) and the outdoor unit of the air conditioning device. air conditioning, split type (2002) without the external heat exchanger airflow discharge fan unit (104).

Figure 11 is a structural schematic view of an embodiment of the present invention having the main unit of the air conditioning device, of split type (2001), the outdoor unit of the air conditioning device, of the divided type (2002) with the air flow discharge fan unit of the external heat exchanger (104) and the separately mounted blower pump (1041).

Figure 12 is a schematic structural view of an embodiment of the present invention having a main unit of the air-cooled water conditioning device (2005), a cooling tower providing an energized fan (2003) and the mounted blower pump separately (1041).

Figure 13 is a structural schematic view of an embodiment of the present invention having a main unit of the water-cooled air conditioning device (2005) and a cooling tower providing energized fan (2003).

Figure 14 is a structural schematic view of one embodiment of the present invention having a water cooled air conditioning main unit (2005), a natural draft cooling tower (2003) and the blower pump mounted separately (1041).

Figure 15 is a structural schematic view of an embodiment of the present invention having an external unit of the air conditioning device, of split type (2002) composed of an external heat exchanger (1021) and a fan unit for exhaust of air flow (104) and an external main station of the split type air conditioning device (2007), having an internal unit of the split type air conditioning device (2006) composed of an internal heat exchanger (203) , a flow regulating device (202), a control device (201), a blower for air conditioning flow (204) and an exhaust quantity regulating device (1061), having a circulation and compression loop of refrigerant constructed by a refrigerant pipeline (103) installed between the two previous ones, and install a fluid discharge path (1060) and introduce external air flow (1051) in the air conditioning object space (120) between the exhaust quantity regulating device (1061), and the external heat exchanger (1021).

Figure 16 is a schematic structural view of an embodiment of the present invention having an outdoor unit of the air conditioning device, of the split type (2002) composed of an external heat exchanger (1021) and an external main station of the device air conditioning type split (2007), which has an internal unit of the air conditioning device divided type (2006) composed of an internal heat exchanger (203), a flow regulator device (202), a control device (201), a blower fan of air conditioning flow (204), a blower pump (1041) and an exhaust quantity regulator device (1061), which has a circulation and compression refrigerant loop constructed by a pipe for refrigerant fluid (103) installed between the previous two, and install a fluid discharge path (1060) in the space provided for air conditioning (120) between the exhaust quantity regulating device (1061), the blow pump (1041) and the external heat exchanger (1021).

Figure 17 is a schematic structural view of an embodiment of the present invention having an outdoor unit of the air conditioning device, of the split type (2002), composed of an external heat exchanger (1021) and a fan unit for air flow exhaust (104) and an external main station of the split type air conditioning device (2007), which has an internal unit of the split type air conditioning device (2006) composed of an internal heat exchanger (203) ), a flow regulating device (202), a control device (201), and an air conditioning flow blower (204) having a refrigerant circulation and compression loop constructed by a refrigerant line (103). ) installed between the two previous ones, and separately assemble an exhaust quantity regulating device (1061) in the thermal insulation device (110), and install a fluid discharge path (1060) and introduce external air flow (1051) ) in the space provided for air conditioning (120) between the exhaust quantity regulating device (1061), and the external heat exchanger (1021).

Figure 18 is a structural schematic view of an embodiment of the present invention having an outdoor unit of the air conditioning device, of split type (2002) composed of an external heat exchanger (1021) and an external main station of the device air conditioning type split (2007), which has an internal unit of the air conditioning device divided type (2006) composed of an internal heat exchanger (203), a flow regulator device (202), a control device (201), a blower fan of air conditioning flow (204) having a circulating and compressing refrigerant loop constructed by a refrigerant fluid line (103) installed between the two previous ones, and mounting a blower pump separately ( 1041) and an exhaust quantity regulating device (1061) in the thermal insulation device (110), and installing a fluid discharge path (1060) in the space The air conditioning object (120) between the exhaust quantity regulating device (1061), the blower pump (1041) and the external heat exchanger (1021).

Figure 19 is a structural schematic view of an embodiment of the present invention having an outdoor unit of air conditioning device, of split type (2002) composed of an external heat exchanger (1021) and an exhaust fan unit of air flow (104) and an external main station of the split type air conditioning device (2007), having an internal unit of the split type air conditioning device (2006) composed of an internal heat exchanger (203) , a flow regulating device (202), a control device (201), and an air conditioning flow blower (204) having a refrigerant circulation and compression loop constructed by a refrigerant line (103). ) installed between the two previous ones, and separately assemble a blower pump (1041) and an exhaust quantity regulator device (1061) in the thermal insulation device (1 10), and install a fluid discharge path (1060) and introduce external air flow (1051) in the air conditioning space (120) between the exhaust quantity regulator (1061), the blower pump (1041) and the external heat exchanger (1021).

Figure 20 is a structural schematic view of an embodiment of the present invention having an outdoor unit of the air conditioning device, of the divided type (2002), composed of an external heat exchanger (1021) and a fan unit for air flow exhaust (104) having an external main station of the split type air conditioning device (2007), which is installed individually, having an internal unit of the split type air conditioning device (2006) composed of a internal heat exchanger (203), a flow regulating device (202), a control device (201), and a blower fan of air conditioning flow (204) and an exhaust quantity regulating device (1061) that has a refrigerant circulation and compression loop constructed by a refrigerant line (103) installed between the three above, and install a fluid discharge path (1060) and introducing external air flow (1051) into the space provided for air conditioning (120) between the exhaust quantity regulating device (1061) and the external heat exchanger (1021).

Figure 21 is a structural schematic view of an embodiment of the present invention having an outdoor unit of the air conditioning device, of the split type (2002), composed of an external heat exchanger (1021) having an external main station of the air conditioning device divided type (2007), installed individually, having an internal unit of the split type air conditioning device (2006) composed of an internal heat exchanger (203), a flow regulating device (202), a control device (201), a blower fan air conditioning flow (204), a blower pump (1041) and an exhaust quantity regulator device (1061) having a refrigerant circulation and compression loop constructed by a refrigerant fluid line (103) installed between the above three , and installing a fluid discharge path (1060) in the airconditioning space (120) between the exhaust quantity regulating device (1061), the blower pump (1041) 'and the external heat exchanger ( 1021).

Figure 22 is a structural schematic view of an embodiment of the present invention having an outdoor unit for air conditioning device, of divided type (2002), composed of an external heat exchanger (1021) and a fan unit for air flow exhaust (104) having an externally located split air conditioning unit (2007), individually installed, having an internal unit of the split type air conditioning device (2006) comprised of an air exchanger internal heat (203), a flow regulating device (202), a control device (201), and an air conditioning flow blower (204) having a refrigerant circulation and compression loop constructed by a pipeline for coolant fluid (103) installed between the three previous ones, and separately assemble an exhaust quantity regulator device (1061) in the insulation device thermal (110), and install a fluid discharge path (1060) and introduce external air flow (1051) in the air conditioning object space (120) between the exhaust quantity regulator device (1061), and the External heat exchanger (1021).

Figure 23 is a schematic structural view of an embodiment of the present invention having an external unit of the air conditioning device, of the split type (2002), composed of an external heat exchanger (1021) having an external main station of the split-type air conditioning device (2007), individually installed, having an internal unit of the split-type air conditioning device (2006) composed of an internal heat exchanger (203), a flow regulating device (202) , a control device (201), a blower fan of air conditioning flow (204), having a loop of circulation and compression of refrigerant built by a refrigerant line (103) installed between the three previous ones, and assembling separately a blower pump (1041) and an exhaust quantity regulating device (1061) in the thermal insulation device (110), and install a path of fluid discharge (1060) and introducing external air flow (1051) in the air conditioning space (120) between the exhaust quantity regulator (1061), the blower pump (1041) and the external heat exchanger (1021).

Figure 24 is a structural schematic view of an embodiment of the present invention having an external unit of the air conditioning device, of split type (2002), composed of an external heat exchanger (1021) and a fan unit for air flow exhaust (104) having an externally installed split-type air conditioner (2007), which has an internal unit of the split-type air conditioning device (2006) composed of a heat exchanger internal heat (203), a flow regulating device (202), a control device (201), and an air conditioning flow blower (204) having a refrigerant circulation and compression loop constructed by a pipeline for coolant fluid (103) installed between the three previous ones, and separately assemble a fluid pump (1041) and an exhaust quantity regulator device (1061) in it thermal insulation device (110), and installing a fluid discharge path (1060) and introducing external air flow (1051) in the air conditioning object space (120) between the exhaust quantity regulating device (1061) , the blower pump (1041) and the external heat exchanger (1021).

DESCRIPTION OF SYMBOLS OF MAIN COMPONENTS 101: Main unit of device air conditioning 103 '| Piping for coolant fluid 104: Air flow exhaust fan unit for external heat exchanger 105: Discharged or exhaust fluid from the air-conditioned space 106 '| Fluid discharge path 107: Water Pipe 108: Fan unit for cooling torre 109: Pipe for water inlet and outlet 110: Thermal insulation device 111: Water pump 120: Space for air conditioning 130 '| External temperature differentiation space 201: Control device 202: Air flow regulating device 203: Internal heat exchanger 204: Fan to blow air flow conditioned 1000 '| Assembly of air conditioning device 1021: External heat exchanger 1041: Blower or fan pump 1051 · External air flow 1060: Fluid discharge path 1061: Exhaust quantity regulator device 1070: Inlet piping for external air flow 2001: Main unit of the device Air conditioning, split type 2002: External unit of the device air conditioning, divided type 2003 · Cooling tower that provides fan energized 2004: Natural draft cooling tower 2005: Main unit of the device air conditioning cooled by water 2006: Internal unit of the device Air conditioning, split type 2007: External main station of the air conditioning device, divided type DETAILED DESCRIPTION OF THE PREFERRED MODALITIES Conventionally, during the use of an air conditioning device by cooling / heating, due to the need for external ventilation, ventilation holes are typically placed in a window-type air conditioning device, to perform external ventilation, or in the form of alternately, a total heat exchange ventilation device or fan is placed to perform external ventilation. However, it is unfortunate that to date, when the aforementioned window-type air-conditioning device or split-type air-conditioning device is operated as a refrigerant, the air flow of a relatively lower temperature discharged from the space of a air conditioning object such as inside a room, has not been used to facilitate the temperature decrease of an external heat exchanger that is placed outside or outside as a condenser, and when the air conditioning device is As a heater, the flow of air discharged from a relatively higher temperature has not been used to facilitate the temperature increase of the external heat exchanger that is placed outside of an evaporator.

This invention relates to an air conditioning device by cooling / heating, for regulating the temperature, which pumps the discharge fluid from the air-conditioned space (105) into an air-conditioning object such as the inner part or inside a vehicle, and / or pump the external air flow (1051) through the external heat exchanger (1021) placed on the outside of the air conditioning object such as outside or outside of a vehicle, to perform the heat exchange with the refrigerant fluid line (103) passing through the internal part of the external heat exchanger device by differentiating the temperature between the two fluids. When the air conditioning device is operated as a refrigerant, the air flow of a relatively lower temperature discharged from the airconditioned space, such as the interior of the room, can be used to facilitate the decrease of the temperature of the changer of external heat that is placed outside as a condenser and when the air conditioning device is operated as a thermal pump to supply hot air, the air flow discharged from a relatively higher temperature, can be used to facilitate the temperature rise of the external heat exchanger that is placed externally as an evaporator, the energy-saving feature of the present invention applies in the internal or external space of an air conditioning device by cooling / heating in a gas state or a liquid-state temperature regulating device installed in a fixed member such as the internal part of an architecture, factory, public construction or field; or applicable to the internal or external space of an air conditioning device by cooling / heating in a gas state or a liquid state temperature regulating device in a mobile member such as a road vehicle, railway vehicle or aircraft; or applicable in the internal or external space of an air conditioning device by gas state cooling / heating or liquid temperature regulating device installed in an equipment device.

Figure 1 is a diagram of the operating principles of this invention illustrated by the integral air conditioning device.

As illustrated in Figure 1, the main configurations are as follows: a main unit of the air conditioning device (101), which essentially consists of a regulating device, an internal heat exchanger (203), a compression device, pipes, a control device (201), a flow blower of air for air conditioning and a housing, and coupled to an external heat exchanger pipe (1021) mounted in an external temperature differentiation space (130) to form a circulation path by a refrigerant fluid pipe (103); and having an exhaust quantity regulating device (1061) and a fluid escape route (1060) for the fluid discharged from the air conditioning object space (105) for through flow, and further to discharge to the differentiation space of external temperature (130) through the external heat exchanger (1021); the external heat exchanger (1021) is provided with the refrigerant piping (103) to allow the refrigerant to pass from the main unit to the heat exchanger with the external air flow (10.51) of the external temperature differentiation space (130) of the external heat exchanger (1021) and the fluid discharged from the air-conditioned space (105); a blower pump (1041) or an exhaust fan unit for air flow of the external heat exchanger (104) is installed in one or more of one of the three locations including the fluid discharge path (1060) or the side inlet or the outlet side of the external heat exchanger (1021), for pumping the fluid discharged from the air-conditioned space (105) for discharge of the external temperature differentiation space (130) through the heat exchanger external (1021); the fan unit for discharge of air flow from the external heat exchanger (104) and the blower pump (1041), comprises an air blower or blower unit or an air pump driven by an electric motor, for pumping the fluid discharged from the air conditioning object space (105) with a temperature differentiation from the air conditioning object space (120) through the exhaust quantity regulating device (1061) and the discharge or exhaust route fluid (1060), or to simultaneously pump the exhaust fluid from the air conditioning object space (105) and the external air flow (1051), to discharge the external temperature differentiation space (130) through of the external heat exchanger (1021), allowing two air flows to discharge from the external temperature differentiation space (130) through the external heat exchanger (1021); the refrigerant fluid pipe (103), which is a pipeline device for circulation, for coupling the main unit of the air conditioning device (101) and the external heat exchanger (1021), wherein a liquid refrigerant is circulated or gas; the regulating device of the exhaust quantity (1061), formed by a gate for fluid, a valve or gate of passage to operate and adjust the amount of exhaust of the discharge or exhaust fluid of the air conditioning object space ( 105); the fluid escape route (1060), which is a structure for the passage of fluid, to allow the discharge of the fluid discharged from the air conditioning object space (105); The operating principles of these are as follows: When operating as a function of supplying cold air to the air conditioning object space (120), the temperature of an external temperature differentiation space (130) where the external heat exchanger (1021) is located higher and the External air flow (1051) is pumped only by the air flow exhaust fan unit of the external heat exchanger (104), it is difficult to release heat from the refrigerant in the refrigerant fluid line (103) placed in the external heat exchanger (1021), in this way when using both or one of the fan unit for exhaust air flow of the heat exchanger external (104) and / or the exhaust quantity regulating device (1061) for pumping the exhaust fluid from the air-conditioned space (105) at a relatively lower temperature in an interior air-conditioned object space (120 ), or simultaneously pumping the exhaust fluid from the air-conditioned space (105) and the external air flow (1051) circulating through the external heat exchanger (1021), the effect of reducing the temperature of the heat exchanger External heat (1021) is improved, and in this way facilitate the improvement of the cooling air conditioning efficiency; - on the contrary, when operating as a thermal pfunction to supply hot air to the air conditioning object space (120), when png the exhaust fluid from the space · air conditioning object (105) having a temperature Relatively superior to the external heat exchanger (1021) through the external heat exchanger (1021), the effect of raising the temperature of the external heat exchanger (1021) is improved, and in this way facilitates the improvement of the conditioning efficiency of air heating; The air conditioning device that uses exhaust gas temperature differentiation to uniformize the temperature of the external heat exchanger of the present invention, includes png the flow of air passing through the external portion of the external heat exchanger (1021). ) by the exhaust fan unit for air flow of the external heat exchanger (104) and / or the blower p(1041); According to the air conditioning device which uses exhaust gas temperature differentiation to uniformize the temperature of the external heat exchanger with a thermal insulation device (110) constructed in the object location, the air conditioning object space ( 120) and the external temperature differentiation space (130) can be insulated, the thermal insulation structure (110) includes the wall of a construction, the housing of a carrier or conveyor or the enclosure of a mechanism made of thermal insulation material or a material that has even better thermal insulation properties; According to the air conditioning device that uses differentiation of the exhaust gas temperature to uniformize the temperature of the external heat exchanger, the aforementioned air conditioning space (120), is often defined as the internal part of a construction or the internal part of a vehicle or the internal part of a vessel or the internal part of an aircraft or the internal part of an equipment device, which allows the air conditioning device to perform regulation to raise the temperature or regulation to reduce temperature; the exhaust fluid for the aforementioned air conditioning space (105) is defined as the flow of air discharged from the inner part of the air conditioned space (120) and the flow through the external heat exchanger (1021) ); According to the air conditioning device that uses differentiation of the temperature of the exhaust gas to uniformize the temperature of the external heat exchanger, the aforementioned external temperature differentiation space (130) is defined as the isolated outer space of the space being conditioning of air (120) through the thermal insulation device (110); According to the air conditioning device that uses differentiation of the temperature of the exhaust gas to uniformize the temperature of the external heat exchanger, the aforementioned external air flow (1051) is defined as the air flow surrounding the differentiation space of external temperature (130); In the air conditioning device that uses differentiation of exhaust gas temperature to uniformize the temperature of the external heat exchanger, the temperature of the exhaust fluid of the air-conditioned space (105) includes higher than that of a heat exchanger externally arranged externally of a temperature regulator; In the air conditioning device that uses differentiation of exhaust gas temperature to uniformize the temperature of the external heat exchanger, the temperature of the exhaust fluid of the air-conditioned space (105) includes less than that of a heat exchanger. heat to the external part placed externally to a temperature regulator; In the air conditioning device which uses exhaust gas temperature differentiation to uniformize the temperature of the external heat exchanger, the exhaust fluid from the discharged air conditioning object space (105) includes thermally exchanging with the exhaust pipe. refrigerant fluid (103) placed in the external heat exchanger (1021) in the outer space or an external heat exchanger surface (1021); The air conditioning device that uses exhaust gas temperature differentiation to uniformize the temperature of the external heat exchanger of the present invention is formed by applying the above-mentioned operating principles to various types of air conditioning devices, including devices of integral air conditioning, or air conditioning devices of the divided type, or use the cooling tower to replace the cooling tower air conditioning device of the external heat exchanger (1021).

Various embodiments of the air conditioning device using exhaust gas temperature differentiation to uniformize the temperature of external heat exchangers of the present invention are described as follows: Figure 2 is a structural schematic view of an embodiment of the present invention having an integral air conditioning device with an exhaust fan unit for air flow of the external heat exchanger (104) and a fluid discharge path (106) for pumping an exhaust fluid from the air-conditioned space (105) and an external air flow (1051) to flow together through an external heat exchanger (1021).

As illustrated in Figure 2, the main configurations are as follows: a main unit of air conditioning device (101), which essentially consists of a regulating device, an internal heat exchanger (203), a compression device, pipes, a control device (201), a flow blower air for air conditioning and a housing, and coupling an external heat exchanger pipe (1021) mounted in an external temperature differentiation space (130) to form a circulation path by a refrigerant fluid pipe (103); and having an exhaust quantity regulating device (1061), and a fluid escape route (106), formed by a housing to allow the exhaust fluid from the air-conditioned space (105) to flow to the exchanger of external heat (1021); the external heat exchanger (1021), which is provided with the refrigerant fluid line (103) to allow the refrigerant to pass from the main unit to the heat exchanger with the external air flow (1051) of the temperature differentiation space external (130) of the external heat exchanger (1021) and the exhaust fluid of the air-conditioned space (105); the refrigerant fluid line (103), which is a circulating pipe device for coupling the main unit of the air conditioning device (101) and the external heat exchanger (1021), wherein a gas refrigerant is circulated or liquid; an exhaust fan unit for air flow of the external heat exchanger (104), comprising an exhaust fan or air blower unit or an air pump driven by an electric motor, for pumping the external air flow ( 1051) of the external temperature differentiation space (130) and for pumping the exhaust fluid from the air-conditioned space (105) with a temperature differentiation that is pumped from the air-conditioned space (120) through of the exhaust quantity regulation device (1061) and the fluid escape route (106), allowing exhaust air flows to the external temperature differentiation space (130) through the external heat exchanger (1021); the exhaust quantity regulating device (1061), formed by a fluid gate, a valve or bypass gate for operating and adjusting the exhaust fluid escape amount from the air conditioning object space (105); the fluid escape route (106), which is a fluid passage structure to allow escape fluid escape from the air conditioning object space (105); whereby a mounting of the integral air conditioning device (1000) is formed by the aforementioned structures.

