TH127155A - Air conditioning unit - Google Patents

Abstract

DC60 (07/11/60) Air conditioning unit with a cooling cycle in which the compressor Exchange machine Hot outside the building 1st flow regulator First indoor heat exchanger, second flow regulator. And the second indoor heat exchanger will be connected circularly. It is unique in that the second flow regulator is equipped with a multi-directional valve. Parallel connection with a flow squeezer with a porous-permeable component welded in the flow direction. Of the cooling agent in the flow corridor ------ 07/11/2017 ------ (OCR) page 1 of number 1 page invention summary A set of air conditioners with a cooling cycle in which the compressor Exchange machine Hot outside the building 1st flow regulator First indoor heat exchanger, second flow regulator. And the second indoor heat exchanger will be connected circularly. It is unique in that the second flow regulator is equipped with a multi-directional valve. Parallel connection with a flow squeezer with a porous-permeable component welded in the flow direction. Of the cooling agent in the flow corridor ------------ ------ 07/11/2017 ------ (OCR) Page 1 of the number 1 page Summary Invention A set of air conditioners with a cooling cycle in which the compressor Exchange machine Hot outside the building 1st flow regulator First indoor heat exchanger, second flow regulator. And the second indoor heat exchanger will be connected circularly. It is unique in that the second flow regulator is equipped with a multi-directional valve. Parallel connection with flow squeezing devices with porous permeable parts welded in the flow direction. Of the cooling agent in the flow corridor ------------ Cool cycle equipment in this invention Has the appearance of assembling a set of equipment 2nd set flow control with multi-sided valve With the flow squeezer that is a soundproof gap at the entrance 19, the metal creates a bubble 20 at the inlet side. Cooling holes, 23 metal openings, 25 outlet side bubbles and soundproofing gaps at the outlet.

Claims (8)

Disclaimer (all) which will not appear on the advertisement page. : ------ 07/11/2017 ------ (OCR) Page 1 of 2 pages Disclaimer 1. A set of air conditioners with a cooling cycle in which the compressor Exchanger Outdoor heat 1st flow regulator First indoor heat exchanger Second flow regulator And the second indoor heat exchanger is connected in a circular motion, which has a unique characteristic is that the second flow regulator is assembled with a multi-directional valve. Are connected in parallel with a flow squeezing device with at least two porous-permeable components, and at least one of the porous-permeable components is positioned at the upper current of the porous cavity. And at least one of the parts The permeable poros are located at the lower current of the pores relative to the flow direction of the refrigerant through the opening. 2. Air conditioning unit according to claim 1, where the refrigerant is made to flow. to A second flow regulator in at least one of the following operations (1) operating where the latent heat ratio is reduced (2) cooling or dehumidification with heating operation ( 3) at the start of the heating operation and (4) in the case where the difference between this temperature And the room temperature is the same or greater than the value at Was defined in the heating function. 3. A set of air conditioners with a cooling cycle. In which the compressor Exchanger Outdoor heat First flow control valve First indoor heat exchanger, second flow control valve And the second indoor heat exchanger is connected in order to be assembled with rotatable support parts in the main body. A second flow control valve, which has at least one opening, for the flow squeegee, the refrigerant and at least two porous-permeable components, placed in the immediate vicinity of the slit. open To form the integral flow compressors, the refrigerant converts through the openings. Thus, the switch is influenced during cases where the internal heat exchanger The first building is connected to the heat exchanger inside the second building throughout the compression section. The flow consists of porous, permeable parts and openings and a case where the heat exchanger Inside the first building, it was welded to the second indoor heat exchanger throughout the interior. Of main body A valve that passes through the flow squeezing by rotating the support in the main valve body of the valve. Second flow control 4. Air conditioning unit according to claim 3, where the flow squeeze, including porous parts, permeates. Yes, with a number of openings, each with a different flow resistance. For this reason, when the 2-page unit of the first 2-page heat exchanger is connected to the internal heat exchanger, The second building throughout the section squeezes the flow. Flow resistance between heat exchangers Inside the first building And the second indoor heat exchanger was changed by Connect the optional opening through which the refrigerant passes through it by rotating the supporting parts. 