Figure 3 is a structural schematic view of an embodiment of the present invention having an integral air conditioning device without a fan unit for exhaust air flow from the heat exchanger (104) and a ventilation device (1041) , commonly constructed with a fluid escape route (106) for pumping an exhaust fluid from the air-conditioned space (105) to circulate through an external heat exchanger (1021).

As illustrated in Figure 3, the main configurations are as follows: a main unit of air conditioning device (101), which essentially consists of a regulating device, an internal heat exchanger (203), a compression device ^ pipes, a control device (201), a flow blower air for air conditioning and a housing, and coupled to an external heat exchanger pipe (1021) mounted in an external temperature differentiation space (130) to form a circulation path by a refrigerant fluid pipe (103); and having a fluid escape route (106) formed by a housing, and having a device for regulating the amount of exhaust (1061) and the blower pump (1041); the external heat exchanger (1021), which is provided with the refrigerant fluid line (103) to allow the refrigerant to pass from the main unit to the heat exchange with the exhaust fluid from the air-conditioned space (105) to through the external heat exchanger (1021); the refrigerant fluid line (103), which is a circulating pipe device for coupling the main unit of the air conditioning device (101) and the external heat exchanger (1021), wherein a gas refrigerant is circulated or liquid; a blower pump (1041), comprising an exhaust fan or air blower unit or an air pump driven by an electric motor, for pumping the exhaust fluid from the air-conditioned space (105) with a temperature differentiation from the air conditioning object space (120) through the exhaust quantity regulating device (1061) and the fluid escape route (106), to discharge or escape to the external temperature differentiation space (130) through the external heat exchanger (1021); the exhaust quantity regulating device (1061), formed by a fluid gate, a valve or stopcock for operating and adjusting the exhaust fluid exhaust quantity of the air conditioning object space (105); the fluid escape route (106), which is a fluid passage structure to allow escape fluid escape from the air conditioning object space (105); whereby an assembly of integral air conditioning device (1000) is formed by the above structures.

Figure 4 is a structural schematic view of an embodiment of the present invention having a fluid escape route (1060) and an external heat exchanger airflow exhaust fan unit (104), for pumping a fluid Exhausting space of the air conditioning object (105) and an external air flow (1051) to circulate together through an external heat exchanger (1021) in the assembly of the air conditioning device (1000).

As illustrated in Figure 4, the main configurations are as follows: a main unit of air conditioning device (101), which essentially consists of a regulating device, an internal heat exchanger (203), a compression device, pipes, a control device (201), a flow blower air for air conditioning and a housing, and coupled to an external heat exchanger pipe (1021) mounted in an external temperature differentiation space (130) to form a circulation path by a refrigerant fluid pipe (103); and having a fluid escape route (1060) and an exhaust quantity regulating device (1061); the external heat exchanger (1021), which is provided with the refrigerant fluid line (103) to allow the refrigerant to pass from the main unit for heat exchange with the external air flow (1051) of the external temperature differentiation space (130) of the external heat exchanger (1021) and the exhaust fluid of the air conditioning object (105); the refrigerant fluid line (103), which is a circulation pipe device for coupling the main unit of the air conditioning device (101) and the external heat exchanger (1021), in which a gas refrigerant is circulated or liquid; an air flow exhaust fan unit of the external heat exchanger (104), comprising an exhaust fan or air blower unit or an air pump driven by an electric motor, for pumping the external air flow ( 1051) of the external temperature differentiation space (130) and for pumping the exhaust fluid from the air-conditioned space (105) with a temperature differentiation that is pumped from the air-conditioned space (120) through of the exhaust quantity regulation device (1061) and the fluid escape route (1060), allowing two exhaust air flows to the external temperature differentiation space (130) through the external heat exchanger (1021); whereby an assembly of air conditioning device (1000) is formed by the aforementioned structures; the exhaust quantity regulating device (1061), formed by a fluid gate, a valve or stopcock for operating and adjusting the exhaust fluid exhaust amount for the air conditioning object space (105); the fluid escape route (1060), which is a fluid passage structure to allow escape fluid escape from the air conditioning object space (105).

Figure 5 is a schematic structural view of an embodiment of the present invention having a separately mounted blow pump (1041) and an exhaust quantity regulating device (1061) and having a mounting of the air conditioning device (1000) without the exhaust fan unit for air flow in the external heat exchanger (104).

As illustrated in Figure 5, the main configurations are as follows: a main unit of the air conditioning device (101), which essentially consists of a regulating device, an internal heat exchanger (203), a compression device, pipes, a control device (201), a flow blower of air for air conditioning and a housing, and coupled to an external heat exchanger pipe (1021) mounted in an external temperature differentiation space (130) to form a circulation path by a refrigerant fluid pipe (103); and having a fluid escape route (1060), an exhaust quantity regulating device (1061), a blower pump (1041); the external heat exchanger (1021), which is provided with the refrigerant fluid line (103) to allow the refrigerant to pass from the main unit to heat exchange with the external heat exchanger (1021) and the space exhaust fluid object for air conditioning (105); the pipe for refrigerant fluid (103), which is a circulating pipe device for coupling the main unit of the air conditioning device (101) and the external heat exchanger (1021), wherein a gas refrigerant is circulated or liquid; whereby an assembly of air conditioning device (1000) is formed by the aforementioned structures; a blower pump (1041), comprising a fan unit for exhaust or air blowing or an air pump driven by an electric motor, for pumping the exhaust fluid from the air-conditioned space (105) with a differentiation of temperature of the air conditioning object (120) through the exhaust quantity regulating device (1061) and the fluid escape route (1060), to escape the external temperature differentiation space (130) to through the external heat exchanger (1021); the exhaust quantity regulating device (1061), formed by a fluid gate, a valve or stopcock for operating and adjusting the exhaust fluid exhaust quantity of the air conditioning object space (105); the fluid escape route (1060), which is a structure for fluid passage, to allow escape fluid escape from the air conditioning object space (105).

Figure 6 is a structural schematic view of an embodiment of the present invention having an air conditioning device structure (1000) assembled with an external heat exchanger air flow exhaust fan unit (104) and the Fluid escape route (1060) and blower pump (1041).

As illustrated in Figure 6, the main configurations are as follows: a main unit of the air conditioning device (101), which essentially consists of a regulating device, an internal heat exchanger (203), a compression device, pipes, a control device (201), a flow blower of air for air conditioning and a housing, and coupled to an external heat exchanger pipe (1021) mounted in an external temperature differentiation space (130) to form a circulation path by a refrigerant fluid pipe (103); and having a fluid escape route (1060) and a blower pump (1041); the external heat exchanger (1021), which is provided with the refrigerant fluid line (103) to allow the refrigerant to pass from the main unit to heat exchange with the external air flow (1051) of the external temperature differentiation space (130) of the external heat exchanger (1021) and the exhaust fluid for the air-conditioned space (105); the refrigerant fluid line (103), which is a circulation pipe device for coupling the main unit of the air conditioning device (101) and the external heat exchanger (1021), in which a gas refrigerant is circulated or liquid; an external heat exchanger airflow exhaust fan unit (104), comprising an exhaust fan or air blower unit or an air pump driven by an electric motor, for pumping the external air flow ( 1051) of the space for external temperature differentiation (130) and for pumping the exhaust fluid from the air-conditioned space (105) with a temperature differentiation that is pumped from the air-conditioned space (120) through of the exhaust quantity regulating device (1061) and the fluid escape route (1060) by the blower pump (1041), allowing two air flows to exhaust the external temperature differentiation space (130) through the external heat exchanger (1021); whereby an air conditioning device structure (1000) is formed by the aforementioned structures; a blower pump (1041), comprising an air blower or blower unit or an air pump driven by an electric motor, for pumping the exhaust fluid from the air conditioning object space (105) with a differentiation of space temperature object of air conditioning (120) through the device for regulating the amount of exhaust (1061) and the fluid escape route (1060), to discharge to the external temperature differentiation space (130) through the external heat exchanger (1021), allowing two air flows to discharge to the external temperature differentiation space (130) through the external heat exchanger (1021); the device for regulating the amount of exhaust (1061), formed by a gate for fluid, a valve or stopcock for operating and adjusting the exhaust amount of the exhaust fluid from the air conditioning object space (105); the fluid escape route (1060), which is a structure for the passage of fluid, to allow escape fluid escape from the air conditioning object space (105).

Figure 7 is a structural schematic view of an embodiment of the present invention having an outer unit of the air conditioning device, of split type (2002), with an exhaust fan unit for air flow of external heat exchanger (104) and a main unit of the air conditioning device, of split type (2001) mounted with the fluid escape route (1060).

As illustrated in Figure 7, the Main configurations are as follows: a main unit of air conditioning device, of divided type (2001), which essentially consists of a regulating device, an internal heat exchanger (203), a compression device, pipes, a control device (201), a air flow blower for air conditioning and a housing, and coupled to an external heat exchanger pipe (1021) mounted on an outdoor unit of the air conditioning device, of the divided type (2002) in a space for differentiation of air external temperature (130) to form a circulation path by means of a refrigerant fluid line (103); and having a fluid escape route (1060) and a device for regulating the amount of exhaust (1061); the outdoor unit of the air conditioning device, of divided type (2002), having a housing and the external heat exchanger (1021), wherein the external heat exchanger (1021) is provided with the refrigerant fluid line ( 103) to allow the refrigerant to pass from the main unit of the air conditioning device, of split type (2001) to exchange heat with the external air flow (1051) of the external temperature differentiation space (130) of the heat exchanger. external heat (1021) and the exhaust fluid from the air-conditioned space (105), and having an exhaust fan unit for air flow from the external heat exchanger (104), wherein the fan unit for 'external heat exchanger air flow exhaust (104) comprises an exhaust fan or air blower unit or an air pump driven by an electric motor, for pumping the external air flow (1051) of the external temperature differentiation space (130) and to pump the exhaust fluid from the air conditioning object space (105) with a temperature differentiation of the air conditioning object space (120) through the regulating device of the amount of exhaust (1061) and the fluid escape route (1060), and allowing or enabling two air flows to discharge to the external temperature differentiation space (130) through the external heat exchanger (1021); the refrigerant fluid line (103), which is a circulating pipe device for coupling the main unit of the air conditioning device (101) and the external heat exchanger (1021), wherein a gas refrigerant is circulated or liquid; the exhaust quantity regulating device (1061), formed by a fluid gate, a valve or stopcock for operating and adjusting the exhaust fluid exhaust quantity for the air conditioning object space (105); the fluid escape route (1060), which is a structure for fluid passage, to allow escape fluid escape from the air conditioning object space (105).

Figure 8 is a structural schematic view of an embodiment of the present invention having the main unit of the air conditioning device, of split type (2001), commonly constructed with the blower pump (1041) and having an outdoor unit of the air conditioning device, of the divided type (2002) without the fan unit for exhaust air flow of external heat exchanger (104).

As illustrated in Figure 8, the Main configurations are as follows: a main unit of the air conditioning device, of divided type (2001), essentially consists of a regulating device, an internal heat exchanger (203), a compression device, pipes, a control device (201), a blower of air flow for air conditioning and a housing, and coupled to an external heat exchanger pipe (1021) mounted on an outdoor unit of the air conditioning device, of the divided type (2002) in a temperature differentiation space external (130) to form a circulation path through a refrigerant fluid line (103); and having a fluid escape route (1060), an exhaust quantity regulating device (1061) and a blower pump (1041); the outdoor unit of the air conditioning device, of divided type (2002), having a housing and the external heat exchanger (1021), wherein the external heat exchanger (1021) is provided with the refrigerant fluid line ( 103) to allow the refrigerant to pass from the main unit of the air conditioning device, of the split type (2001) for heat exchange with the exhaust fluid of the air-conditioned space (105) by the external heat exchanger (1021); the refrigerant fluid line (103), which is a circulating pipe device for coupling the main unit of the air conditioning device (101) and the external heat exchanger (1021), wherein a gas refrigerant is circulated or liquid; a blower pump (1041), comprising a fan unit for exhaust or air blowing or an air pump driven by an electric motor, for pumping the exhaust fluid from the air-conditioned space (105) with a differentiation of temperature that is pumped from the air conditioning object space (120) through the exhaust quantity regulating device (1061) and the fluid escape route (1060), to discharge to the external temperature differentiation space (130). ) through the external heat exchanger (1021); the exhaust quantity regulating device (1061), formed by a fluid gate, a valve or stopcock for operating and adjusting the escape amount of the exhaust fluid from the airconditioning space (105); the fluid escape route (1060), which is a structure for fluid passage to allow escape fluid escape from the air conditioning object space (105).

Figure 9 is a structural schematic view of an embodiment of the present invention having the separately mounted fluid escape route (1060), the main unit of the air conditioning device, of the split type (2001) and the outdoor unit of the air conditioning device, of the split type (2002) with the exhaust fan unit for air flow of the external heat exchanger (104).

As illustrated in Figure 9, the Main configurations are as follows: a main unit of the air conditioning device, of divided type (2001), essentially consists of a regulating device, an internal heat exchanger (203), a compression device, pipes, a control device (201), a blower for air conditioning air flow and a housing, and coupled to an external heat exchanger pipe (1021) mounted on an outdoor unit of the air conditioning device, of the split type (2002) in a temperature differentiation space external (130) to form a circulation path through a refrigerant fluid line (103); and having a fluid escape route (1060) and an exhaust quantity regulating device (1061); the outdoor unit of the air conditioning device of the divided type (2002), having a housing and the external heat exchanger (1021), wherein the external heat exchanger (1021) is provided with the refrigerant fluid line (103). ) to allow the refrigerant to pass from the main unit of the air conditioning device, of split type (2001) for heat exchange with the external air flow (1051) of the space for external temperature differentiation (130) of the heat exchanger external heat (1021) and the exhaust fluid from the object space for air conditioning (105), and having a fan unit for exhaust air flow from the external heat exchanger (104), wherein the fan unit for air flow exhaust for the external heat exchanger (104) comprises a fan unit for exhaust or air blower or an air pump driven by an electric motor, to pump the air flow and xternal (1051) of the space for external temperature differentiation (130) and for pumping the exhaust fluid from the air-conditioned space (105) with a temperature differentiation of the air-conditioned space (120) through the device to regulate the amount of exhaust (1061) and the fluid escape route (1060), allowing two air flows to escape to the external temperature differentiation space (130) through the external heat exchanger (1021); the refrigerant fluid pipe (103), which is a circulation pipe device for coupling the main unit of the air conditioning device, of the split type (2001) and the external heat exchanger (1021), where it is circulated a gas or liquid refrigerant; the device for regulating the amount of exhaust (1061), formed by a gate for fluid, valve or stopcock to operate and adjust the exhaust amount of the exhaust fluid from the air conditioning object space (105); the fluid escape route (1060), which is a structure for fluid passage, to allow escape fluid escape from the object space for air conditioning (105).

Fig. 10 is a schematic structural view of one embodiment of the present invention having the separately mounted blow pump (1041), the main unit of the air conditioning device, of the split type (2001) and the outdoor unit of the device air conditioning, split type (2002), without the air flow exhaust fan unit of the external heat exchanger (104).

As illustrated in Figure 10, the main configurations are as follows: a main unit of the air conditioning device, of divided type (2001), which essentially consists of a regulating device, an internal heat exchanger (203), a compression device, pipes, a control device (201), a air flow blower for air conditioning and a housing, and coupled to an external heat exchanger pipe (1021) mounted in an external temperature differentiation space (130) to form a circulation path through a refrigerant fluid line (103); and having a fluid escape route (1060), an exhaust quantity regulating device (1061) and a blow pump (1041); the outdoor unit for the air conditioning device, of divided type (2002), has a housing and the external heat exchanger (1021), wherein the external heat exchanger (1021) is provided with the refrigerant fluid line ( 103) to allow the refrigerant to pass from the main unit of the air conditioning device, of split type (2001) for heat exchange with the exhaust fluid of the air-conditioned space (105) by the external heat exchanger (1021); the refrigerant fluid pipe (103), which is a circulating pipe device for coupling the main unit of the air conditioning device, of divided type (2001) and the external heat exchanger (1021), where it is circulated a gas or liquid refrigerant; a blow pump (1041), comprising an exhaust fan or air blower unit or an air pump driven by an electric motor, for pumping the exhaust fluid from the air-conditioned space (105) with a differentiation of temperature that is pumped from the air conditioning object space (120) through the exhaust quantity regulating device (1061) and the fluid escape route (1060), to escape to the external temperature differentiation space ( 130) through the external heat exchanger (1021); the device for regulating the amount of exhaust (1061), formed by a gate for fluid, a valve or stopcock for operating and adjusting the exhaust amount of the exhaust fluid from the air-conditioned space (105); the fluid escape route (1060), which is a structure for fluid passage, to allow escape fluid escape from the air conditioning object space (105); Figure 11 is a structural schematic view of an embodiment of the present invention having the main unit of the air conditioning device, split type (2001), the outdoor unit of the air conditioning device, split type (2002), with the fan unit for discharge of air flow from the external heat exchanger (104) and the blower pump mounted separately (1041).

As illustrated in Figure 11, the Main configurations are as follows: a main unit of air conditioning device, of divided type (2001), which essentially consists of a regulating device, an internal heat exchanger (203), a compression device, pipes, a control device (201), a air flow blower for air conditioning j a housing, and coupled to an external heat exchanger pipe (1021) mounted in an external temperature differentiation space (130) to form a circulation path through a refrigerant fluid pipeline (103); and having a fluid discharge path (1060), the exhaust quantity regulating device (1061), and the blower pump (1041); the outdoor unit of the air conditioning device, of divided type (2002), has a housing and the external heat exchanger (1021), wherein the external heat exchanger (1021) is provided with the refrigerant fluid line (103). ), to allow the refrigerant to pass from the air conditioning unit main unit, of split type (2001) for heat exchange with the external air flow (1051) of the external temperature differentiation space (130) of the heat exchanger. external heat (1021) and the exhaust fluid from the air-conditioned space (105), and having a fan unit for exhaust air flow from the external heat exchanger (104), wherein the fan unit for air flow exhaust from the external heat exchanger (104) comprises an exhaust fan or air blower unit or an air pump driven by an electric motor, for pumping the external air flow (1051) of the external temperature differentiation space (130) and for pumping the exhaust fluid from the air-conditioned space (105) with a temperature differentiation of the air-conditioned space (120) through the exhaust quantity regulating device (1061) and the fluid escape route (1060), allowing two exhaust air flows to the external temperature differentiation space (130) through the heat exchanger external (1021); the refrigerant fluid pipe (103), which is a circulating pipe device for coupling the main unit of the air conditioning device, of divided type (2001) and the external heat exchanger (1021), where it is circulated a gas or liquid refrigerant; the escaping quantity regulating device (1061), formed by a fluid gate, valve or stopcock for operating and adjusting the exhaust fluid escape amount from the air conditioning object space (105); the fluid escape route (1060), which is a structure for fluid passage to allow escape fluid escape from the air conditioning object space (105).

Figure 12 is a schematic structural view of an embodiment of the present invention having a main unit of the air-cooled water conditioning device (2005), a cooling tower providing an energized fan (2003), and the blower pump mounted separately (1041).

As illustrated in Figure 12, the main configurations are as follows: a main unit of the water-cooled air conditioning device (2005), which is a main unit of the air conditioning device which essentially consists of a regulating device, an internal heat exchanger (203), a compression device, pipes , a control device (201), a water-cooled cooling device, an air-conditioning air-blower and a housing, and a water pipe (107) of the water-cooled condensing device placed in the main unit of the water-cooled unit. water cooled air conditioning device (2005) which is coupled to a water inlet and outlet pipe (109) of a water discharge pipe and water inlet of the cooling tower that provides the energized fan (2003) placed in the external temperature differentiation space (130) to form a water circulation path; and having the fluid escape route (1060), the exhaust quantity regulating device (1061) and the blower pump (1041), and by means of the blower pump (1041) for pumping the exhaust fluid from the space of the air conditioning (105) through the fluid escape route (1060) and the exhaust quantity regulating device (1061) to an air inlet of the cooling tower that provides the energized fan (2003); the cooling tower that provides the energized fan (2003), comprises a cooling tower equipped with a fan unit of the cooling tower (108), for example, a counter-flow mechanical draft cooling tower, a cooling tower of induced draft against backflow, a counterflow cooling tower, a counterflow mechanical cooling tower, or an evaporative cooling tower, and the cooling tower that provides the energized fan (2003) that has an air inlet , in such a way that the exhaust fluid of the air conditioning object space (105), pumped from the air conditioning object space (120) through the blower pump (1041), is directed through the air flow path. Exhaust fluid (1060) inside the air inlet of the cooling tower that provides the fan energized (2003), and that passes through the cooling tower that provides the energized fan (2003) for cooling the water flow and then discharging to the environment through the cooling tower fan unit (108), and having an inlet and outlet pipe (109) for connecting the pipeline of water (107) to allow the cooling water to circulate between the cooling tower provided by the energized fan (2003) and the main unit of the water-cooled air conditioning device (2005); the water pipe (107), placed between a water-cooled condensing device of the main unit of the water-cooled air conditioning device (2005) and the water inlet and outlet pipe (109) of the cooling tower which provides the fan energized (2003); The cooling tower fan unit (108) comprises an exhaust fan and air blower unit or an air pump which is moved by an electric motor, and which has one or more following operating functions, including: 1) pumping the external air flow (1051) of the external temperature differentiation space (130), to the external temperature differentiation space (130) through the interior of the cooling tower that provides the energized fan (2003); 2) pumping the exhaust fluid from the air conditioning space (105) with a temperature differentiation of the air conditioning object (120) through the exhaust quantity regulating device (1061), the blower pump ( 1041) and the fluid escape route (1060) to the external temperature differentiation space (130) through the cooling tower provided by the energized fan (2003); 3) allowing the external air flow (1051) and the exhaust fluid from the air conditioning object space (105) to discharge in common form to the external temperature differentiation space (130) through the cooling tower that provides the fan energized (2003); a water pump (111), for pumping cooling water between the main unit of the water-cooled air conditioning device (2005) and the cooling tower that provides the fan energized (2003) through the water pipe ( 107) and the water inlet and outlet pipe (109) for cooling circulation; the exhaust quantity regulating device (1061), formed by a fluid gate, a valve or stopcock for operating and adjusting the exhaust fluid exhaust quantity of the air conditioning object space (105); the fluid escape route (1060), which is a fluid passage structure to allow escape fluid escape from the air conditioning object space (105).

Figure 13 is a structural schematic view of an embodiment of the present invention having a main unit of the water cooled air conditioning device (2005) and a cooling tower providing the energized fan (2003).

As illustrated in Figure 13, the Main configurations are as follows: a main unit of air-cooled water conditioning device (2005), which is a main unit of air conditioning device which essentially consists of a regulating device, an internal heat exchanger (203), a compression device, pipes , a control device (201), a cooling device cooled by water air conditioning air flow blower and a housing, and a water pipe (107) of the water cooled condensing device placed in the main unit of the water-cooled air conditioning device (2005) which is coupled to a water inlet and outlet pipe (109) of a water outlet pipe and water inlet of the cooling tower providing energized fan (2003) placed in the external temperature differentiation space (130) to form a water circulation path; and having a fluid escape route (1060) and an exhaust quantity regulating device (1061) to supply the exhaust fluid from the air-conditioned space (105) to an air inlet of the cooling tower which provides the fan energized (2003); the cooling tower that provides the fan energized (2003), comprising a cooling tower equipped with the fan unit of the cooling tower (108), for example, a counterflow mechanical draft cooling tower, a counterflow induced mechanical draft cooling tower, a cooling tower a backflow, a cross-flow mechanical draft cooling tower, or an evaporative cooling tower, and the cooling tower that provides the energized fan (2003) has an air inlet, such that the exhaust fluid from the object space of air conditioning (105) pumped from the air conditioning object space (120) is directed through the fluid escape route (1060) to the air inlet of the cooling tower that provides the energized fan (2003) ), and is passed through the cooling tower that provides the energized fan (2003) to cool the water flow, and then discharge to the environment through the unit to see cooling tower tiler (108), and having a water inlet and outlet pipe (109) for connecting the water pipe (107) to allow cooling water to circulate between the cooling tower provided by the fan energized (2003) and the main unit of the water-cooled air conditioning device (2005); the water pipe (107), placed between the water-cooled condensing device of the main unit of the water-cooled air conditioning device (2005) and the water inlet and outlet pipe (109) of the cooling tower which provides the fan energized (2003); the cooling tower fan unit (108) comprises a blower and exhaust or air discharge fan unit or an air pump driven by an electric motor, and having one or more of the following operating functions, which they include: 1) pumping the external air flow (1051) of the external differentiation space (130) to the external temperature differentiation space (130) through the interior of the cooling tower that provides the energized fan (2003); 2) pumping the exhaust fluid from the air conditioning object space (105) with a temperature differentiation from the air conditioning object space (120) through the exhaust quantity regulating device (1061) and the exhaust air flow path fluid escape (1060) to the external temperature differentiation space (130) through the cooling tower that provides the energized fan (2003); 3) allowing the external air flow (1051) and the exhaust fluid from the air-conditioned space (105) to escape or discharge commonly to the external temperature differentiation space (130) through the cooling tower that provides the fan energized (2003); a water pump (111), for pumping cooling water between the main unit of the water-cooled air conditioning device (2005) and the cooling tower that provides the fan energized (2003) through the water pipe ( 107) and the water inlet and outlet pipe (109) for cooling circulation; the exhaust quantity regulating device (1061), formed by a fluid gate, a valve or stopcock for operating and adjusting the exhaust fluid exhaust quantity of the air conditioning object space (105); the fluid escape route (1060), which is a structure for fluid passage, to allow escape fluid escape from the air conditioning object space (105).

Figure 14 is a structural schematic view of one embodiment of the present invention having a main unit of the water-cooled air conditioning device (2005), a natural draft cooling tower (2003) and the blower pump mounted separately (1041).

As illustrated in Figure 14, the Main configurations are as follows: a main unit of the water-cooled air conditioning device (2005), which is a main unit of the air conditioning device which essentially consists of a regulating device, an internal heat exchanger (203), a compression device, pipes , a control device (201), a cooling device cooled by water air flow blower for air conditioning and a housing, and a water pipe (107) of the water cooled condensing device placed in the main unit of the water-cooled air conditioning device (2005) which is coupled to a water inlet and outlet pipe (109) of a water outlet pipe and water inlet of a natural draft cooling tower (2004) placed in the external temperature differentiation space (130) to form a water circulation path; and having the fluid escape route (1060), the exhaust quantity regulating device (1061) and the blower pump (1041), and by means of the blower pump (1041) for pumping the exhaust fluid from the space of the conditioning of air (105) to an air inlet of the natural draft cooling tower (2004) through the fluid escape route (1060) and the exhaust quantity regulating device (1061); a natural draft cooling tower (2004); which comprises a natural draft cooling tower, for example a cross flow natural draft cooling tower, and the natural draft cooling tower (2004) has an inlet, and has one or more of the following operating functions, which include: 1) directing the external air flow (1051) from the external temperature differentiation space (130) to the air intake of the natural draft cooling tower (2004), and passing through the tower of natural draft cooling (2004) to cool the water flow, and then discharge it to the environment through the cooling tower; 2) directing the exhaust fluid from the air-conditioned space (105) pumped from the air-conditioned space (120) by the blower pump (1041) through the fluid escape route (1060) in the air inlet of the natural draft cooling tower (2004), and which passes through the natural draft cooling tower (2004) to cool the water flow, and then discharge it to the environment through the tower Cooling; 3) directing the exhaust fluid from the air-conditioned space (105) and the external air flow (1051) to the air inlet of the natural draft cooling tower (2004), and passing through the tower natural draft cooling (2004) to cool the flow of water, and then discharge it to the environment through the cooling tower; and having a water inlet and outlet pipe (109) for coupling the water pipe (107), to allow the cooling water to circulate between the natural draft cooling tower (2004) and the main unit of the cooling device. air conditioning cooled by water (2005); the water tube (107), placed between a water-cooled condensing device of the main unit of the water-cooled air conditioning device (2005) and the water inlet and outlet pipe (109) of the cooling tower of natural draft (2004); a water pump (111), for pumping cooling water between the main unit of the water-cooled air conditioning device (2005) and the cooling tower that provides the energized fan (2003) through the water pipe (107) ) and the water inlet and outlet pipe (109) for cooling circulation; the exhaust quantity regulating device (1061), formed by a gate for fluid, a valve or stopcock for opening, operating and adjusting the exhaust quantity of the exhaust fluid from the air conditioning object space (105); the fluid escape route (1060), which is a structure for fluid passage, to allow escape fluid escape from the air conditioning object space (105).

The air conditioning device that uses exhaust gas temperature differentiation to uniformize the temperature of the external heat exchanger further applies to a split-type air conditioning device, which primarily includes an outdoor unit of the air conditioning device. air, split type (2002), having an exterior main station of the air conditioning device, of divided type (2007) and an external heat exchanger (1021) and an exhaust fan unit of air flow (104) ), and an indoor unit of air conditioning device, of divided type (2006), having an internal heat exchanger (203), a flow regulating device (202), a blower fan of air conditioning flow (204). ) and a control device (201), and a refrigerant circulation and compression loop constructed by a refrigerant fluid line (103) that is installed therebetween. s, and a fluid escape route (1060) that is installed from the air conditioning object space (120) to the external heat exchanger (1021) to facilitate applications in various separate spaces, illustrated as follows: Figure 15 is a structural schematic view of an embodiment of the present invention having an external unit of the air conditioning device, of split type (2002) composed of an external heat exchanger (1021) and a fan unit for exhaust of air flow (104) and an external main station of the split type air conditioning device (2007), having an internal unit of the split type air conditioning device (2006) composed of an internal heat exchanger (203) , a flow regulating device (202), a control device (201), a blower for air conditioning flow (204) and an exhaust quantity regulating device (1061), having a circulation and compression loop of refrigerant built by a refrigerant line (103) installed between the two previous ones, and install a fluid discharge path (1060) and introduce external air flow (1051) in the space provided for air conditioning (120) between the exhaust quantity regulating device (1061), and the external heat exchanger (1021); As shown in FIGURE 15, the main configuration is to install an outdoor air conditioning unit, split type (2002) composed of an external heat exchanger (1021) and a fan unit for exhaust air flow (104) and an outer main station of the air conditioning device, divided type (2007), and install an indoor unit of air conditioning device, divided type (2006) composed of an internal heat exchanger (203) , a flow regulating device (202), a control device (201), a fan of air conditioning flow (204) and a device regulating the amount of exhaust (1061), and forming a circulation and compression loop of refrigerant constructed by a refrigerant fluid pipe (103) installed between the two previous ones, and install a fluid escape route (1060) and introduce external air flow (1051) in the space of the ac air conditioning (120) between the exhaust quantity regulating device (1061) and the external heat exchanger (1021); and where the outdoor unit of air conditioning device, split type (2002), installed with the main outside station of the air conditioning device, divided type (2007), the external heat exchanger (1021), the fluid pipeline coolant (103) and the exhaust air blower unit (104), wherein the main exterior station of the air conditioning device, split type (2007) primarily includes a compression device and forms a compression loop and circulation directed through the refrigerant fluid line (103) to the external heat exchanger (1021) and to the internal heat exchanger (203) and the flow regulating device (202) in the indoor unit of the conditioning device of air, of divided type (2006) installed in the space object of air conditioning (120); the indoor unit of the air conditioning device, of divided type (2006) is installed with the internal heat exchanger (203), the flow regulating device (202), the air conditioning flow blower fan (204) and It is provided with a control device. (201) for controlling operations of the electric power supply and directing the air conditioning device; the indoor unit of the air conditioning device, of divided type (2006), furthermore is installed with the regulating device of the exhaust quantity (1061) and the fluid escape route (1060); The external heat exchanger (1021) of the outdoor unit of the air conditioning device, of the split type (2002) is installed with the refrigerant fluid line (103) allowing the refrigerant to flow through to exchange heat with the air flow external (1051) of the external temperature differentiation space (130) in the external heat exchanger (1021) and the exhaust fluid of the air conditioning object space (105); the exhaust fan unit for air flow of the external heat exchanger (104) installed in the outdoor unit of the air conditioning device, of the split type (2002), an exhaust fan unit of air flow or blower of air flow or a pump displaced by an electric motor, wherein the range that introduces the air flow is defined between the fluid exchange path (1060) and the external heat exchanger (1021) for pumping the external air flow ( 1051) of the external temperature differentiation space (130) and for pumping the exhaust fluid from the air conditioned space (105) with a temperature differentiation and pumped from the air-conditioned space (120) through the regulating device of the quantity of exhaust (1061) and the escape route of fluid (106), in this way allowing two air flows to exchange heat then they are discharged to the space of temperature differentiation external temperature (130) through the external heat exchanger (1021); pipe for refrigerant fluid (103), constituted by a pipe device for connecting the main external station of the air conditioning device, of the divided type (2007) and the external heat exchanger (1021) and the flow regulating device (202) ) and the internal heat exchanger (203) of the internal unit of the air conditioning device, of the divided type (2006) for circulation purposes, wherein the internal part of the pipe allows the refrigerant to pass through the gas-state refrigerant or liquid state; device for regulating the amount of exhaust (1061), constituted by a gate for fluid, a valve or stopcock for operating and regulating the amount of escape of the exhaust fluid from the space conditioned by air (105); fluid escape route (1060), constituted by a fluid passage structure for discharging the escape amount of the exhaust fluid from the air conditioning object space (105) from the air conditioning object space (120); the refrigerant fluid line (103) and the fluid escape route (1060) may be installed individually or jointly constituted as a pipe structure.

Figure 16 is a schematic structural view of an embodiment of the present invention having an outdoor unit of the air conditioning device, of the split type (2002) composed of an external heat exchanger (1021) and an external main station of the device air conditioning type split (2007), which has an internal unit of the air conditioning device divided type (2006) composed of an internal heat exchanger (203), a flow regulator device (202), a control device (201), a blower fan of air conditioning flow (204) a blower pump (1041) and an exhaust quantity regulator device (1061), which has a circulation and compression loop of coolant built by a pipeline for fluid refrigerant (103) installed between the previous two, and install a fluid discharge path (1060) in the space provided for air conditioning (120) between the exhaust quantity regulating device (1061), the blow pump (1041) and the external heat exchanger (1021).

As illustrated in FIGURE 16, the main configuration consists of installing an outdoor unit of air conditioning device, of divided type (2002) composed of an external heat exchanger (1021) and an external main station of the air conditioning device. air, split type (2007), and install an indoor unit air conditioning device, divided type (2006) composed of an internal heat exchanger (203), a flow regulating device (202), a device control (201), a blower fan of air conditioning flow (204), a blower pump (1041) and an exhaust quantity regulating device (1061), and forming a refrigerant compression and circulation loop constructed by a refrigerant fluid line (103) installed between the two previous ones, and installing a route fluid exhaust (1060) in the air-conditioned space (120) between the exhaust quantity regulating device (1061), the blower pump (1041) and the external heat exchanger (1021); and where the outdoor unit of air conditioning device, split type (2002), installed with the main outside station of the air conditioning device, split type (2007), the external heat exchanger (1021) and the fluid pipeline coolant (103), wherein the outer main station of the air-conditioning device, of the divided type (2007) primarily includes a compression device and forms a compression and circulation loop directed through the refrigerant fluid line (103). ) towards the external heat exchanger (1021) and towards the internal heat exchanger (203), and the flow regulating device (202) in the internal unit of the air conditioning device, of the divided type (2006) installed in the space for air conditioning (120); the internal or internal unit of the air conditioning device, split type (2006) is installed with the internal heat exchanger (203), the flow regulating device (202), the air conditioning flow blower fan (204) and that is provided with a control device (201) for controlling operations of feeding electrical power and directing the air conditioning device; the internal unit of the air conditioning device, of divided type (2006) is furthermore installed with the regulating device of the exhaust quantity (1061), the blowing pump (1041) and the fluid escape route (1060); the external heat exchanger (1021) of the external unit of the air conditioning device, of the split type (2002) is installed with the refrigerant fluid line (103) allowing the refrigerant to flow through to exchange heat with the exhaust fluid of the space subject to air conditioning (105); refrigerant fluid pipe (103), consisting of a pipe device for connecting the main external station of the air conditioning device, of the divided type (2007) and the external heat exchanger (1021) and the flow regulating device (202) ) and the internal heat exchanger (203) of the internal unit of the air conditioning device, of the divided type (2006) for the purpose of circulation, wherein the internal parts of the pipe allow the refrigerant to pass through the state refrigerant. gas or liquid state; the exhaust quantity regulating device (1061), constituted by a fluid gate, stopcock or valve for operating and regulating the exhaust fluid exhaust quantity of the air conditioning object space (105); the fluid escape route (1060), constituted by a fluid passage structure for exhausting the exhaust fluid escape amount from the air conditioning object space (105) from the air conditioning object space (120); the refrigerant fluid line (103) and the fluid escape route (1060) may be installed singly or constituted together as a pipe structure.

Figure 17 is a schematic structural view of an embodiment of the present invention having an outdoor unit of the air conditioning device, of the split type (2002), composed of an external heat exchanger (1021) and a fan unit for air flow exhaust (104) and an external main station of the split type air conditioning device (2007), which has an internal unit of the split type air conditioning device (2006) composed of an internal heat exchanger (203), a flow regulating device (202), a control device (201), and a blower fan of air conditioning flow (204) having a circulation loop and compression of refrigerant constructed by a refrigerant pipe (103) installed between the two above, and separately assemble an exhaust quantity regulator device (1061) in the thermal insulation device (110), and install a discharge path of fluid (1060) and introducing external air flow (1051) in the air conditioned space (120) between the exhaust quantity regulating device (1061), and the external heat exchanger (1021).

As shown in FIGURE 17, the main configuration consists of installing an outdoor unit of the air conditioning device, split type (2002) composed of an external heat exchanger (1021) and a flow exhaust fan unit of air (104) and an external main station of the air conditioning device, of the divided type (2007), to install an indoor unit of air conditioning device, of divided type (2006) composed of an internal heat exchanger (203), a flow regulating device (202), a control device (201) and a air conditioning flow blower fan (204), forming a circulation and refrigerant compression loop constructed by a refrigerant fluid line (103) installed between the two previous ones, and separately assembling an exhaust quantity regulator device (1061) in the thermal insulation device (110), and installing a fluid escape route (1060) and introducing external air flow (1051) into the air conditioning object space (120) between the exhaust quantity regulating device (1061) and the external heat exchanger (1021); where the outdoor unit of the air conditioning device, divided type (2002), installed with the main outside station of the air conditioning device, split type (2007), the external heat exchanger (1021), the fluid pipeline coolant (103) and the airflow exhaust fan unit (104), wherein the main exterior station of the air conditioning device, of the split type (2007), primarily includes a compression device and forms a loop compression and circulation directed through the refrigerant fluid line (103) to the external heat exchanger (1021) and to the internal heat exchanger (203) and the flow regulating device (202) in the internal unit of the cooling device air conditioning, divided type (2006) installed in the space under air conditioning (120); the indoor unit of the air conditioning device, of divided type (2006) is installed with the internal heat exchanger (203), the flow regulating device (202), the blower fan of air conditioning flow (204) and that it is provided with a control device (201) for controlling the operations of feeding electrical power and directing the air conditioning device; the thermal insulation device (110) is mounted separately with the exhaust quantity regulating device (1061) and the fluid escape route (1060); The external heat exchanger (1021) of the outdoor unit of the air conditioning device, of the split type (2002) is installed with the refrigerant fluid line (103) allowing the refrigerant to flow through to exchange heat with the air flow external (1051) of the external temperature differentiation space (130) in the external heat exchanger (1021) and the exhaust fluid of the air conditioning object space (105); the air flow exhaust fan unit of the external heat exchanger (104) installed in the outdoor unit of the air conditioning device, of the split type (2002), is constituted by an exhaust fan unit of air flow or air flow blower or a pump driven by an electric motor, wherein a range introduced by air flow is defined between the fluid exhaust path (1060) and the external heat exchanger (1021) for pumping in the flow of external air (1051) of the external temperature differentiation space (130) and for pumping the exhaust fluid from the air-conditioned space (105) with a temperature differentiation and pumped from the air-conditioned space (120) through a device regulating the amount of exhaust (1061) and the escape route of fluid (106), in this way allowing two air flows that exchange heat that are thus discharged into space of external temperature differentiation (130) through the external heat exchanger (1021); refrigerant fluid pipe (103), consisting of a pipe device for connecting the main external station of the air conditioning device, of the divided type (2007) and the external heat exchanger (1021) and the flow regulating device (202) ) and the internal heat exchanger (203) of the internal unit of the air-conditioning device, of the divided type (2006) for the purpose of circulation, wherein the internal part of the pipe allows the refrigerant to pass through in the state- gas or liquid state; regulating device of the amount of exhaust (1061), constituted by a gate for fluid, stopcock or valve to operate and regulate the amount of escape of the exhaust fluid of the space object of air conditioning (105); the fluid escape route (1060), constituted by a fluid passage structure for exhausting the escape amount of the exhaust fluid from the air conditioning object space (105) of the air conditioning object space (120); the refrigerant fluid line (103) and the fluid escape route (1060) can be installed individually or jointly constituted as a pipe structure.