5. Air conditioning unit according to claim 3 or 4, where the unit results in the switching between Cooling / Reheating / Dehumidification Operation Where the refrigerant is Circulating in the sequence of the compressor Outdoor heat exchanger First flow control valve, first indoor heat exchanger Second flow control valve and second indoor heat exchanger And the heating / reheating / dehumidification operation where the refrigerant is circulated in the trunk. Quench the compressor Exchanger Second indoor heating Second flow control valve One indoor heat exchanger, one flow control valve And the heat exchanger outside the building by changing the cooling cycle And which the flow resistance of the second flow control valve was Changes during cooling / re-heating / dehumidification and heating / re-heating / dehumidification operations 6. A set of air conditioners according to one of the claims entitled 3 to 5 where the porous part penetrates They were arranged sequentially so that at least one porous-permeable component was located at the upper current and at least one perforated part was set at the lower current of the porous cavity. And the silencer that is attached to As for the main body, the valve is placed on the upper current or the lower current in relation to the flow of Refrigerant through porous, permeable parts ------------ ------ 07/11/2017 ------ (OCR) Page 1 of 2 pages Hold the right 1. A set of air conditioners with a cycle that cools in which the compressor Exchanger Outdoor heat 1st flow regulator First indoor heat exchanger Second flow regulator And the second indoor heat exchanger is connected in a circular motion, which has a unique characteristic is that the second flow regulator is assembled with a multi-directional valve. Are connected in parallel with a flow squeezing device with at least two porous-permeable components, and at least one of the porous-permeable components is positioned at the upper current of the porous cavity. And at least one of the parts The permeable poros are located at the lower current of the pores relative to the flow direction of the refrigerant through the opening. 2. Air conditioning unit according to claim 1, where the refrigerant is made to flow. to A second flow regulator in at least one of the following operations (1) operating where the latent heat ratio is reduced (2) cooling or dehumidification with heating operation ( 3) at the start of the heating operation and (4) in the case where the difference between this temperature And the room temperature is the same or greater than the value at Was defined in the heating function. 3. A set of air conditioners with a cooling cycle. In which the compressor Exchanger Outdoor heat First flow control valve First indoor heat exchanger, second flow control valve And the second indoor heat exchanger is connected in order to be assembled with rotatable support parts in the main body. A second flow control valve, which has at least one opening, for the flow squeegee, the refrigerant and at least two porous-permeable components, placed in the immediate vicinity of the slit. open To form the integral flow compressors, the refrigerant converts through the openings. Thus, the switch is influenced during cases where the internal heat exchanger The first building is connected to the heat exchanger inside the second building throughout the compression section. The flow consists of porous, permeable parts and openings and a case where the heat exchanger Inside the first building, it was welded to the second indoor heat exchanger throughout the interior. Of main body A valve that passes through the flow squeezing by rotating the support in the main valve body of the valve. Second flow control 4. Air conditioning unit according to claim 3, where the flow squeeze, including porous parts, permeates. Yes, with a number of openings, each with a different flow resistance. For this reason, when the 2-page unit of the first 2-page heat exchanger is connected to the internal heat exchanger, The second building throughout the section squeezes the flow. Flow resistance between heat exchangers Inside the first building And the second indoor heat exchanger was changed by Connect the optional opening through which the refrigerant passes through it by rotating the supporting parts. 5. Air conditioning unit according to claim 3 or 4, where the unit results in the switching between Cooling / Reheating / Dehumidification Operation Where the refrigerant is Circulating in the sequence of the compressor Outdoor heat exchanger First flow control valve, first indoor heat exchanger Second flow control valve and second indoor heat exchanger And the heating / reheating / dehumidification operation in which the refrigerant is circulated in the trunk. Quench the compressor Exchanger Second indoor heating Second flow control valve One indoor heat exchanger, one flow control valve And outdoor heat exchanger by changing the cooling cycle And which the flow resistance of the second flow control valve was Changes during cooling / re-heating / dehumidification and heating / re-heating / dehumidification operations 6. A set of air conditioners according to one of the claims held at 3 to 5 where the porous part penetrates They were arranged sequentially so that at least one porous-permeable component was located at the upper current and at least one perforated part was set at the lower current of the porous cavity. And the silencer that is attached to As for the main body, the valve is placed on the upper current or the lower current in relation to the The refrigerant through porous parts permeates ------------ 1.Cooling cycle device In which the cooling cycle is connected in a circular motion through the compressor Air condenser Flow regulators and vapor transducers respectively with the characteristics that A flow control device consisting of a multi-way valve connected in Parallel to the flow squeezer with porous parts. Permeable at least two parts in contact with direction. The flow of the refrigerant The flow squeeze device is located in the intermediate flow path where Has been divided into the vaporizer And the two gas / liquid state refrigerants are Make it through the flow squeezing device where the flow squeezer consists of open holes and porous parts. At least one part is positioned at the source of the opening, and the perforated part is highly permeable. At least one part is placed at the end of the opening in relation to the flow direction of the substance. Coolness to the opening It also has a characteristic that the gap is determined between the opening and the porous part. Permeable at least one component. 