Figure 18 is a structural schematic view of an embodiment of the present invention having an outdoor unit of the air conditioning device, of the divided type (2002) composed of an external heat exchanger (1021) and an external main station of the device air conditioning type split (2007), which has an internal unit of the air conditioning device divided type (2006) composed of an internal heat exchanger (203), a flow regulator device (202), a control device (201), a blower fan of air conditioning flow (204) having a circulating and compressing refrigerant loop constructed by a refrigerant fluid line (103) installed between the two previous ones, and mounting a blower pump separately ( 1041) and an exhaust quantity regulating device (1061) in the thermal insulation device (110), and installing a fluid discharge path (1060) in the air conditioning object (120) between the exhaust quantity regulating device (1061), the blower pump (1041) and the external heat exchanger (1021).

As shown in FIGURE 18, the main configuration consists of installing an outdoor unit of the air conditioning device, of the divided type (2002), composed of an external heat exchanger (1021) and an external main station of the conditioning device. of air, of divided type (2007), and install an internal unit of the air conditioning device, of divided type (2006), composed of an internal heat exchanger (203), a flow regulating device (202), a control device (201), an air conditioning flow blower fan (204), and form a refrigerant circulation and compression loop constructed by a refrigerant fluid line (103) installed between the two above, and separately assemble a blower pump (1041) and an exhaust quantity regulating device (1061) in the thermal insulation device (110), and installing a fluid escape route (1060) in the space provided for air conditioning (120) between the exhaust quantity regulating device (1061), the blower pump (1041) and the external heat exchanger (1021); where the external unit of the air conditioning device, divided type (2002), installed with the external main station of the air conditioning device, split type (2007), the external heat exchanger (1021) and the fluid pipeline refrigerant (103), wherein the main external station of the air conditioning device, of the split type (2007) primarily includes a compression device and forms a compression and circulation loop directed through the refrigerant fluid line (103) towards the external heat exchanger (1021) and towards the internal heat exchanger (203) and the flow regulating device (202) in the internal unit of the air conditioning device, of the divided type (2006) installed in the object space of air conditioning (120); the internal unit of the air conditioning device, of divided type (2006) is installed with the external heat exchanger (203), the flow regulating device (202), the air conditioning flow blower fan (204) and it is provided with a control device (201) for regulating the operations of feeding electrical power and controlling the air conditioning device; The thermal insulation device (110) is mounted separately with the exhaust quantity regulating device (1061), the blower pump (1041) and the fluid escape route (1060); the external heat exchanger (1021) of the external unit of the air conditioning device, of the split type (2002) is installed with the refrigerant fluid line (103) allowing the refrigerant to flow through to exchange heat with the exhaust fluid of the space subject to air conditioning (105); refrigerant fluid pipe (103), consisting of a piping device for connecting the external main station of the air conditioning device, of the divided type (2007) and the external heat exchanger (1021) and the flow regulating device (202) ) and the internal heat exchanger (203) of the internal unit of the air conditioning device, of the divided type (2006) for the purpose of circulation, wherein the internal part of the pipe allows the through flow of the refrigerant in the state- gas and liquid state; blower pump (1041), constituted by an air exhaust fan or air blower unit or an air pump driven by an electric motor, for pumping the exhaust fluid from the air conditioning space (105) with a differentiation of air relative temperature of the air-conditioned space (120) through the exhaust quantity regulating device (1061) and the fluid escape route (1060) and exchanging heat while circulating through the external heat exchanger (1021) then discharged to the external temperature differentiation space (130); an exhaust quantity regulating device (1061), constituted by a gate for fluid, stopcock or valve to open and regulate the amount of escape of the exhaust fluid from the space conditioned by air (105); fluid escape route (1060), constituted by a fluid passage structure for discharge of the exhaust fluid escape amount from the air conditioning object space (105) of the air conditioning object space (120); the refrigerant fluid line (103) and the fluid escape route (1060) may be installed singly or constituted together as a pipe structure.

Figure 19 is a structural schematic view of an embodiment of the present invention having an outdoor unit of air conditioning device, of split type (2002) composed of an external heat exchanger (1021) and an exhaust fan unit of air flow (104) and an external main station of the split type air conditioning device (2007), having an internal unit of the split type air conditioning device (2006) composed of an internal heat exchanger (203) , a flow regulating device (202), a control device (201), and an air conditioning flow blower (204) having a refrigerant circulation and compression loop constructed by a refrigerant line (103). ) installed between the two previous ones, and separately assemble a blower pump (1041) and an exhaust quantity regulator device (1061) in the thermal insulation device (1 10), and install a fluid discharge path (1060) and introduce external air flow (1051) in the air conditioning space (120) between the exhaust quantity regulator (1061), the blower pump (1041) and the external heat exchanger (1021).

As shown in Figure 19, the main configuration consists in installing an outdoor unit of air conditioning device, of divided type (2002) composed of an external heat exchanger (1021) and a flow exhaust fan unit. air (104) and an exterior main station of the air conditioning device, of the split type (2007), installing an indoor unit of air conditioning device, of the divided type (2006) composed of an internal heat exchanger (203) , a flow regulating device (202), a control device (201) and an air conditioning flow blower fan (204), which forms a refrigerant circulation and compression loop constructed by an internal refrigerant fluid pipe unit (103) installed between the two previous ones, and separately assemble a blower pump (1041) and an exhaust quantity regulating device (1061) in the thermal insulation device (11). 0), and install a fluid escape route (1060) and introduce external air flow (1051) in the air conditioning space (120) between the exhaust quantity regulating device (1061), the blower pump (1041) and the external heat exchanger (1021); where the outdoor unit of the air conditioning device, divided type (2002), installed with the main outside station of the air conditioning device, split type (2007), the external heat exchanger (1021), the fluid pipeline coolant (103) and the air flow exhaust fan unit (104), wherein the main exterior station of the air conditioning device, of the split type (2007) mainly includes a compression device and forms a compression loop and circulation directed through the refrigerant fluid line (103) to the external heat exchanger (1021) and to the internal heat exchanger (203) and the flow regulating device (202) in the internal unit of the conditioning device of air, of divided type (2006) installed in the space object of air conditioning (120); the internal unit of the air conditioning device, of divided type (2006) is installed with the internal heat exchanger (203), the flow regulating device (202), the blower fan for air conditioning flow (204) and provided with a control device (201) for controlling operations of feeding electrical power and directing or controlling the air conditioning device; the thermal insulation device (110) is mounted separately with the exhaust quantity regulating device (1061), the blower pump (1041) and the fluid escape route (1060); the external heat exchanger (1021) of the outdoor air conditioning unit, split type (2002) is installed with the refrigerant fluid line (103) allowing the refrigerant to flow through to exchange heat with the air flow external (1051) of the external temperature differentiation space (130) in the external heat exchanger (1021) and the exhaust fluid of the air conditioning object space (105); the exhaust fan unit for air flow of the external heat exchanger (104) installed in the external unit of the air conditioning device, of the split type (2002) is constituted by an exhaust fan unit of air flow or air flow blower or a pump displaced by an electric motor, wherein a range for introducing air flow, is defined between the fluid escape route (1060) and the external heat exchanger (1021) for pumping in the flow of external air (1051) of the external temperature differentiation space (130) and for pumping the exhaust fluid from the air-conditioned space (105) with a temperature differentiation and pumped from the air-conditioned space (120) through the exhaust quantity regulating device (1061) and the fluid escape route (106), in this way allowing two air flows to exchange heat being discharged to the differentiation space d e external temperature (130) through the external heat exchanger (1021); the refrigerant fluid pipe (103), constituted by a pipe device for connecting the external main station of the air conditioning device, of split type (2007) that is installed individually (1021) and the flow regulating device (1021). 202), and the internal heat exchanger (203) of the internal unit of the air conditioning device, of the divided type (2006) for the purpose of circulation, wherein the internal part of the pipe allows the refrigerant to flow through state-gas or state-liquid; the exhaust quantity regulating device (1061), constituted by a fluid gate, a stopcock or valve for operating and regulating the amount of exhaust fluid escape from the air conditioning space (105); the fluid escape route (1060), constituted by a fluid passage structure for discharging the exhaust amount of the exhaust fluid from the air conditioning object (105) of the air conditioning object space (120); the refrigerant fluid line (103) and the fluid escape route (1060) may be installed individually or jointly constituted as a pipe structure.

Figure 20 is a structural schematic view of an embodiment of the present invention having an outdoor unit of the air conditioning device, of the divided type (2002), composed of an external heat exchanger (1021) and a fan unit for air flow exhaust (104) having an external main station of the split type air conditioning device (2007), which is installed individually, having an internal unit of the split type air conditioning device (2006) composed of a internal heat exchanger (203), a flow regulating device (202), a control device (201), and a blower fan of air conditioning flow (204) and an exhaust quantity regulating device (1061) that it has a refrigerant circulation and compression loop constructed by a refrigerant line (103) installed between the three previous ones, and install a fluid discharge path (1060 ) and introducing external air flow (1051) into the air-conditioned space (120) between the exhaust quantity regulating device (1061) and the external heat exchanger (1021).

As shown in FIGURE 20, the main configuration is to install an outdoor unit of the air conditioning device, of the split type (2002) composed of an external heat exchanger (1021), and a flow exhaust ventilation unit. air (104) install an external main air conditioning unit, split type (2007) that is installed individually, and install an internal unit of the air conditioning device, divided type (2006) composed of a heat exchanger internal heat (203), a flow regulating device (202), a control device (201), a blower fan of air conditioning flow (204), and an exhaust quantity regulating device (1061), and forming a Compression loop and refrigerant circulation constructed by a refrigerant fluid line (103) installed between the three previous ones, and install a fluid escape route (1060) and introduce external air flow (1051) in the space provided for air conditioning (120) between the exhaust quantity regulating device (1061) and the external heat exchanger (1021); where the outdoor unit of the air conditioning device, split type (2002), installed with the external heat exchanger (1021), the refrigerant fluid line (103), the air flow exhaust fan unit (104) and the external main station of the air conditioning device, of the split type installed individually (2007), wherein the external main station of the air conditioning device, of split type (2007) primarily includes a compression device and forms a compression and circulation loop directed through the refrigerant fluid line (103) to the air exchanger. external heat (1021) and towards the internal heat exchanger (203) and the flow regulating device (202) in the internal unit of the air conditioning device, of the divided type (2006) installed in the space under air conditioning (120); the internal unit of the air conditioning device, of divided type (2006) is installed with the internal heat exchanger (203), the flow regulating device (202), the air conditioning flow blower fan (204) and it is provided with a control device (201) for controlling operations of feeding electrical power and directing the air conditioning device; the internal unit of the air conditioning device, of divided type (2006) is furthermore installed with the regulating device of the exhaust quantity (1061) and the fluid escape route (1060); The external heat exchanger (1021) of the external unit of the air conditioning device, of the split type (2002), is installed with the refrigerant fluid line (103) allowing the refrigerant to flow through to exchange heat with the flow of air. external air (1051) of the external temperature differentiation space (130) in the external heat exchanger (1021) and the exhaust fluid of the air conditioning object space (105); The exhaust fan unit for air flow of the external heat exchanger (104), installed in the external unit of the air conditioning device, of the split type (2002), is constituted by the exhaust fan unit of the exhaust air flow unit. air or air flow blower or a pump displaced by an electric motor, wherein the range introducing an air flow is defined between the fluid escape route (1060) and the external heat exchanger (1021) for pumping in the external air flow (1051) of the external temperature differentiation space (130) and to pump the exhaust fluid from the air conditioned space (105) with a temperature differentiation and pumped from the air conditioned object space (120), through the exhaust quantity regulating device (1061) and the fluid escape route (106), thereby allowing two air exchanges that exchange heat to be discharged into the exhaust space. external temperature determination (130) through the external heat exchanger (1021); refrigerant fluid pipe (103), constituted by a pipe device for connecting the external main station of the air conditioning device, of divided type (2007) that is installed individually and the external heat exchanger (1021) and the flow regulating device (202) and the internal heat exchanger (203) of the internal unit of the air conditioning device, of the divided type (2006) for the purpose of circulation, wherein the internal part of the pipe allows it to flow passing the state-gas or state-liquid refrigerant; exhaust quantity regulating device (1061), consisting of a gate for fluid, stopcock or valve to operate and regulate the amount of exhaust fluid escape from the air conditioning space (105); the fluid escape route (1060), constituted by a fluid passage structure, for exhausting the discharge amount of the exhaust fluid from the air conditioning object space (105) of the air conditioning object space (120); the refrigerant fluid line (103) and the fluid escape route (1060) can be installed individually or jointly constituted as a pipe structure.

Figure 21 is a structural schematic view of an embodiment of the present invention having an outdoor unit of the air conditioning device, of the split type (2002), composed of an external heat exchanger (1021) having an external main station of the split-type air conditioning device (2007), individually installed, having an internal unit of the split-type air conditioning device (2006) composed of an internal heat exchanger (203), a flow regulating device (202), a control device (201), a blower fan of air conditioning flow (204), a blower pump (1041) and an exhaust quantity regulating device (1061) having a circulating and compressing refrigerant loop constructed by a refrigerant fluid line (103) installed between the three previous ones, and installing a fluid discharge path (1060) in the air conditioning object space (120) between the exhaust quantity regulating device (1061), the blower pump (1041) and the external heat exchanger (1021).

As shown in FIGURE 21, the main configuration consists of installing an outdoor unit of the air conditioning device, of the divided type (2002), composed of an external heat exchanger (1021), installing an external main station of the air conditioning device. air conditioning, split type (2007), which is installed individually and install an internal unit of the air conditioning device, divided type (2006), composed of an internal heat exchanger (203), a flow regulating device (202), a control device (201), a blower fan for air conditioning flow (204), a blower pump (1041) and an exhaust quantity regulating device (1061), and form a compression and circulation loop of refrigerant constructed by a refrigerant fluid line (103) installed between the three previous ones and installing a fluid escape route (1060) in the air conditioning space (120) between the exhaust quantity regulating device (1061), the blower pump (1041) and the external heat exchanger (1021); wherein the outdoor unit of air conditioning device, of divided type (2002), installed with the external heat exchanger (1021), the refrigerant fluid line (103) and the external main station of the air conditioning device, split type installed individually (2007), where the main external station of the air conditioning device, split type (2007) primarily includes a compression device and forms a compression and circulation loop directed through the fluid pipeline coolant (103) to the external heat exchanger (1021) and to the internal heat exchanger (203) and the flow regulating device (202) in the internal unit of the air conditioning device, of the divided type (2006) installed in the space provided for air conditioning (120); the internal unit of the air conditioning device, of divided type (2006) is installed with the internal heat exchanger (203), the flow regulating device (202), the air conditioning flow blower fan (204) and it is provided with a control device (201) for controlling operations of feeding electrical power and directing or controlling the air conditioning device; the internal unit of the air conditioning device, of divided type (2006), is furthermore installed with the exhaust quantity regulating device (1061), the blower pump (1041) and the fluid escape route (1060); The external heat exchanger (1021) of the external unit of the air conditioning device, of split type (2002), is installed with the refrigerant fluid line (103) allowing the refrigerant to flow through to exchange heat with the fluid of escape from the air-conditioned space (105); refrigerant fluid pipe (103), consisting of a pipe device for connecting the external main station of the air conditioning device, split type (2007), which is installed individually and the external heat exchanger (1021) and the flow regulating device (202) and the internal heat exchanger (203) of the internal unit of the air conditioning device, of the divided type (2006) for the purpose of circulation, wherein the internal part of the pipe allows flow through the refrigerant in gas-state or liquid-state; the blower pump (1041), constituted by an air exhaust fan or air blower unit or an air pump directed or driven by an electric motor, for pumping the exhaust fluid from the air conditioning space (105) with a relative temperature differentiation of the air conditioning object space (120) through the exhaust quantity regulating device (1061) and the fluid escape route (1060) and flowing through the external heat exchanger ( 1021), then it is discharged to the external temperature differentiation space (130); the exhaust quantity regulating device (1061), constituted by a gate for fluid, a stopcock or valve for operating and regulating the amount of escape of the exhaust fluid from the space conditioned by air (105); the fluid escape route (1060), constituted by a fluid passage structure for discharge of the escape amount of the exhaust fluid from the air conditioning object (105) of the air conditioning object space (120); the refrigerant fluid line (103) and the fluid escape route (1060) can be individually installed or jointly constituted as a pipe structure.

Figure 22 is a structural schematic view of an embodiment of the present invention having an outdoor unit for air conditioning device, of divided type (2002), composed of an external heat exchanger (1021) and a fan unit for air flow exhaust (104) having an externally installed split-type air conditioner (2007), which has an internal unit of the split-type air conditioning device (2006) composed of a heat exchanger internal heat (203), a flow regulating device (202), a control device (201), and an air conditioning flow blower (204) having a refrigerant circulation and compression loop constructed by a pipeline for coolant fluid (103) installed between the three previous ones, and separately assemble an exhaust quantity regulating device (1061) in the isolating device or thermal (110), and installing a fluid discharge path (1060) and introducing external air flow (1051) into the air conditioning object space (120) between the exhaust quantity regulator device (1061), and he external heat exchanger (1021).

As shown in Figure 22, the main configuration comprises installing an outdoor unit of the air conditioning device (2002) composed of an external heat exchanger (1021) and an exhaust air blower unit (104), install an outdoor main air conditioning unit, split type (2007) that is installed individually, and install an internal air conditioning unit, split type (2006) composed of an internal heat exchanger (203 ), a flow regulating device (202), a control device (201) and an air conditioning flow blower fan (204), and forming a refrigerant circulation and compression loop constructed by a refrigerant fluid line (103). ) installed between the three previous ones, and separately assemble an exhaust quantity regulating device (1061) in the thermal insulation device (110), and install a route of fluid escape (1060) and introduce external air flow (1051) in the air-conditioned space (120) between the exhaust quantity regulating device (1061) and the external heat exchanger (1021); where the outdoor unit of the air conditioning device, split type (2002), installed with the external heat exchanger (1021), the refrigerant fluid line (103), the air flow exhaust fan unit (104) and the external main station of the individually installed split-type air conditioning device (2007), wherein the main exterior station of the air-conditioning device, of the divided type (2007) mainly includes a compression device and forms a loop of compression and circulation directed through the refrigerant fluid line (103) to the external heat exchanger (1021) and to the internal heat exchanger (203) and the flow regulating device (202) in the internal unit of the device of air conditioning, of divided type (2006) installed in the space object of air conditioning (120); the internal unit of the air conditioning device, of divided type (2006) is installed with the internal heat exchanger (203), the flow regulating device (202), the air conditioning flow blower fan (204) and it is provided with a control device (201) for regulating the operation of feeding electrical power and directing the air conditioning device; the thermal insulation device (110) is mounted separately with the exhaust quantity regulating device (1061) and the fluid escape route (1060); The external heat exchanger (1021) of the external unit of the air conditioning device, of the split type (2002), is installed with the refrigerant fluid line (103) allowing the refrigerant to flow through to exchange heat with the flow of air. external air (1051) of the external temperature differentiation space (130) in the external heat exchanger (1021) and the exhaust fluid of the air conditioning object space (105); The air flow exhaust fan unit of the external heat exchanger (104) installed in the external unit of the air conditioning device, of the split type (2002) is constituted by an exhaust fan unit of air flow or air flow blower or an air pump driven by an electric motor, wherein a range is defined to introduce air flow between the fluid escape route (1060) and the external heat exchanger (1021) to pump in the external air flow (1051) of the external temperature differentiation space (130) and for pumping the exhaust fluid from the air conditioning space (105) with a temperature differentiation and pumped from the air conditioned space ( 120) through the exhaust quantity regulating device (1061) and the fluid escape route (106), thus allowing two air flows to exchange heat having been discharged into the space e external temperature differentiation (130) through the external heat exchanger (1021); refrigerant fluid pipe (103), constituted by a pipe device for connecting the external main station of the air conditioning device, of divided type (2007) that is installed individually and the external heat exchanger (1021) and the flow regulating device (202) and the internal heat exchanger (203) of the internal unit of the air conditioning device, of divided type (2006) for the purpose of circulation, wherein the internal part of the pipe allows the flow refrigerant intern in gas-state or liquid-state; exhaust quantity regulating device (1061), consisting of a gate for fluid, stopcock or valve to operate and regulate the amount of exhaust fluid escape from the air conditioning space (105); fluid escape route (1060), constituted by a fluid passage structure for discharging the escape amount of the exhaust fluid from the air conditioning object space (105) of the air conditioning object space (120); the refrigerant fluid line (103) and the fluid escape route (1060) may be installed individually or jointly constituted as a pipe structure.

Figure 23 is a schematic structural view of an embodiment of the present invention having an external unit of the air conditioning device, of the split type (2002), composed of an external heat exchanger (1021) having an external main station of the split-type air conditioning device (2007), individually installed, having an internal unit of the split-type air conditioning device (2006) composed of an internal heat exchanger (203), a flow regulating device (202) , a control device (201), a blower fan of air conditioning flow (204), having a loop of circulation and compression of refrigerant built by a refrigerant line (103) installed between the three previous ones, and assemble separately a blower pump (1041) and an exhaust quantity regulating device (1061) in the thermal insulation device (110), and installing a fluid discharge path (1060) and introducing external air flow (1051) in the air-conditioned space ( 120) between the exhaust quantity regulating device (1061), the blower pump (1041) and the external heat exchanger (1021).

As shown in FIGURE 23, the main configuration comprises installing an outdoor unit of air conditioning device, of divided type (2002), composed of an external heat exchanger (1021), installing an external main station of the conditioning device of air, divided type (2007) that is installed individually, and install an internal unit of the air conditioning device, divided type (2006) composed of an internal heat exchanger (203), a flow regulator device (202) ), a control device (201) and a blower fan of air conditioning flow (204), and form a compression and circulation loop of the refrigerant constructed by a refrigerant fluid line (103) installed between the three previous ones, and assemble separately a blower pump (1041), and an exhaust quantity regulating device (1061) in the thermal insulation device (110), and install an escape route of f (106) in the space provided for air conditioning (120) between the exhaust quantity regulating device (1061), the blower pump (1041) and the external heat exchanger (1021); wherein the external unit of the air conditioning device, of divided type (2002), installed with the external heat exchanger (1021), the refrigerant fluid line (103) and the external main station of the air conditioning device, split type installed individually (2007), where the main external station of the air conditioning device, divided type (2007), mainly includes a compression device and forms a compression and circulation loop directed through the pipeline refrigerant fluid (103) to the external heat exchanger (1021) and to the internal heat exchanger (203) and the flow regulating device (202) in the internal unit of the air conditioning device, of the divided type (2006) installed in the air conditioning object space (120); the internal unit of the air conditioning device, of divided type (2006) is installed with the internal heat exchanger (203), the flow regulating device (202), the air conditioning flow blower fan (204) and it is provided with a control device (201) for controlling operations of feeding electrical power and directing or controlling the air conditioning device; the thermal insulation device (110) is mounted separately with the exhaust quantity regulating device (1061), the blow pump (1041) and the fluid escape route (1060); the external heat exchanger (1021) of the external unit of the air conditioning device, of the split type (2002) is installed with the refrigerant fluid line (103) allowing the refrigerant to flow through to exchange heat with the exhaust fluid of the space subject to air conditioning (105); refrigerant fluid pipe (103), consisting of a pipe device for connecting the main external station of the air conditioning device, of the divided type (2007) and the external heat exchanger (1021) and the flow regulating device (202) ) and the internal heat exchanger (203) of the internal unit of the air-conditioning device, of the divided type (2006) for the purpose of circulation, wherein the internal part of the pipe allows the refrigerant to pass through in the state- gas or liquid state; blower pump (1041), constituted by an air exhaust fan or air blower unit or an air pump directed or controlled by an electric motor, for pumping the exhaust fluid from the air-conditioned space (105) with a relative temperature differentiation from the air conditioning object space (120) through the exhaust quantity regulator device (1061) and the fluid exhaust path (1060) and flowing through the external heat exchanger (1021) ) then discharged to the external temperature differentiation space (130); the exhaust quantity regulating device (1061), constituted by a gate for fluid, stopcock or valve for operating and regulating the amount of exhaust of the exhaust fluid from the air conditioning object (105); fluid escape route (1060), constituted by a fluid passage structure for discharge of the exhaust fluid escape amount from the air conditioning object space (105) from the air conditioning object space (120); the refrigerant fluid line (103) and the fluid escape route (1060) can be installed individually or jointly constituted as a pipe structure.

Figure 24 is a structural schematic view of an embodiment of the present invention having an external unit of the air conditioning device, of split type (2002), composed of an external heat exchanger (1021) and a fan unit for air flow exhaust (104) having an externally installed separate split-type air conditioner (2007), having an internal unit of the split-type air conditioning device (2006) composed of a changer of internal heat (203), a flow regulating device (202), a control device (201), and an air conditioning flow blower (204) having a refrigerant circulation and compression loop constructed by a pipe for refrigerant fluid (103) installed between the three previous ones, and separately assemble a fluid pump (1041) and an exhaust quantity regulator device (1061) in the thermal insulation device (110), and installing a fluid discharge path (1060) and introducing external air flow (1051) in the air conditioning object space (120) between the exhaust quantity regulating device (1061) , the blower pump (1041) and the external heat exchanger (1021).

As shown in FIGURE 24, the main configuration consists of installing an outdoor unit of air conditioning device, of split type (2002) composed of an external heat exchanger (1021) and a flow discharge fan unit of air (104), install an outdoor main air conditioning unit, split type (2007) that is installed individually, and install an indoor air conditioning unit, split type (2006) composed of a changer of internal heat (203), a flow regulating device (202), a control device (201) and an air conditioner fan blower (204), and forming a refrigerant circulation and compression loop constructed by a Refrigerant fluid line (103) installed between the three previous ones, and install separately a blower pump (1041) and an exhaust quantity regulator device (1061) in the device and thermal insulation (110), and installing a fluid discharge path (1060) and introducing external air flow (1051) in the air conditioning object space (120) between the exhaust quantity regulator device (1061), the blower pump (1041) and the external heat exchanger (1021); where the outdoor unit of the air conditioning device, split type (2002), installed with the external heat exchanger (1021), the refrigerant fluid line (103), the air flow exhaust fan unit (104) and the external main station of the individually installed split-type air conditioning device (2007), wherein the main outdoor station of the air-conditioning device, of the divided type (2007), primarily includes a compression device and forms a loop of compression and circulation directed through the refrigerant fluid line (103) to the external heat exchanger (1021) and to the internal heat exchanger (203) and the flow regulating device (202) in the indoor unit of the device of air conditioning, of divided type (2006) installed in the air conditioned space (120); the indoor unit of air conditioning device, split type (2006) is installed with the internal heat exchanger (203), the flow regulating device (202), the air conditioning flow blower fan (204) and it is provided with a control device (201) for controlling operations of feeding electrical power and directing or controlling the air conditioning device; the thermal insulation device (110) is mounted separately with the exhaust quantity regulating device (1061), the blower pump (1041) and the fluid escape route (1060); The external heat exchanger (1021) of the outdoor unit of the air conditioning device, of the split type (2002) is installed with the refrigerant fluid line (103) allowing the refrigerant to flow through to exchange heat with the air flow external (1051) of the external temperature differentiation space (130) in the external heat exchanger (1021) and the exhaust fluid of the air conditioning object space (105); The air flow exhaust fan unit of the external heat exchanger (104) installed in the outdoor or outdoor unit of the air conditioning device, of the split type (2002), is constituted by a flow exhaust fan unit. air or air flow blower or an air pump driven by an electric motor, wherein a range that produces the air flow, is defined between the fluid escape route (1060) and the external heat exchanger (1021) for pumping in the external air flow (1051) of the external temperature differentiation space (130) and for pumping the exhaust fluid from the air-conditioned space (105) with a temperature differentiation and pumped from the object space. air conditioning (120) through the exhaust quantity regulating device (1061) and the fluid escape route (106), thereby allowing two air exchanges that exchange heat to be discharged s to the external temperature differentiation space (130) through the external heat exchanger (1021); refrigerant fluid pipe (103), consisting of a pipe device for connecting the external main station of the air conditioning device, divided type (2007) that is installed individually and the external heat exchanger (1021) and the regulating device of flow (202) and the internal heat exchanger (203) of the indoor unit of air conditioning device, of divided type (2006) for the purpose of circulation, wherein the internal part of the pipe allows the intern to flow through. state-gas or state-liquid refrigerant; exhaust quantity regulating device (1061) constituted by the fluid gate, a stopcock or valve for operating and regulating the amount of exhaust fluid escape from the air conditioning object space (105); fluid escape route (1060), constituted by a structure for fluid passage for discharge of the exhaust fluid escape amount space conditioned air (105) from the air conditioning object space (120); the refrigerant fluid line (103) and the fluid escape route (1060) can be installed individually or jointly constituted as a pipe structure.

In summary, the air conditioning device using the temperature differentiation of discharged gas to uniformize temperature of the external heat exchanger refers to a cooling / heating conditioning device for regulating the temperature, which pumps an air flow discharged from a space in an air-conditioning object such as the interior of a room or vehicle to the exterior through the external heat exchanger arranged on the outside of the air-conditioning object such as the exterior of the room or vehicle to equalize the temperature of the fluid flowing through the internal part of the external heat exchanger by the temperature difference between the internal and external parts of the air conditioning object to achieve an energy-saving effect.

Claims (25)

CXIV CLAIMS

1. A device for air conditioning, which uses differentiation of exhaust gas temperature to standardize the temperature of the external heat exchanger that is related to an air conditioning device by cooling / heating to regulate the temperature, which pumps the exhaust fluid of the air-conditioned space (105) in an air-conditioning object such as the interior or internal part of a vehicle, and / or pumps the external air flow (1051) through the external heat-exchanger (1021) placed on the outside of the air-conditioning object, such as the exterior or the external part of a vehicle, to perform heat exchange with the refrigerant fluid line (103) passing through the internal part of the external heat-exchanging device by temperature differentiation between the two fluids; when the air conditioning device is operated as a refrigerant, the air flow of a relatively lower temperature discharged from the air-conditioned space such as the interior of the room, can be used to facilitate the reduction of the temperature of the exchanger of air. external heat that is placed outside as a condenser, and when the air conditioning device is operated as a thermal pump to supply hot air, the discharge air flow of a relatively cxv temperature Top can be used to facilitate the temperature rise of the external heat exchanger that is placed outside as an evaporator, and the main configurations are as follows: a main unit of the air conditioning device (101), which essentially consists of a regulating device, an internal heat exchanger (203), a compression device, pipes, a control device (201), a blower for flow of air conditioning and a housing, and coupled to an external heat exchanger pipe (1021) mounted in an external temperature differentiation space (130) to form a circulation path by a refrigerant fluid pipe (103); and having an exhaust quantity regulating device (1061) and a fluid discharge path (1060) for the fluid discharged from the air-conditioned space (105) flow through, and in addition to discharge to the differentiation space of external temperature (130) through the external heat exchanger (1021); the external heat exchanger (1021), which is provided with the refrigerant fluid line (103) to allow the refrigerant to pass from the main unit for heat exchange with the external air flow (1051) of the external temperature differentiation space (130) of the external heat exchanger (1021) and the exhaust fluid of the conditioned space of CXVI air (105); a blower pump (1041) or an exhaust fan unit for air flow from the external heat exchanger (104), is installed in one or more of one of the three locations including the fluid escape route (1060) or the inlet side or the outlet side of the external heat exchanger (1021), to pump the fluid from escape of the air conditioning object (105) to discharge to the external temperature differentiation space (130) through the external heat exchanger (1021); the air flow exhaust fan unit of the external heat exchanger (104) and the blower pump (1041), which comprise a blower or air blower unit or an air pump driven by an electric motor, for pumping the exhaust fluid from the air-conditioned space (105) with a temperature differentiation of the air-conditioned space (120) through the exhaust quantity regulating device (1061) and the fluid escape route (1060), or to simultaneously pump the exhaust fluid from the air conditioning object space (105) and the external air flow (1051), to escape to the external temperature differentiation space (130) through the heat exchanger external (1021), allowing two air flows that escape to the external temperature differentiation space (130) through the CXVII changer external heat (1021); the refrigerant fluid line (103), which is a circulation pipe device for coupling the main unit of the air conditioning device (101) and the external heat exchanger (1021), wherein a gas or liquid refrigerant is made circular; the exhaust quantity regulating device (1061), formed by a fluid gate, a stopcock or valve for operating and adjusting the exhaust fluid escape amount from the air conditioning object space (105); the fluid escape route (1060), which is a fluid passage structure to allow escape fluid escape from the air conditioning object space (105); Its operating principles are as follows: - when operating as the cold air supply function to the air conditioning object space (120), using both or one of the air flow exhaust fan unit of the external heat exchanger (104) and / or the device exhaust quantity regulator (1061) for pumping the exhaust fluid from the air conditioning object space (105) to a relatively lower temperature in an interior air conditioning space (120), or simultaneously pumping the exhaust fluid of the air conditioned object space (105) and the external air flow CXVIII (1051) circulating through the external heat exchanger (1021), the effect of reducing the temperature of the external heat exchanger (1021) is improved, and in this way facilitate the improvement of cooling air conditioning efficiency; - when operating as a thermal pump function to supply hot air to the air-conditioned space (120), when pumping the exhaust fluid from the air-conditioned space (105) having a temperature relatively higher than the external heat exchanger (1021) through the external heat exchanger (1021), the effect of raising the temperature of the external heat exchanger (1021) is improved, and thus facilitates to improve the heating efficiency of air conditioning; the air conditioning device uses temperature differentiation of the exhaust gas to uniformize the temperature of the external heat exchanger of the present invention, including pumping the flow of air passing through the external part of the external heat exchanger (1021) using the fan unit for exhaust air flow from the external heat exchanger (104) and / or the blower pump (1041); according to the air conditioning device that uses the temperature differentiation of the exhaust gas to standardize the temperature of the external heat exchanger, with a CXIX thermal insulation device (110) built in the location of an object, the air conditioning object space (120) and the external temperature differentiation space (130) can be isolated, the thermal insulation structure (110) includes the wall of a construction , the housing of a carrier or enclosure of a mechanism made of a thermal insulation material or a material that even has better thermal insulation properties; according to the air conditioning device that uses differentiation of temperature of the exhaust gas to uniformize the temperature of the external heat exchanger, the aforementioned air conditioning space (120) is often defined as the internal part of a construction or the internal part of a building or the internal part of a vehicle or the internal part of a vessel c the internal part of an aircraft or the internal part of a device of equipment, which allows the air conditioning device to perform regulation raising the temperature or regulation by reducing the temperature; the exhaust fluid of the above-mentioned air conditioning space (105) is defined as the flow of air discharged from the inner part of the air-conditioned space (120) and flowing through the external heat exchanger (1021); according to the device for air conditioning that uses gas temperature differentiation of cxx exhaust to standardize the temperature of the external heat exchanger, the said external temperature differentiation space (130) is defined as the isolated outer space of the air conditioning object space (120) through the thermal insulation device (110); according to the air conditioning device which uses exhaust gas temperature differentiation to uniformize the temperature of the external heat exchanger, the external air flow (1051) mentioned is defined as the air flow surrounding the differentiation space of external temperature (130); in the air conditioning device that uses exhaust gas temperature differentiation to uniformize the temperature of the external heat exchanger, the temperature of the exhaust fluid of the air-conditioned space (105) includes higher than that of a heat exchanger. heat to externally externally positioned part of a temperature regulator; in the air conditioning device that uses differentiation of exhaust gas temperature to uniformize the temperature of the external heat exchanger, the temperature of the exhaust fluid of the air-conditioned space (105), includes less than that of a changer of heat to the external arrangement of a temperature regulator; in the air conditioning device that CXXI it uses differentiation of temperature of the exhaust gas to uniformize the temperature of the external heat exchanger, the exhaust fluid of the space undergoing air conditioning (105) discharged includes thermo exchange with the refrigerant fluid pipe (103 arranged in the heat exchanger external (1021) in the outer space or a surface of the external heat exchanger (1021); The air conditioning device uses exhaust gas temperature differentiation to uniformize the temperature of the external heat exchanger of the present invention is formed by applying the above-mentioned operating principles to various types of air conditioning devices including air conditioning devices. integral air, or air conditioning devices, split type, or use the cooling tower to replace the cooling tower air conditioning device of the external heat exchanger (1021).

2. An air conditioning device that uses exhaust gas temperature differentiation to uniformize the temperature of the external heat exchanger according to claim 1, characterized in that it includes for application to an integral air conditioning device with a fan unit of Exhaust air flow heat exchanger CXXII external (104) and a fluid discharge path (106), to pump an exhaust fluid from the air-conditioned space (105) and an external air flow (1051) to flow together through a changer as a whole of external heat (1021), and the main configurations are as follows: a main unit of the air conditioning device (101), which essentially consists of a regulating device, an internal heat exchanger (203), a compression device, pipes, a control device (201), a flow blower of air conditioning and a housing, and coupled to an external heat exchanger pipe (1021) mounted in an external temperature differentiation space (130) to form a flow path through a refrigerant fluid line (103); and has an exhaust quantity regulating device (1061) and a fluid escape route (106) formed by a housing to allow the exhaust fluid from the air conditioning object space (105) to flow to the external heat exchanger ( 1021); the external heat exchanger (1021), which is provided with the refrigerant fluid line (103) to allow the refrigerant to pass from the main unit for heat exchange with the external air flow (1051) of the external temperature differentiation space (130) of the external heat exchanger (1021) and the exhaust fluid of the conditioned space of CXXIII air (105); the refrigerant fluid pipe (103), which is a circulation pipe device for coupling the main unit of the air conditioning device (101) and the external heat exchanger (1021), wherein a gas or liquid refrigerant is circulated.; an air flow exhaust fan unit of the external heat exchanger (104), comprising an exhaust fan or air blower unit or an air pump driven by an electric motor, for pumping the external air flow ( 1051) of the external temperature differentiation space (130) and for pumping the exhaust fluid from the air-conditioned space (105) with a temperature differentiation that is pumped from the air-conditioned space (120) through of the exhaust quantity regulating device (1061) and the fluid escape route (106) allowing two air streams to discharge to the external temperature differentiation space (130) through the external heat exchanger (1021); the exhaust quantity regulating device (1061), formed by a fluid gate, a stopcock or valve for operating and adjusting the exhaust fluid exhaust quantity of the air conditioning object space (105); the fluid escape route (106), which is a structure for fluid passage to allow the escape of the CXXIV exhaust fluid from the air conditioning object (105); whereby a device assembly for integral air conditioning (1000) is formed by the aforementioned structures.

3. An air conditioning device that uses exhaust gas temperature differentiation to uniformize the temperature of the external heat exchanger according to claim 1, characterized in that it includes applying to an integral air conditioning device without an exhaust fan unit for air flow of the heat exchanger (104) and a ventilation device (1041) commonly constructed with a fluid escape route (106) for pumping an exhaust fluid from the air-conditioned space (105) to flow to through an external heat exchanger (1021), and the main configurations are as follows: a main unit of the air conditioning device (101), which essentially consists of a regulating device, an internal heat exchanger (203), a compression device, pipes, a control device (201), a flow blower of air conditioning air and a housing, and coupled to an external heat exchanger pipe (1021) mounted in an external temperature differentiation space (130) to form a circulation path by means of a cxxv refrigerant fluid pipe (103); and having a fluid escape route (106) formed by a housing, and having an exhaust quantity regulating device (1061) and the blower pump (1041); the external heat exchanger (1021), which is provided with the refrigerant fluid line (103), to allow the refrigerant to pass from the main unit for heat exchange with the exhaust fluid from the air-conditioned space (105) through the external heat exchanger (1021); the refrigerant fluid line (103), which is a circulating pipe device for coupling the main unit of the air conditioning device (101) and the external heat exchanger (1021), wherein a gas refrigerant is circulated or liquid; a blower pump (1041), comprising an exhaust fan or air blower unit or an air pump driven by an electric motor, for pumping the exhaust fluid from the air-conditioned space (105) with a differentiation of temperature of the air conditioning object (120) through the exhaust quantity regulating device (1061) and the fluid escape route (106), to discharge to the external temperature differentiation space (130) through the exchanger of external heat (1021); the exhaust quantity regulator device (1061) formed by a gate for fluid, a shut-off valve or CXXVI valve for operating and adjusting the exhaust amount of the exhaust fluid from the air conditioning space (105); the fluid escape route (106), which is a structure for fluid passage, to allow escape fluid escape from the air conditioning object space (105); whereby an assembly of integral air conditioning device (1000) is formed by the aforementioned structures.