2.Cooling cycle device In which the cooling cycle is connected in a circular motion through the compressor Air condenser Flow regulators and vaporizers, respectively, with the characteristics that A flow control device consisting of a multi-way valve connected in Parallel to the flow squeezer with porous parts. Permeable at least two parts in contact with direction. The flow of the refrigerant The flow squeeze device is located in the intermediate flow path where Has been divided into the vaporizer And the two gas / liquid state refrigerants are Make it through to the flow squeezing device where the flow squeeze device consists of an opening and a porous part. At least one part is positioned at the source of the opening, and the perforated part is highly permeable. At least one part is placed at the end of the opening in relation to the flow direction of the substance. Coolness to the opening It is also characterized by the fact that the cavity is positioned at the source of the porous part. Can pass at least one piece It is positioned at the source of the opening or the end of the perforated part, which is positioned at the end of the opening. 3. The cold cycle device according to claim 1 has the peculiarity that the multi-pass valve is Off in re-heating / dehumidification operations 4. Refrigeration cycle equipment according to claim 1 or 2 consisting of Internal machine With a heat exchanger placed in a cabinet for exchanging heat with the air inside And a flow squeeze device is interpolated between the cabinet and the heat exchanger. 5.Cooling cycle device In which the cooling cycle is connected in a circulating air through the compressor, condenser Flow control device And a vaporizer, respectively, consisting of the shoulder, main tongue and main tongue. Which can be opened and closed in contact with and separated from each other in the flow control valve chamber Indirect flow path For flow indirect The part that has been closed in the tongue chamber when the main tongue shoulder and main tongue are closed. And a flow squeeze, which consists of two porous, permeable parts arranged in an indirect and consecutive flow path in the direction of the refrigerant flow. Where the refrigerant two states at As gas / liquid is passed through the flow squeeze. And the indirect flow path, consisting of open holes and porous-permeable parts, is arranged in such a way that one or more of the porous parts are the source of the open holes and the porous parts are permeable. At least one piece was the source. Of open holes and one or more perforated parts are set at the end of the Relative to the flow direction of the refrigerant through the opening 6.Cooling cycle device In which the cooling cycle is connected in a circulating air through the compressor, condenser Flow control device And a sequential vaporizer consisting of a main flap body with a flow path opening up to the side wall of the tongue chamber. Flow control device The main tongue shoulder with a second flow path opens to the bottom of the tongue chamber and The main valve body is positioned in the tongue chamber and can be closed at the main valve seat where the main throttle. It consists of the body, main tongue and main tongue shoulders. Alternate flow squeezer using a porous, permeable component Prepare before and after the main flow squeeze section. And the two gas / liquid state refrigerants Is made through to the secondary flow squeeze 7. Cooling cycle equipment according to one of the previous claims. Has a unique feature that The refrigerant used has less pressure loss than that of R22 refrigerant. 8.Cooling cycle device In which the cooling cycle is connected in a circulating air through the compressor, condenser Flow control device And the respective vaporizer has the characteristics that the flow control device consists of Flow squeezing device for controlling Refrigerant flow in refrigeration cycle equipment Flow squeezing devices that include openings, first and second perforated parts away from the opening The first perforated part Is set at the source of the opening in relation to the flow direction of the refrigerant. Porous perforated parts The second passability is set at the end of the opening in relation to the flow direction of the coolant, the opening, the first and second permeable porous parts distant from the opening. The first perforated part Is set at the source of the opening in relation to the flow direction of the refrigerant. Porous perforated parts The second passability is set at the end of the opening in relation to the flow direction of the refrigerant. The gap eliminates the first and second noise. The chambers eliminate the noise that one is set at the source. Of a porous part permeable at one And the second noise-elimination chambers were set at the end of the second permeable porous part relative to the two-state refrigerant flow directions where the first and second noise-eliminating chambers were located. The opening and the first and second permeable porous parts are Placed in a state roughly in a straight line