4. An air conditioning device that uses exhaust gas temperature differentiation to uniformize the temperature of the external heat exchanger according to claim 1, characterized in that it includes to apply to a fluid escape route (1060) and a fluid exhaust unit. external heat exchanger air flow exhaust fan (104) for pumping an exhaust fluid from the air-conditioned space (105) and an external air flow (1051) to flow together through an external heat exchanger (1021) in the structure of the air conditioning device (1000), and the main configurations are as follows: a main unit of the air conditioning device (101), which essentially consists of a regulating device, an internal heat exchanger (203), a compression device, pipes, a CXXVII control device (201), an air flow blower for air conditioning and a housing, and coupled to an external heat exchanger pipe (1021) mounted in an external temperature differentiation space (130) to form a path of circulation through a refrigerant fluid pipe (103); and having a fluid escape route (1060) and an exhaust quantity regulating device (1061); the external heat exchanger (1021), which is provided with the refrigerant fluid line (103) to allow the refrigerant to pass from the main unit for heat exchange with the external air flow (1051) of the external temperature differentiation space (130) of the external heat exchanger (1021) and the exhaust fluid of the air-conditioned space (105); the refrigerant fluid line (103), which is a circulating pipe device for coupling the main unit of the air conditioning device (101) and the external heat exchanger (1021), wherein a gas refrigerant is circulated or liquid; an air flow exhaust fan unit of the external heat exchanger (104), comprising an exhaust fan or air blower unit or an air pump displaced by the electric motor, for pumping the external air flow ( 1051) of the external temperature differentiation space (130) and for pumping CXXVIII the exhaust fluid from the air-conditioned space (105) with a temperature differentiation that is pumped from the air-conditioned object space (120) through the exhaust quantity regulator device (1061) and the exhaust air path fluid escape (1060), allowing two air flows to discharge to the external temperature differentiation space (130) through the external heat exchanger (1021); whereby a mounting of the air conditioning device (1000) is formed by the aforementioned structures; the exhaust tity regulating device (1061), formed by a fluid gate, a stopcock or valve for operating and adjusting the exhaust fluid exhaust tity of the air conditioning object space (105); the fluid escape route (1060), which is a fluid passage structure to allow escape fluid escape from the air conditioning object space (105).

5. An air conditioning device that uses exhaust gas temperature differentiation to uniformize the temperature of the external heat exchanger according to claim 1, characterized in that it includes to be applied to a blower pump (1041) mounted separately and a device exhaust tity regulator (1061) and having a CXXIX assembly of air conditioning device (1000) without the fan unit for exhaust air flow of the external heat exchanger (104), and the main configurations are as follows: a main unit of the air conditioning device (101), which essentially consists of a regulating device, an internal heat exchanger (203), a compression device, pipes, a control device (201), a flow blower of air for air conditioning and a housing, and coupled to an external heat exchanger pipe (1021), mounted in an external temperature differentiation space (130) to form a circulation path through a refrigerant fluid line (103); and having a fluid escape route (1060), an exhaust tity regulating device (1061), a blower pump (1041); the external heat exchanger (1021), which is provided with the refrigerant fluid line (103) to allow the refrigerant to pass from the main unit for heat exchange with the external heat exchanger (1021) and the space exhaust fluid air conditioning object (105); the refrigerant fluid line (103), which is a circulating pipe device for coupling the main unit of the air conditioning device (101) and the external heat exchanger (1021), wherein a gas refrigerant is circulated or liquid; cxxx whereby an assembly of air conditioning device (1000) is formed by the aforementioned structures; a blower pump (1041), comprising an exhaust fan or air blower unit or an air pump driven by an electric motor, for pumping the exhaust fluid from the air-conditioned space (105) with a differentiation of space temperature object of air conditioning (120) through the exhaust tity regulating device (1061) and the fluid escape route (1060), to discharge to the external temperature differentiation space (130) through the exchanger of external heat (1021); the exhaust tity regulating device (1061), formed by a fluid gate, a stopcock or valve for operating and adjusting the exhaust fluid exhaust tity of the air conditioning object space (105); the fluid escape route (1060), which is a structure for fluid passage, to allow escape fluid escape from the air conditioning object space (105).

6. An air conditioning device that uses exhaust gas temperature differentiation to uniformize the temperature of the external heat exchanger according to claim 1, characterized in that it includes to apply to a CXXXI assembly air conditioning device (1000) placed with an exhaust fan unit for air flow of the external heat exchanger (104) and the fluid escape route (1060) and the blower pump (1041) and the main configurations are as follows: a main unit of the air conditioning device (101), which essentially consists of a regulating device, an internal heat exchanger (203), a compression device, pipes, a control device (201), a flow blower of air conditioning for air and a housing, and coupled with an external heat exchanger pipe (1021), mounted in an external temperature differentiation space (130) to form a circulation path by a refrigerant fluid pipe (103); and having a fluid escape route (1060) and a blower pump (1041); the external heat exchanger (1021), which is provided with the refrigerant fluid line (103) to allow the refrigerant to pass from the main unit for heat exchange with the external air flow (1051) of the external temperature differentiation space (130) of the external heat exchanger (1021) and the exhaust fluid of the air-conditioned space (105); the refrigerant fluid line (103), which is a circulation pipe device for coupling the main unit of the CXXXII conditioning device air (101) and the external heat exchanger (1021), wherein a gas or liquid refrigerant is circulated; an air flow exhaust fan unit of the external heat exchanger (104), comprising a circulation fan or air blower unit or an air pump driven by an electric motor, for pumping the external air flow ( 1051) of the external temperature differentiation space (130) and for pumping the exhaust fluid from the air-conditioned space (105) with a temperature differentiation that is pumped from the air-conditioned space (120) through of the exhaust quantity regulator device (1061) and the fluid exhaust path (1060) by the blower pump (1041), allowing two air flows to be discharged to the external temperature differentiation space (130) through the exchanger of external heat (1021); whereby an assembly of air conditioning device (1000) is formed by the aforementioned structures; a blower pump (1041), comprising an exhaust fan unit or air blower or an air pump driven by an electric motor, for pumping the exhaust fluid from the air conditioning space (105) with a differentiation of temperature of the air conditioning object (120) through the exhaust quantity regulator device (1061) and the CXXXIII fluid escape route (1060), to discharge to the external temperature differentiation space (130) through the external heat exchanger (1021), allowing two air flows to discharge to the external temperature differentiation space (130) to through the external heat exchanger (1021); the exhaust quantity regulating device (1061), formed by a fluid gate, a stopcock or valve for operating and adjusting the exhaust fluid escape amount from the air conditioning object space (105); the fluid escape route (1060), which is a fluid passage structure to allow escape fluid escape from the air conditioning object space (105).

7. An air conditioning device that uses exhaust gas temperature differentiation to uniformize the temperature of the external heat exchanger according to claim 1, characterized in that it includes to apply to an outdoor unit of air conditioning device (2002), split type with an exhaust fan unit of air flow of the external heat exchanger (104) and a main unit of the air conditioning device (2001), of divided type, mounted with the fluid escape route (1060) ) and the main configurations are as follows: CXXXIV a main unit of the air conditioning device (2001), of divided type, which essentially consists of a regulating device, an internal heat exchanger (203), a compression device, pipes, a control device (201), a air conditioning air flow blower and a housing, and coupled to an external heat exchanger pipe (1021) mounted on an external unit of the air conditioning device (2002), of a divided type in a space for differentiation of air external temperature (130) to form a circulation path through a refrigerant fluid line (103); and having a fluid escape route (1060) and an exhaust quantity regulating device (1061); the outdoor unit of the air conditioning device, of divided type (2002), has a housing and the external heat exchanger (1021), wherein the external heat exchanger (1021) is provided with the refrigerant fluid line (103). ), to allow the refrigerant to pass from the main unit of the air conditioning device (2001), of the divided type, for heat exchange with the external air flow (1051) of the external temperature differentiation space (130) of the heat exchanger external heat (1021) and the exhaust fluid from the air-conditioned space (105) and having an exhaust air blower unit of the external heat exchanger (104), wherein the unit of cxxxv air flow exhaust fan of the external heat exchanger (104), comprising an exhaust fan or air blower unit or an air pump driven by an electric motor, for pumping the external air flow (1051) of the space of external temperature differentiation (130) and for pumping the exhaust fluid from the air-conditioned space (105) with a temperature differentiation of the air-conditioned space (120) through the exhaust quantity regulator device (120). 1061), and the fluid escape route (1060) and allow two air flows for discharge to the external temperature differentiation space (130) through the external heat exchanger (1021); the refrigerant fluid line (103), which is a circulating pipe device for coupling the main unit of the air conditioning device (101) and the external heat exchanger (1021), wherein a gas refrigerant is circulated or liquid; the exhaust quantity regulating device (1061), formed by a fluid gate, a stopcock or valve for operating and adjusting the exhaust fluid exhaust quantity of the air conditioning object space (105); the fluid escape route (1060), which is a structure for fluid passage, to allow escape fluid escape from the air conditioning object space (105). CXXXVI

8. An air conditioning device that uses exhaust gas temperature differentiation to uniformize the temperature of the external heat exchanger according to claim 1, characterized in that it includes to apply to the main unit of the air conditioning device (2001), split type, commonly constructed with the blower pump (1041) and having an outdoor unit of the air conditioning device (2002), of divided type, without the exhaust fan unit of air flow of the external heat exchanger ( 104) and the main configurations are as follows: a main unit of the air conditioning device (2001), of divided type, essentially consisting of a regulating device, an internal heat exchanger (203), a compression device, pipes, a control device (201), an air conditioning air blower and a housing, and coupled to an external heat exchanger pipe (1021) mounted on an outdoor unit of the air conditioning device (2002), of a divided type in a space for differentiation of air external temperature (130) to form a circulation path through a refrigerant fluid line (103); and having a fluid escape route (1060), an exhaust quantity regulating device (1061) and a blower pump (1041); the outdoor unit of the conditioning device CXXXVII air, split type (2002), has a housing and the external heat exchanger (1021), wherein the external heat exchanger (1021) is provided with the refrigerant fluid line (103) to allow the refrigerant to pass through from the main unit of the air conditioning device (2001), of the divided type, for heat exchange with the exhaust fluid of the air-conditioned space (105) by the external heat exchanger (1021); the refrigerant fluid pipe (103), which is a circulation pipe device for coupling the main unit of the air conditioning device (101) and the external heat exchanger (1021), where a gas refrigerant is circulated or liquid; a blower pump (1041), comprising an exhaust fan or air blower unit or an air pump displaced by an electric motor, for pumping the exhaust fluid from the air-conditioned space (105) with a differentiation of temperature that is pumped from the air conditioned space (120) through the exhaust quantity regulating device (1061) and the fluid escape route (1060), for discharge to the external temperature differentiation space (130) through the external heat exchanger (1021); the exhaust quantity regulating device (1061), formed by a fluid gate, a stopcock or valve, to operate and adjust the exhaust quantity of the CXXXVIII exhaust fluid in the air conditioned space (105); the fluid escape route (1060), which is a fluid passage structure to allow escape fluid escape from the air conditioning object space (105).

9. An air conditioning device that uses exhaust gas temperature differentiation to uniformize the temperature of the external heat exchanger according to claim 1, characterized in that it includes to be applied to the fluid escape route (1060) mounted separately, The main unit of the air conditioning device (2001), divided type and the outdoor unit of the air conditioning device, divided type (2002) with the air flow exhaust fan unit of the external heat exchanger (104), and the main configurations are as follows: a main unit of the air conditioning device (2001), of divided type, which essentially consists of a regulating device, an internal heat exchanger (203), a compression device, pipes, a control device (201), a air conditioning flow blower for air and a housing, and coupled to an external heat exchanger pipe (1021) mounted on an outdoor unit of the air conditioning device, of the divided type CXXXIX < (2002), in an external temperature differentiation space (130) to form a circulation path by means of a refrigerant fluid line (103); and having a fluid escape route (1060) and an exhaust quantity regulating device (1061); the outdoor unit of the air conditioning device, of divided type (2002), has a housing and the external heat exchanger (1021), wherein the external heat exchanger (1021) is provided with the refrigerant fluid line (103). ) to allow the refrigerant to pass from the main unit of the air conditioning device (2001), of divided type for heat exchange with the external air flow (1051) of the external temperature differentiation space (130) of the heat exchanger external (1021) and the exhaust fluid from the air-conditioned space (105), and having an exhaust fan unit for air flow from the external heat exchanger (104), wherein the exhaust fan unit for air flow of the external heat exchanger (104) comprises an exhaust fan or air blower unit or an air pump driven by an electric motor, for pumping the external air flow (1051) of the external temperature differentiation space (130) and for pumping the exhaust fluid from the air conditioning object space (105) with a temperature differentiation of the air conditioning object space (120) through the quantity regulating device CXL exhaust (1061) and fluid escape route (1060), allowing two air flows for discharge to the external temperature differentiation space (130) through the external heat exchanger (1021); the refrigerant fluid pipe (103), which is a circulating pipe device for coupling the main unit of the air conditioning device, of divided type (2001) and the external heat exchanger (1021), where it is circulated a gas or liquid refrigerant; the exhaust quantity regulating device (1061), formed by a fluid gate, a stopcock or valve for operating and adjusting the exhaust fluid exhaust quantity of the air conditioning object space (105); the fluid escape route (1060), which is a structure for fluid passage, to allow escape fluid escape from the air conditioning object space (105).

10. An air conditioning device that uses exhaust gas temperature differentiation to uniformize the temperature of the external heat exchanger according to claim 1, characterized in that it includes to apply to the blower pump (1041) mounted separately, the main unit of the air conditioning device (2001), split type and the outdoor unit of the CXLI device air conditioning, split type (2002), without the fan unit for exhaust air flow of the external heat exchanger (104), and the main configurations are as follows: a main unit of the air conditioning device (2001), of divided type, which essentially consists of a regulating device, an internal heat exchanger (203), a compression device, pipes, a control device (201), a blower for air conditioning air flow and a housing, and coupled to an external heat exchanger pipe (1021), mounted in an external temperature differentiation space (130) to form a circulation path through a fluid pipeline refrigerant (103); and having a fluid escape route (1060), an exhaust quantity regulating device (1061) and a blower pump (1041); the outdoor unit of the air conditioning device, of divided type (2002), has a housing and the external heat exchanger (1021), wherein the external heat exchanger (1021) is provided with the refrigerant fluid line (103). ) to allow the refrigerant to pass from the main unit of the air conditioning device (2001), of the divided type, for heat exchanging with the exhaust fluid of the air-conditioned space (105) by means of the external heat exchanger ( 1021); CXLII the refrigerant fluid line (103), which is a circulation pipe device for coupling the main unit of the air conditioning device (2001) of the divided type and the external heat exchanger (1021), wherein a gas or liquid refrigerant; a blower pump (1041), comprising an exhaust fan unit or air blower or an air pump driven by an electric motor, for pumping the exhaust fluid from the air conditioning space (105) with a differentiation of temperature that is pumped from the air conditioned space (120) through the exhaust quantity regulator device (1061) and the fluid exhaust path (1060), to discharge to the external temperature differentiation space (130) through the external heat exchanger (1021); the exhaust quantity regulating device (1061), formed by a fluid gate, a stopcock or valve, for operating and adjusting the exhaust fluid escape amount from the air conditioning object space (105); the fluid escape route (1060), which is a structure for fluid passage, to allow escape fluid escape from the air conditioning object space (105).

11. An air conditioning device that uses CXLIII exhaust gas temperature differentiation to standardize the temperature of the external heat exchanger according to claim 1, characterized in that it includes to apply to the main unit of the air conditioning device (2001), divided type, the outdoor unit of the air conditioning device, divided type (2002), with the air flow exhaust fan unit of the external heat exchanger (104) and the blower pump (1041) mounted separately and the main configurations are as follows: a main unit of the air conditioning device (2001), of divided type, which essentially consists of a regulating device, an internal heat exchanger (203), a compression device, pipes, a control device (201), a air flow blower for air conditioning and a housing, and coupled to an external heat exchanger pipe (1021) mounted in an external temperature differentiation space (130) to form a circulation path through a refrigerant fluid pipeline (103); and having a fluid escape route (1060), the exhaust quantity regulating device and the blower pump (1041); the outdoor unit of the air conditioning device, of divided type (2002), has a housing and the external heat exchanger (1021), wherein the external heat exchanger (1021) is provided with the CXLIV pipeline refrigerant fluid (103) to allow the refrigerant to pass from the main unit of the air conditioning device (2001), of the divided type, for heat exchange with the external air flow (1051) of the external temperature differentiation space (130). ) of the external heat exchanger (1021) and the exhaust fluid of the air-conditioned space (105), and having an exhaust fan unit for air flow of the external heat exchanger (104), wherein the exhaust fan unit for air flow of the external heat exchanger (104) comprises an exhaust fan or air blower unit or an air pump driven by an electric motor, for pumping the external air flow (1051) of the external temperature differentiation space (130) and for pumping the exhaust fluid from the air conditioning space (105) with the temperature differentiation of the air conditioning object space (120) through the exhaust quantity regulating device (1061) and the fluid escape route (1060), allowing two air flows for discharge to the external temperature differentiation space (130) through the external heat exchanger (1021); the refrigerant fluid pipe (103), which is a circulation pipe device for coupling the main unit of the air conditioning device (2001), of the divided type and the external heat exchanger (1021), where it is circulated a CXLV refrigerant gas or liquid; the exhaust quantity regulating device (1061), formed by a fluid gate, a stopcock or valve, for operating and adjusting the exhaust flow amount of the airconditioning space (105); the fluid escape route (1060), which is a structure for fluid passage, to allow escape fluid escape from the air conditioning object space (105).

12. An air conditioning device that uses exhaust gas temperature differentiation to uniformize the temperature of the external heat exchanger according to claim 1, characterized in that it includes for application to a main unit of the air-cooled water conditioning device ( 2005), a cooling tower that provides an energized fan (2003) and blower pump (1041) mounted separately, and the main configurations are as follows: a main unit of the water-cooled air conditioning device (2005), which is a main unit of the air conditioning device which essentially consists of a regulating device, an internal heat exchanger (203), a compression device, pipes , a control device (201), a cooling device cooled by CXLVI water air flow blower for air conditioner and a housing, and a water pipe (107), of the water cooled condensing device placed in the main unit of the water cooled air conditioning device (2005) which is coupled to a water inlet and outlet pipe (109) of a pipe for water exhaust and water inlet of the cooling tower (2003) that provides the energized fan, placed in the external temperature differentiation space (130) to form a water circulation path, and having a fluid escape route (1060), the exhaust quantity regulator device (1061) and the blower pump (1041), and by means of the blower pump (1041), pumping the fluid exhaust of the air conditioning object space (105) through the fluid escape route (1060) and the exhaust quantity regulating device (1061) to an air inlet of the cooling tower providing the exhaust air or energized (2003); the cooling tower that provides the energized fan (2003), comprises a cooling tower equipped with a cooling tower fan unit (108), for example a counterflow mechanical draft cooling tower, a draft cooling tower mechanical backflushing, a counterflow cooling tower, a counterflow mechanical cooling tower, or an evaporative cooling tower and a cooling tower that provides CXLVII energized fan (2003) having an air inlet, such that the exhaust fluid from the air-conditioned space (105), pumped from the air-conditioned space (120) through the blower pump ( 1041), it is directed through the fluid escape route (1060) to the air inlet of the cooling tower that provides the energized fan (2003), and to pass through the cooling tower that provides the energized fan (2003), to cool the water flow and then discharge to the environment through the cooling tower fan unit (108), and having a water inlet and outlet pipe (109), to connect the pipeline of water (107), to allow cooling water to circulate between the cooling tower that provides the energized fan (2003) and the main unit of the air-cooled water conditioning device (2005); the water pipe (107), placed between a water-cooled condensing device of the main unit of the water-cooled air conditioning device (2005) and the water inlet and outlet pipe (109) of the cooling tower provided of the energized fan (2003); the fan unit of the cooling tower (108), comprises an exhaust fan or air blower unit or an air pump driven by an electric motor, and having one or more of the following CXLVIII operating functions, including: 1) pumping the external air flow (1051) of the external temperature differentiation space (130) to the external temperature differentiation space (130) through the interior of the cooling tower provided by the fan energized (2003); 2) pumping the exhaust fluid from the air conditioning space (105) with a temperature differentiation from the air conditioning space (120) through the exhaust quantity regulator (1061), the blower pump ( 1041) and the fluid escape route (1060) to the external temperature differentiation space (130) through the cooling tower provided by the energized fan (2003); 3) allowing the external air flow (1051) and the exhaust fluid from the air conditioning object space (105) to discharge in common form to the external temperature differentiation space (130) through the cooling tower that provides the fan energized (2003); a water pump (111), for pumping a cooling water between the main unit of the water-cooled air conditioning device (2005) and the cooling tower that provides the fan energized (2003) through the water pipe (107) and the water inlet and outlet pipe (109) for cooling circulation; the exhaust quantity regulator device (1061), CXLIX formed by a gate for fluid, a stopcock or valve for operating and adjusting the exhaust amount of the exhaust fluid from the air conditioning object space (105); the fluid escape route (1060), which is a fluid passage structure, to allow escape fluid escape from the air conditioning object space (105).

13. An air conditioning device that uses exhaust gas temperature differentiation to uniformize the temperature of the external heat exchanger according to claim 1, characterized in that it includes for application to a main unit of the air-cooled water conditioning device ( 2005) and a cooling tower that provides fan energized (2003) and the main configurations are as follows: a main unit of the water-cooled air conditioning device (2005), which is a main unit of the air conditioning device, which essentially consists of a regulating device, an internal heat exchanger (203), a compression device, pipes, a control device (201), a water-cooled cooling device, airflow blower for air conditioning and a housing, and a water pipe (107) of the water-cooled condensing device placed in CL the main unit of the water-cooled air conditioning device (2005) which is coupled to a water inlet and outlet pipe (109) of a water exhaust pipe and water inlet of the cooling tower provided by the fan energized (2003) placed in the external temperature differentiation space (130), to form a water circulation path; and having a fluid escape route (1060) and an exhaust quantity regulating device (1061) for supplying the exhaust fluid from the air-conditioned space (105) to an air inlet of the cooling tower that provides the fan energized (2003); the cooling tower that provides the energized fan (2003), comprises a cooling tower equipped with the cooling tower fan unit (108), for example a counterflow mechanical draft cooling tower, a draft cooling tower mechanical backflushing induced, a counterflow cooling tower, a counterflow mechanical cooling tower, or an evaporative cooling tower, and the cooling tower that provides the energized fan (2003) has an air inlet, so such that the exhaust fluid from the air-conditioned space (105) pumped from the air-conditioned object space (120), is routed through the fluid escape route (1060) to the CLI inlet of air from the cooling tower that provides the fan energized (2003), and is passed through the cooling tower that provides the fan energized (2003), to cool the flow of water, and then discharge to the environment through the fan unit of the cooling tower (108), and having an inlet and outlet pipe (109) for connecting the water pipe (107), to allow cooling water to circulate between the cooling tower that provides the energized fan (2003) and the main unit of the water-cooled air conditioning device (2005); the water pipe (107), placed between a water-cooled condensing device of the main unit of the device. water-cooled air conditioning (2005) and the water inlet and outlet piping (109) of the cooling tower that provides the energized fan (2003); the fan unit of the cooling tower (108), comprising an exhaust fan and air blower unit or an air pump driven by an electric motor, and having one or more of the following operating functions, including: 1) pumping the external air flow (1051) from the external temperature differentiation space (130), to the external temperature differentiation space (130) through the interior of the cooling tower provided by the CLII energized fan (2003); 2) pumping the exhaust fluid from the air-conditioned space (105) with a temperature differentiation of the air-conditioned space (120) through the exhaust quantity regulating device (1061) and the exhaust route of fluid (1060) to the external temperature differentiation space (130) through the cooling tower that provides the energized fan (2003); 3) allowing the external air flow (1051) and the exhaust fluid from the air-conditioned space (105) to discharge in common form to the external temperature differentiation space (130) through the cooling tower that provides the fan energized (2003); a water pump (111), for pumping cooling water between the main unit of the water-cooled air conditioning device (2005) and the cooling tower that provides the fan energized (2003) through the water pipe ( 107) and the water inlet and outlet pipe (109) for cooling circulation; the device regulating the amount of exhaust (1061), formed by a gate for fluid, a stopcock or valve for operating and adjusting the exhaust amount of the exhaust fluid from the air conditioning object space (105); the fluid escape route (1060), which is a structure for fluid passage, to allow the escape of the exhaust fluid from the air conditioning object (105).

14. An air conditioning device that uses exhaust gas temperature differentiation to uniformize the temperature of the external heat exchanger according to claim 1, characterized in that it includes for application to a main unit of the air-cooled water conditioning device ( 2005), a natural draft cooling tower (2003) and the blower pump (1041) mounted separately and the main configurations are as follows: a main unit of the air-cooled water conditioning device (2005), which is a main unit of the air conditioning device which essentially consists of a regulating device, an internal heat exchanger (203), a compression device, pipes, a control device (201), a cooling device cooled by water-blower air flow for air conditioning and a housing, and a water pipe (107) of the device water-cooled condensation placed in the main unit of the water-cooled air conditioning device (2005), which is coupled to a water inlet and outlet pipe of a water inlet and water inlet pipe (109) of a natural draft cooling tower (2004) placed in the external temperature differentiation space (130) to form a CLIV water circulation route; and having the fluid escape route (1060), the exhaust quantity regulator device (1061) and the blower pump (1041) and by means of the blower pump (1041) to pump the exhaust fluid from the space to be conditioned. air (105) to an air intake of the natural draft cooling tower (2004) through the fluid escape route (1060) and the exhaust quantity regulating device (1061); a natural draft cooling tower (2004), comprising a natural draft cooling tower, for example, a cross-flow natural draft cooling tower, and the natural draft cooling tower (2004) has a natural draft cooling tower. air, and has one or more of the following operational functions, including: 1) directing the external air flow (1051) from the external temperature differentiation space (130) to the air inlet of the natural draft cooling tower (2004), and pass through the natural draft cooling tower (2004), to cool the flow of water and then discharge it to the environment through the cooling tower; 2) directing the exhaust fluid from the air-conditioned space (105) which is pumped from the air-conditioned space (120) by the blower pump (1041) through the fluid escape route (1060) to the air inlet of the natural draft cooling tower (2004), and to pass through the natural draft cooling tower (2004) to cool CLV the flow of water and then discharge it to the environment through the cooling tower; 3) directing the exhaust fluid from the air-conditioned space (105) and the external air flow (1051) to the air inlet of the natural draft cooling tower (2004) and passing through the tower natural draft cooling (2004) to cool the water flow and then discharge it to the environment through the cooling tower; and having a water inlet and outlet pipe, (109) for coupling the water pipe (107) to allow the cooling water to circulate between the natural draft cooling tower (2004) and the main unit of the cooling device. air conditioning cooled by water (2005); the water pipe (107), placed between a water-cooled condensing device of the main unit of the water-cooled air conditioning device (2005) and the water inlet and outlet pipe (109) of the cooling tower of natural draft (2004); a water pump (111), for pumping the cooling water between the main unit of the water-cooled air conditioning device (2005) and the cooling tower that provides the fan energized (2003) through the water pipe (107) and the water inlet and outlet pipe (109) for cooling circulation; the device regulating the amount of exhaust CLVI (1061), formed by a gate for fluid, a stopcock or valve for operating and adjusting the exhaust amount of the exhaust fluid from the air conditioning object space (105); the fluid escape route (1060), which is a fluid passage structure, to allow escape fluid escape from the air conditioning object space (105).

15. An air conditioning device that uses exhaust gas temperature differentiation to uniformize the temperature of the external heat exchanger according to claim 1, characterized in that it is also applied to an air conditioning device, of the divided type, which primarily includes an outdoor unit of the air-conditioning device, of divided type (2002) having an exterior main station of air conditioning device, of divided type (2007) and an external heat exchanger (1021) and a fan unit exhaust air flow (104) and an indoor unit of air conditioning device, divided type (2006), having an internal heat exchanger (203), a flow regulating device (202), a blower fan of air conditioning flow (204) and a control device (201), and a refrigerant circulation and compression loop constructed by a tube of refrigerant fluid (103) installed between them, and a CLVII route fluid exhaust (1060) installed from the air conditioning object space (120) to the external heat exchanger (1021) to facilitate applications in several separate spaces.

16. An air conditioning device that uses differentiation of exhaust gas temperature to uniformize the temperature of the external heat exchanger according to claim 15, characterized in that the main configuration is to install an outdoor unit of air conditioning device, of type divided (2002), composed of an external heat exchanger (1021) and an airflow exhaust fan unit (104) and an external main air conditioning device, split type (2007), and installed an internal unit of the air conditioning device, of divided type (2006), composed of an internal heat exchanger (203), a flow regulating device (202), a control device (201), a flow blower fan of air conditioning (204) and an exhaust quantity regulator device (1061), and which forms a compression and circulation loop of refrigerant built by u a refrigerant fluid pipe (103) installed between the two above and install a fluid escape route (1060) and introduce external air flow (1051) into the air conditioning object space (120) between the quantity regulator device exhaust and the CLVIII exchanger of external heat (1021); and where the external unit of the air conditioning device, split type (2002), installed with the external main station of the air conditioning device, divided type (2007), the external heat exchanger (1021), the fluid pipeline coolant (103) and the exhaust air blower unit (104), wherein the main air conditioning unit, split type (2007) primarily includes a compression device and forms a compression loop and circulation directed through the refrigerant fluid line (103) to the external heat exchanger (1021) and to the internal heat exchanger (203) and the flow regulating device (2.02) in the internal unit of the conditioning device of air, of divided type (2006) installed in the space object of air conditioning (120); the internal unit of the air conditioning device, of divided type (2006) is installed with the internal heat exchanger (203), the flow regulating device (202), the air conditioning flow blower fan (204) and provides with a control device (201), to control operations of feeding electrical power and controlling the air conditioning device; the internal unit of the air conditioning device, split type CLIX (2006), it is also installed with the exhaust quantity regulating device (1061) and the fluid escape route (1060); The external heat exchanger (1021) of the external unit of the air conditioning device, of the split type (2002), is installed with the refrigerant fluid line (103) allowing the refrigerant to flow through to exchange heat with the flow of air. external air (1051) of the external temperature differentiation space (130), in the external heat exchanger (1021) and the exhaust fluid of the air conditioning space (105); The air flow exhaust fan unit of the external heat exchanger (104) installed in the external unit of the air conditioning device, of the split type (2002) is constituted by an exhaust fan unit of air flow or air flow blower or an air pump driven by an electric motor, wherein a range introducing the air flow is defined between the fluid escape route (1060) and the external heat exchanger (1021) for pumping in the external air flow (1051) of the external temperature differentiation space (130), and for pumping the exhaust fluid from the air conditioning space (105) with a temperature differentiation and pumped from the space being conditioned for air conditioning. air (120) through the exhaust quantity regulator device CLX (1061) and the fluid escape route (106), thereby allowing two air exchanges exchanging heat to be then discharged to the external temperature differentiation space (130) through the external heat exchanger (1021); refrigerant fluid pipe (103), constituted by a pipe device for connecting the external main station of the air conditioning device, of the divided type (2007) and the external heat exchanger (1021) and the flow regulating device and the internal heat exchanger (203) of the internal unit of the air conditioning device, of the divided type (2006) for the purpose of circulation, wherein the internal part of the pipe allows the refrigerant to flow through in the gas or liquid state; exhaust quantity regulator device (1061) constituted by a fluid gate, a stopcock or valve for operating and regulating the amount of exhaust fluid escape from the air conditioning object space (105); fluid escape route (1060), constituted by a structure for fluid passage for discharge of the escape amount of the exhaust fluid from the air conditioning object space (105) of the air conditioning object space (120); the refrigerant fluid line (103) and the fluid escape route (1060) can be installed in CLXI form individual or jointly constituted with a pipe structure.

17. An air conditioning device that uses differentiation of exhaust gas temperature to uniformize the temperature of the external heat exchanger according to claim 15, characterized in that the main configuration is to install an external unit of the air conditioning device, of type divided (2002), consisting of an external heat exchanger (1021) and an external main station of the air conditioning device, of split type (2007) and installing an internal unit of the air conditioning device, of the divided type (2006) ), composed of an internal heat exchanger (203), a flow regulating device (202), a control device (201), a blower fan of air conditioning flow (204), a blower pump (1041) and a exhaust quantity regulator device (1061) and form a refrigerant compression and circulation loop constructed by a refrigerant fluid line ( 103) installed between the two previous ones, and install a fluid escape route (1060) in the air conditioning object space (120) between the exhaust quantity regulator device (1061), the blower pump (1041) and the external heat exchanger (1021); and wherein the external unit of the air conditioning device, divided type (2002), CLXII installed with the external main station of the air conditioning device, split type (2007), the external heat exchanger (1021) and the refrigerant fluid line (103), where the external main station of the air conditioning device , divided type (2007) primarily includes a compression device and forms a compression and circulation loop directed through the refrigerant fluid line (103) to the external heat exchanger (1021) and to the internal heat exchanger ( 203) and the flow regulating device (202) in the internal unit of the air conditioning device, of the divided type (2006) installed in the space provided for air conditioning (120); the internal unit of the air conditioning device, of divided type (2006) is installed with the internal heat exchanger (203), the flow regulating device (202), the air conditioning flow blower fan (204) and provided with a control device (201) for controlling the operations of feeding electrical power and directing the air conditioning device; the internal unit of the air conditioning device, of divided type (2006), is furthermore installed with the exhaust quantity regulating device (1061), the blower pump (1041) and the fluid escape route (1060); the external heat exchanger (1021) of the CLXIII unit external of the air conditioning device, split type (2002), is installed with the refrigerant fluid line (103) allowing the refrigerant to flow through to exchange heat with the exhaust fluid of the air conditioning object space (105); the refrigerant fluid line (103), constituted by a pipe device for connecting the external main station of the air conditioning device, of divided type (2007) and the external heat exchanger (1021) and the flow regulating device ( 2002) and the internal heat exchanger (203) of the internal unit of the air conditioning device, of divided type (2006) for the purpose of circulation, wherein the internal part of the pipe allows the through flow of refrigerant in state gas or liquid state; the exhaust quantity regulating device (1061), constituted by a gate for fluid, a stopcock or valve for operating and regulating the amount of escape of the exhaust fluid from the space conditioned by air (105); the fluid escape route (1060), constituted by a fluid passage structure for discharging the escape amount of the exhaust fluid from the air conditioning object space (105) of the air conditioning object space (120); the refrigerant fluid line (103) and the fluid escape path (1060) can be installed in CLXIV form individual or constitute jointly as a pipe structure.

** 18. An air conditioning device that uses exhaust gas temperature differentiation to uniformize the temperature of the external heat exchanger according to claim 15, characterized in that the main configuration is to install an external unit of the air conditioning device. air, split type (2002), composed of an external heat exchanger (1021) and an air flow exhaust fan unit (104) and an external main air conditioning unit, of the split type (2007) ), install an internal unit of air conditioning device, divided type (2006), composed of an internal heat exchanger (203), a flow regulating device (202), a control device (201) and a blower fan of flow of air conditioning (204), form a loop of circulation and compression of refrigerant, built by a pipe of refrigerant fluid (103), installs between the two previous ones, and separately mounting an exhaust quantity regulating device (1061) in the thermal insulation device (110), and installing a fluid escape route (1060) and introducing external air flow (1051) in the space provided for air conditioning (120) between the exhaust quantity regulating device (1061) and the external heat exchanger (1021); where CLXV the external unit of the air conditioning device, split type (2002), installed with the external main station of the air conditioning device, divided type (2007), the external heat exchanger (1021), the fluid pipeline coolant (103) and the exhaust air blower unit (104), wherein the main air conditioning unit, split type (2007) primarily includes a compression device and forms a compression loop and circulation directed through the refrigerant fluid line (103) to the external heat exchanger (1021) and to the internal heat exchanger (203) and the flow regulating device (202) in the internal unit of the conditioning device of air, of divided type (2006) installed in the space object of air conditioning (120); the indoor unit of the air conditioning device, of divided type (2006) is installed with the internal heat exchanger (203), the flow regulating device (202), the blower fan for air conditioning flow (204) and is provided with a control device (201) for controlling the operations of feeding electrical power and directing the air conditioning device; the thermal insulation device (110) is mounted separately with the CLXVI quantity regulating device exhaust (1061) and the fluid escape route (1060); The external heat exchanger (1021) of the external unit of the air conditioning device, of the split type (2002) is installed with the refrigerant fluid line (103), allowing the refrigerant to flow through to exchange heat with the flow of air. external air (1051) of the external temperature differentiation space (130) in the external heat exchanger (1021) and the exhaust fluid of the air conditioning object space (105); the fan unit for exhaust air flow of the external heat exchanger (104) installed in the external unit of the air conditioning device, divided type (2002), is constituted by an air flow exhaust fan or air flow blower unit or an air pump driven by an electric motor, wherein a range that introduces the air flow is defined between the fluid escape route (1060) and the external heat exchanger (1021) for pumping in the external air flow (1051) of the external temperature differentiation space (130) and for pumping the exhaust fluid from the object space of air conditioning (105) with a temperature differentiation and pumped from the air conditioning object space (120) through the exhaust quantity regulator device (1061) and the fluid escape route (106), from this way allowing two air flows to exchange heat and CLXVII then they are discharged to the external temperature differentiation space (130) through the external heat exchanger (1021); refrigerant fluid pipe (103), consisting of a piping device for connecting the external main station of the air conditioning device, of the divided type (2007) and the external heat exchanger (1021) and the flow regulating device (202) ) and the internal heat exchanger (203) of the internal unit of the air conditioning device, of the divided type (2006), for the purpose of circulation, wherein the internal part of the pipe allows the through flow of state refrigerant -gas or liquid state; the exhaust quantity regulating device (1061), constituted by a gate for fluid, stopcock or valve to operate and regulate the amount of escape of the exhaust fluid from the space conditioned by air (105); the fluid escape route (1060), constituted by a fluid passage structure for discharging the escape amount of the exhaust fluid from the air conditioning object space (105) from the air conditioning object space (120); the refrigerant fluid line (103) and the fluid discharge path (1060) can be installed individually or jointly constituted as a pipe structure. CLXVIII

19. An air conditioning device that uses differentiation of exhaust gas temperature to uniformize the temperature of the external heat exchanger according to claim 15, characterized in that the main configuration is to install an outdoor unit of the air conditioning device, of type divided (2002), consisting of an external heat exchanger (1021) and an external main station of the air conditioning device, of the divided type (2007), and installing an internal unit of the air conditioning device, of the divided type ( 2006), composed of an internal heat exchanger (203), a flow regulating device (202), a control device (201), a fan of air conditioning flow (204), and forming a circulation loop and compression of refrigerant built by a refrigerant fluid line (103) installed between the two previous ones, and a separate pump plant (1041) and an exhaust quantity regulating device (1061) in the thermal insulation device (110), and installing a fluid escape route (1060) in the air conditioning object space (120), between the exhaust quantity regulator device (1061), blower pump (1041) and external heat exchanger (1021); where the external unit of the air conditioning device, split type (2002), installed with the CLXIX station external main of the air conditioning device, split type (2007), the external heat exchanger (1021) and the refrigerant fluid line (103), where the main external station of the air conditioning device, of divided type (2007), primarily includes a compression device and forms a compression and circulation loop directed through the refrigerant fluid line (103) to the external heat exchanger (1021) and into the internal heat exchanger (203) and the flow regulating device (202) in the internal unit of the air-conditioning device, of the divided type (2006) installed in the space provided for air conditioning (120); the internal unit of the air conditioning device, of divided type (2006), is installed with the internal heat exchanger (203), the flow regulating device (202), the blower fan for air conditioning flow (204) and provided with a control device (201) for controlling the operations of feeding electrical power and directing the air conditioning device; the thermal insulation device (110) is mounted separately with the exhaust quantity regulating device (1061), the blower pump (1041) and the fluid escape route (1060); the external heat exchanger (1021) of the CLXX unit external of the air conditioning device, split type (2002), is installed with the refrigerant fluid line (103) allowing the refrigerant to flow through to exchange heat with the exhaust fluid of the air conditioning object space (105); refrigerant fluid pipe (103), consisting of a piping device for connecting the external main station of the air conditioning device, of the divided type (2007) and the external heat exchanger (1021) and the flow regulating device (202) ) and the internal heat exchanger (203) of the internal unit of the air conditioning device, of the divided type (2006) for the purpose of circulation, wherein the internal part of the pipe allows the refrigerant to be in a state or gas state. liquid flow through; the blower pump (1041), constituted by an air exhaust fan or air blower unit or an air pump driven by an electric motor, for pumping the exhaust fluid from the air-conditioned space (105), with a relative temperature differentiation from the air conditioning object space (120) through the exhaust quantity regulator device (1061) and the fluid exhaust path (1060) and heat exchange while flowing through the heat exchanger external (1021), then discharged to the external temperature differentiation space (130); the device regulating the exhaust quantity CLXXI (1061), consisting of a gate for fluid, a stopcock or valve to operate and regulate the amount of exhaust fluid escape from the air conditioning object space (105); a fluid escape route (1060), constituted by a fluid passage structure for discharging the exhaust fluid escape amount from the air conditioning object space (105) from the air conditioning object space (120); the refrigerant fluid line (103) and the fluid escape route (1060) may be installed individually or jointly constituted as a pipe structure.

20. An air conditioning device that uses differentiation of exhaust gas temperature to uniformize the temperature of the external heat exchanger according to claim 15, characterized in that the main configuration is to install an external unit of the air conditioning device, of type divided (2002) composed of an external heat exchanger (1021) and an exhaust air blower unit (104) and an external main air conditioning unit, split type (2007), install a unit internal air conditioning device, divided type (2006), composed of an internal heat exchanger (203), a flow regulating device (202), a CLXXII device control (201) and a blower fan for air conditioning flow (204), forming a circulation and refrigerant compression loop constructed by a refrigerant fluid line (103), installed between the two previous ones, and mounting a blower pump separately (1041) and an exhaust quantity regulating device (1061) in the thermal insulation device (110), and installing a fluid escape route (1060) and introducing external air flow (1051) into the space being conditioned of air (120) between the exhaust quantity regulating device (1061), the blower pump (1041) and the external heat exchanger (1021); where the external unit of the air conditioning device, of the divided type (2002), installed with the main and external station of the air conditioning device, divided type (2007), the external heat exchanger (1021), the refrigerant fluid line (103) and the air flow exhaust fan unit (104), wherein the external main station of the conditioning device air, split type (2007) primarily includes a compression device and forms a compression and circulation loop directed through the refrigerant fluid line (103) to the external heat exchanger (1021) and to the heat exchanger internal (203) and the flow regulating device (202) in the internal unit of the air conditioning device, of the divided type (2006) CLXXIII installed in the space conditioned by air (120); the internal unit of the air conditioning device, of divided type (2006) is installed with the internal heat exchanger (203), the flow regulating device (202), the air conditioning flow blower (204) and provides with a control device (201) for controlling operations of feeding electrical power and directing "the air conditioning device; the thermal insulation device (110) is. mounts separately with the exhaust quantity regulator device (1061), the blower pump (1041) and the fluid exchange path (1060); the external heat exchanger (1021) of the external unit of the air conditioning device, of split type (2002), is installed with the refrigerant fluid line (103), allowing the refrigerant to flow through to exchange heat with the flow of external air (1051) of the external temperature differentiation space (130) in the external heat exchanger (1021) and the exhaust fluid of the air conditioning object space (105); the air flow exhaust fan unit of the external heat exchanger (104) installed in the external unit of the air conditioning device, of the divided type (2002), is constituted by a unit of CLXXIV air flow exhaust fan or air flow blower or an air pump driven by an electric motor, wherein a range that introduces air flow is defined between the fluid exhaust path (1060) and the heat exchanger external (1021) for pumping in the external air flow (1051) of the external temperature differentiation space (130) and for pumping the exhaust fluid from the air-conditioned space (105) with a temperature differentiation and pumping from the space provided for air conditioning (120) by the exhaust quantity regulator device (1061) and the fluid escape route (106), thereby allowing two air exchanges to exchange heat to be discharged to the differentiation space of external temperature (130) through the external heat exchanger (1021); refrigerant fluid pipe (103), consisting of a piping device for connecting the external main station of the air conditioning device, of the divided type (2007) and the external heat exchanger (1021) and the flow regulating device (202) ) and the internal heat exchanger (203) of the internal unit of the air conditioning device, of the divided type (2006) for the purpose of circulation, wherein the internal part of the pipe allows the state coolant to flow through. gas or liquid state; the exhaust quantity regulator device (1061), CLXXV constituted by a gate for fluid, a stopcock or valve for operating and regulating the amount of escape of the exhaust fluid from the space conditioned by air (105); the fluid escape route (1060), constituted by a fluid passage structure for discharging the escape amount of the exhaust fluid from the air conditioning object space (105) from the air conditioning object space (120); the refrigerant fluid line (103) and the fluid escape route (1060) can be installed individually or jointly constituted as a pipe structure.

21. An air conditioning device that uses differentiation of exhaust gas temperature to uniformize the temperature of the external heat exchanger according to claim 15, characterized in that the main configuration is to install an external unit of the air conditioning device, of type divided (2002) composed of an external heat exchanger (1021) and an exhaust air blower unit (104), install an external main air conditioning device, split type (2007), which is installs individually, and install an internal unit of the air conditioning diapoaitivo, of divided type (2006) composed of an internal heat exchanger (203), A CLXXVI flow regulating device (202), a control device (201), an air conditioning flow blower fan (204) and an exhaust quantity regulator device (1061) and form a refrigerant circulation and compression loop constructed by a refrigerant fluid pipe (103), installed between the three previous ones and installing a fluid escape route (1060) and introducing the external air flow (1051) in the air conditioning object space (120) between the regulating device of exhaust quantity (1061) and external heat exchanger (1021); where the external unit of the air conditioning device, split type (2002), installed with the external heat exchanger (1021), the refrigerant fluid line (103), the air flow exhaust fan unit (104) and the external main station of the air conditioning device, of divided type (2007), installed individually, in 'where the main external station of the air conditioning device, of divided type (2007) primarily includes a compression device that forms a compression and circulation loop directed through the refrigerant fluid line (103) to the external heat exchanger (1021) and to the internal heat exchanger (203) and the flow regulating device (202) in the internal unit of the air conditioning device, divided type (2006), installed in the space object of CLXXVII air conditioning (120); the internal unit of the air conditioning device, of divided type (2006) is installed with the internal heat exchanger (203), the flow regulating device (202), the air conditioning flow blower (204) and provided with a control device (201) for controlling operations of feeding electrical power and directing the air conditioning device; the internal unit of the air conditioning device, of divided type (2006) is furthermore installed with the exhaust quantity regulating device (1061) and the fluid escape route (1060); The external heat exchanger (1021) of the external unit of the air conditioning device, of the split type (2002), is installed with the refrigerant fluid line (103) allowing the refrigerant to flow through to exchange heat with the flow of air. external air (1051) of the external temperature differentiation space (130) in the external heat exchanger (1021) and the exhaust fluid of the air conditioning object space (105); the air flow exhaust fan unit of the external heat exchanger (104) installed in the external unit of the air conditioning device, of the split type (2002), is constituted by a fan unit for exhausting the air flow or blower of CLXXVIII air flow or an air pump driven by an electric motor, wherein a range introducing air flow is defined between the fluid escape route (1060) and the external heat exchanger (1021), to pump in the flow of external air (1051) of the external temperature differentiation space (130) and to pump the exhaust fluid from the air-conditioned space (105) with a temperature differentiation and pumped from the air-conditioned space (120 ) through the exhaust quantity regulator device and the fluid escape route (106), thereby allowing two air exchanges exchanging heat to be then discharged to the external temperature differentiation space (130) through the exchanger of external heat (1021); refrigerant fluid pipe (103), consisting of a pipe device for connecting the external main station of the air conditioning device, of split type (2007), which is installed individually and the external heat exchanger (1021) and the device flow regulator (202) and the internal heat exchanger (203) of the internal unit of the air conditioning device, of divided type (2006), for the purpose of circulation, wherein the internal part of the pipe allows the flow refrigerant intern in gas-state or liquid-state; the exhaust quantity regulator device (1061), CLXXIX constituted by a gate for fluid, a stopcock or valve for operating and regulating the amount of escape of the exhaust fluid from the space conditioned by air (105); fluid escape route (1060), constituted by a fluid passage structure for discharging the escape amount of the exhaust fluid from the air conditioning object space (105) from the air conditioning object space (120); the refrigerant fluid line (103) and the fluid escape route (1060) may be installed individually or jointly constituted as a pipe structure.

22. An air conditioning device that uses differentiation of exhaust gas temperature to uniformize the temperature of the external heat exchanger according to claim 15, characterized in that the main configuration is to install an external unit of the air conditioning device, of type divided (2002), consisting of an external heat exchanger (1021), install an external main station of the air conditioning device, split type (2007), which is installed individually and install an internal unit of the air conditioning device , divided type (2006), composed of an internal heat exchanger (203), a flow regulating device (202), a CLXXX device control (201), a blower fan of air conditioning flow (204), a blower pump (1041) and an exhaust quantity regulator device (1061), and form a circulation and compression loop of refrigerant constructed by a pipe of coolant fluid (103), installed between the three previous ones and installing a fluid escape route (1060) in the air conditioning object space (120) between the exhaust quantity regulator device (1061), the blower pump ( 1041) and the external heat exchanger (1021); wherein the external unit of the air conditioning device, of split type (2002), installed with the external heat exchanger (1021), the refrigerant fluid line (103), and the external main station of the air conditioning device , divided type (2007), installed individually, where the main external station of the air conditioning device, divided type (2007) primarily includes a compression device that forms a compression loop and circulation directed through the pipeline of coolant fluid (103) to the external heat exchanger (1021) and to the internal heat exchanger (203) and the flow regulating device (202) in the internal unit of the air-conditioning device, of the divided type (2006) ), installed in the air conditioning object space (120); the internal unit of the conditioning device CLXXXI air, split type (2006) is installed with the internal heat exchanger (203), the flow regulating device (202), the air conditioning flow blower fan (204) and provided with a control device (201) ), to control operations of feeding electrical power and directing the air conditioning device; the internal unit of the air conditioning device, of divided type (2006) is furthermore installed with the exhaust quantity regulating device (1061), blower pump (1041) and the fluid escape route (1060); The external heat exchanger (1021) of the external unit of the air conditioning device, of split type (2002), is installed with the refrigerant fluid line (103) allowing the refrigerant to flow through to exchange heat with the fluid of escape from the air-conditioned space (105); refrigerant fluid pipe (103), consisting of a pipe device for connecting the external main station of the air conditioning device, of divided type (2007), which is installed individually and the external heat exchanger (1021) and the device flow regulator (202) and the internal heat exchanger (203) of the internal unit of the air conditioning device, of divided type (2006), for the purpose of circulation, wherein the internal part of the pipe allows it to flow through the coolant in CLXXXII state-gas or state-liquid; the blower pump (1041), constituted by an air exhaust fan or air blower unit or an air pump driven by the electric motor, for pumping the exhaust fluid from the air conditioning object space (105) with a relative temperature differentiation of the air conditioning object space (120) through the exhaust quantity regulator device (1061) and the fluid exhaust path (1060) and flowing through the external heat exchanger (1021) is then discharging to the external temperature differentiation space (130); the exhaust quantity regulating device (1061), constituted by a gate for fluid, a stopcock or valve for operating and regulating the amount of escape of the exhaust fluid from the space conditioned by air (105); the fluid escape route (1060), constituted by a fluid passage structure for discharging the escape amount of the exhaust fluid from the air conditioning object space (105) of the air conditioning object space (120); the refrigerant fluid line (103), and the fluid escape route (1060) may be installed individually or jointly constituted as a pipe structure.

23. An air conditioning device CLXXXIII which uses exhaust gas temperature differentiation to uniformize the temperature of the external heat exchanger according to claim 15, characterized in that the main configuration is to install an external unit of the air conditioning device, of split type (2002) composed of an external heat exchanger (1021) and a fan unit for exhaust air flow (104), install an external main station of the air conditioning device, split type (2007) that is installed individually, and install a unit internal of the air conditioning device, of divided type (2006), composed of an internal heat exchanger (203), a flow regulating device (202), a control device (201) and an air flow blower fan conditioning (204) and form a refrigerant compression and circulation loop constructed by a refrigerant fluid line (103) installed between the above three and separately assemble an exhaust quantity regulator device (1061) in the thermal insulation device (110) and install a fluid escape route (1060) and introduce external air flow (1051) in the object space of air conditioning (120) between the exhaust quantity regulating device (1061) and the external heat exchanger (1021); wherein the external unit of the air conditioning device, divided type (2002), CLXXXIV installed with the external heat exchanger (1021), the refrigerant fluid line (103), the air flow exhaust fan unit (104) and the external main air conditioning unit, of the split type (2007) ), individually installed, wherein the main external station of the air conditioning device, of the split type (2007), primarily includes a compression device and forms a compression and circulation loop directed through the refrigerant fluid line (103). ) towards the external heat exchanger (1021) and towards the internal heat exchanger (203) and the flow regulating device (202) in the internal unit of the air conditioning device, of the divided type (2006) in the object space of air conditioning (120); the internal unit of the air conditioning device, of divided type (2006) is installed with the internal heat exchanger (203), the flow regulating device (202), the air conditioning flow blower fan (204) and it is provided with a control device (201) for controlling the operations of feeding electrical power and directing the air conditioning device; the thermal insulation device (110) is mounted separately with the exhaust quantity regulating device (1061) and the fluid escape route (1060); the external heat exchanger (1021) of the CLXXXV unit The external air conditioning device, split type (2002), is installed with the refrigerant fluid line (103), allowing the refrigerant to flow through to exchange heat with the external air flow (1051) of the differentiation space of external temperature (130) in the external heat exchanger (1021) and the exhaust fluid of the air-conditioned space (105); the air flow exhaust fan unit of the external heat exchanger (104), installed in the external unit of the air conditioning device, of the split type (2002), is constituted by a flow exhaust fan unit air or air flow blower or an air pump driven by an electric motor, wherein the range that introduces the air flow is defined between the fluid escape route (1060) and the external heat exchanger (1021) for pumping in the external air flow (1051) of the external temperature differentiation space (130) and for pumping the exhaust fluid from the air conditioning space (105) with a temperature differentiation and pumped from the space being conditioned of air (120) through the exhaust quantity regulating device (1061) and the fluid escape route (106), thereby allowing two air flows that exchange heat and then be discharged to the acio of external temperature differentiation (130) through the heat exchanger CLXXXVI external (1021); the refrigerant fluid pipe (103), constituted by a pipe device for connecting the external main station of the air conditioning device, of divided type (2007), which is installed individually and the external heat exchanger (1021) and the flow regulating device (202) and the internal heat exchanger (203) of the internal unit of the air conditioning device, of divided type (2006), for the purpose of circulation, wherein the internal part of the pipe allows flow through the refrigerant in gas or liquid state; the exhaust quantity regulating device (1061), constituted by a gate for fluid, stopcock or valve to operate and regulate the amount of escape of the exhaust fluid from the space conditioned by air (105); fluid escape route (1060), constituted by a fluid passage structure for discharge of the exhaust fluid escape amount from the air conditioning object space (105), from the air conditioning object space (120); the refrigerant fluid line (103) and the fluid escape route (1060) can be installed individually or jointly constituted as a pipe structure.

24. An air conditioning device CLXXXVII which uses exhaust gas temperature differentiation to uniformize the temperature of the external heat exchanger according to claim 15, characterized in that the main configuration is to install an outdoor unit of the air conditioning device, of split type (2002) composed of an external heat exchanger (1021), install an external main station of the air conditioning device, split type (2007) that is installed individually and install an internal unit of the air conditioning device, split type (2006), composed of an internal heat exchanger (203), a flow regulating device (202), a control device (201) and a blower fan of air conditioning flow (204) and form a compression and circulation loop of built coolant by a refrigerant pipe (103) installed between the three previous ones, and separately mount a blower pump (1 041) and an exhaust quantity regulating device (1061) in the thermal insulation device (110), and installing a fluid escape route (1060) in the air conditioning object space (120) between the regulating device of exhaust quantity (1061), blower pump (1041) and external heat exchanger (1021); where the external unit of the air conditioning device, split type (2002) installed with the CLXXXVIII exchanger of external heat (1021), the refrigerant fluid line (103) and the external main station of the air conditioning device, of the divided type (2007), wherein the external main station of the air conditioning device, of the divided type (2007), primarily include a compression device and form a compression and circulation loop directed through the refrigerant fluid line (103) to the external heat exchanger (1021) and into the internal heat exchanger (203) and a flow regulating device (202) in the internal unit of the air conditioning device, of the divided type (2006) installed in the space provided for air conditioning (120); the internal unit of the air conditioning device, of divided type (2006) is installed with the internal heat exchanger (203), the flow regulating device (202), the air conditioning flow blower fan (204) and provides with a control device (201) for controlling operations of feeding electrical power and directing the air conditioning device; the thermal insulation device (110) is mounted separately with the exhaust quantity regulating device (1061), the blower pump (1041) and the fluid escape route (1060); the external heat exchanger (1021) of the CLXXXIX unit external of the air conditioning device, split type (2002) is installed with the refrigerant fluid line (103) allowing the refrigerant to flow through to exchange heat with the exhaust fluid of the air conditioning object space (105); the refrigerant fluid line (103), constituted by a pipe device for connecting the external main station of the air conditioning device, of divided type (2007) and the external heat exchanger (1021) and the flow regulating device ( 202) and the internal heat exchanger (203) of the internal unit of the air conditioning device, of the divided type (2006) for the purpose of circulation, wherein the inner part of the pipe allows the refrigerant to flow through in state -gas or liquid-state; the blower pump (1041), constituted by a fan unit for air exhaust or air blower or the air pump driven by an electric motor, to pump the exhaust fluid from the air conditioning space (105), with a relative temperature differentiation of the air conditioning object space (120) through the exhaust quantity regulator device (1061) and the fluid exhaust path (1060) and flows through the external heat exchanger (1021) then it is discharged to the external temperature differentiation space (130); the exhaust quantity regulator device (1061), cxc constituted by a gate for fluid, a stopcock or valve for operating and regulating the amount of escape of the exhaust fluid from the space conditioned by air (105); the fluid escape route (1060), constituted by a fluid passage structure for discharge of the exhaust fluid escape amount from the air conditioning object space (105) from the air conditioning object space (120); the refrigerant fluid line (103) and the fluid escape route (1060) can be installed individually or jointly constituted as a pipe structure.

25. An air conditioning device that uses differentiation of exhaust gas temperature to uniformize the temperature of the external heat exchanger according to claim 15, characterized in that the main configuration is to install an external unit of the air conditioning device, of type divided (2002), composed of an external heat exchanger (1021) and an airflow exhaust fan unit (104), install an external main air conditioning device, of the split type (2007) that is installs individually, and install an internal unit of the air conditioning device, split type (2006), composed of an internal heat exchanger (203), CXCI a flow regulating device (202), a control device (201) and an air conditioning flow blower fan (204), and forming a refrigerant circulation and compression loop constructed by a refrigerant fluid line (103) installed between the previous three, and separately assemble a blower pump (1041) and an exhaust quantity regulating device (1061) in the thermal insulation device (110), and install a fluid escape route (1060) and introduce flow of external air (1051) in the air-conditioned space (120) between the exhaust quantity regulating device (1061), the blower pump (1041) and the external heat exchanger (1021); where the external unit of the air conditioning device, split type (2002), installed with the external heat exchanger (1021), the refrigerant fluid line (103), the air flow exhaust fan unit (104) and the external main station of the air conditioning device, split type (2007) individually installed, wherein the main external station of the air conditioning device, of divided type (2007) mainly includes a compression device and forms a loop of compression and circulation directed through the refrigerant fluid line (103) to the external heat exchanger (1021) and to the internal heat exchanger (203) and the flow regulating device (202) in the internal unit CXCII of the air conditioning device, of the divided type (2006) installed in the air conditioning object space (120); the internal unit of the air conditioning device, of divided type (2006) is installed with the internal heat exchanger (203), the flow regulating device (202), the air conditioning flow blower fan (204) and it is provided with a control device (201) for controlling the operations of feeding electrical power and directing the air conditioning device; the thermal insulation device (110) is mounted separately with the exhaust quantity regulating device (1061), the blower pump (1041) and the fluid escape route (1060); The external heat exchanger (1021) of the external unit of the air conditioning device, of the split type (2002) is installed with the refrigerant fluid line (103), allowing the refrigerant to flow through to exchange heat with the flow of air. external air (1051) of the external temperature differentiation space (130) in the external heat exchanger (1021) and the exhaust fluid of the air conditioning object space (105); the exhaust fan unit for air flow of the external heat exchanger (104) installed in the external unit of the air conditioning device, of CXCIII divided type (2002), is constituted by an exhaust fan unit for air flow or air flow blower or an air pump driven by an electric motor, wherein a range for introduction of air flow, is defined between the fluid escape route (1060) and the external heat exchanger (1021) for pumping in the external air flow (1051) of the external temperature differentiation space (130) and for pumping the exhaust fluid from the space of the air conditioning (105) with a temperature differentiation and pumped from the air conditioning object space (120) through the exhaust quantity regulating device and the fluid escape route (1061), in this way allowing two air exchanges exchanging heat are then discharged to the external temperature differentiation space (130) through the external heat exchanger (1021); the refrigerant fluid pipe (103), constituted by a pipe device for connecting the external main station of the air conditioning device, of divided type (2007) that is installed individually and the external heat exchanger (1021) and the device flow regulator (202) and the internal heat exchanger (203) of the internal unit of the air conditioning device, of the divided type (2006) for the purpose of circulation, wherein the internal part of the pipe allows flow through the refrigerant in CXCIV state-gas or state-liquid; the exhaust quantity regulating device (1061), constituted by a gate for fluid, a stopcock or valve for operating and regulating the amount of escape of the exhaust fluid from the space conditioned by air (105); the fluid escape route (1060), constituted by a fluid passage structure for discharging the escape amount of the exhaust fluid from the air conditioning object space (105) from the air conditioning object space (120); the refrigerant fluid line (103) and the fluid escape route (1060) can be installed individually or jointly constituted as a pipe structure.