TH53309B - A series of heat pumps, injectionable compressors and manufacturing methods. Injectable coil compressors - Google Patents

Abstract

DC60 (22/03/53) This invention is intended to prevent the non-fully compressed refrigerant from being able to flow in the injection cycle One compressor will consist of compression sections 1 and 2, which form a compression chamber 20, and the suction refrigerant is sucked into the compression chamber 20, where the suction refrigerant is pumped. Such suction will be compressed from the suction pressure to the pressure for discharge and injection. Refrigerant which injects the injection refrigerant into the medium pressure section of higher value. The suction pressure is lower than the discharge pressure in the compression chamber. The part where the refrigerant is injected will It consists of a refrigerant inlet chamber 1e where the injection refrigerant will It moves from the injection cycle into the interior via the injection pipe 41 and the valve chamber 1f connected to the chamber. Intake refrigerant 1e and the middle compression part of the compression chamber 20. The valve chamber 1f is provided with a pass-through port for connection to the refrigerant inlet chamber 1e and welded pipes. connected to the intermediate pressed part on the same surface in the room. The flap chamber 1f is provided with flap 30, which opens and closes the passage for connection to the refrigerant inlet chamber 1e according to the pressure difference between the refrigerant on the refrigerant side. Refrigerant inlet chamber 1e and refrigerant on the side that is the middle compression part.

Claims (4)

Disclaimer (all) which will not appear on the advertisement page: EDIT 4/1/2016 1. Set of heat pump unit, which includes - main cooling circuit consisting of compressor, cooler Hot, first expansion valve and evaporator chamber connected in series - an injection circuit that connects part of the cooler and the expansion valve One of the main cooling and injection circuits installed on the compressor, wherein the injection circuit has The second expansion valve and - the mechanism that closes the flow channel between the injection tube on the compressor and the compression chamber. The second expansion valve is reduced in size and opens a passage between the injection pipe on the compressor and the compression chamber. As the second tongue opening expands, there is an increase in size. Where the said mechanism includes - the inlet refrigerant chamber provided in the flow channel, where the refrigerant chamber The refrigerant enters the inlet from the injection cycle through the injection tube and the valve chamber provided in the flow channel between the refrigerant chamber. And the compression chamber where the valve chamber is connected to the inlet refrigerant chamber and the compression chamber. The valve chamber has a passageway for connecting to the inlet refrigerant chamber. And a passage for connection to the compression chamber, which is built on the same floor surface of the chamber. The valve consists of a valve that opens and closes the passageway for connection to the chamber. It receives refrigerant flowing based on the difference of pressure between the refrigerant on the chamber side. Receive refrigerant inflow and refrigerant on the compressed chamber side and Where the valves are placed in such a way that they can move in the direction of movement As predetermined in the valve chamber and holes are made in the position overlapping the passage. For connection to the compression chamber when the inlet cooling chamber is closed 2. Set of heat pump units according to claim 1, where the said mechanism is operated by Adhere to the pressure difference between the refrigerant flowing in the cooling main circuit and the 3. The set of heat knot according to claim 1, where the flaps are parts. 4. An injectionable compressor that includes - the extruded part that is used to make the compression chamber and to compress the suction refrigerant that is sucked into the compressor. The chamber is compressed from suction pressure to discharge pressure and - a refrigerant injection section where refrigerant is injected into the presence Medium pressure at which the suction refrigerant has a medium pressure which is higher than that of the refrigerant. For suction and below the discharge pressure in the compression chamber prepared by the compressed part Where the refrigerant injection part includes - the inlet refrigerant chamber through which the injection refrigerant enters from the outside area and - the flap chamber connected to the chamber. Get refrigerant flowing in and pressurized parts. Medium of the compression chamber and a passage for connection to the inlet refrigerant chamber is made And a pass-through for connection to the compression chamber that is built on the same surface in the valve chamber The chamber has a valve that opens and closes the passageway for connection to the The refrigerant chamber is fed based on the difference of pressure between the refrigerant on the Inlet and refrigerant chamber on the compressed chamber side Where the valves are placed in such a way that they can move in the direction of movement As defined in the room, the tongue opened - closed and a hole was made in the position overlap with the passage. For connection to the compression chamber when the connection port of the inlet refrigerant chamber is closed 5. Compressor capable of injecting according to claim 4, where the valve is a part. 6. Compressors that can be injected according to claim 5, where the valve is a hole. The guide rod is inserted in the direction of movement in the valve chamber. 7. The compressor can be injected according to claim 6, with the said valve chamber being prepared. It is a cylindrical shape with a bottom surface which provides a passage for connection to the exposure chamber. Cold flowing in, and a channel is created for connection to the intermediate compression and Where the valve is a circular articulation piece with holes. The guide holes are fitted with the guide bar to prevent the flaps from turning around. 8. The compressor can be injected according to claim 6, with the valve chamber being prepared. It is a cylindrical shape with a bottom surface which provides a passage for connection to the exposure chamber. And a pass-through for connection to the intermediate and The flaps are cut into a circle with a smaller diameter than the diameter. Of the bottom surface of the chamber, where the valve is provided with a guide hole sized by It is as important as the perimeter of the horizontal cross-section of the guide rod and is significantly shaped. It is similar to the shape of the surrounding area of the guide rod. 9. Compressor capable of injecting according to claim 4, where such compression parts are included - orbital roll parts, which are made of teeth. An orbital loop pattern on the upper surface of Orbital baseplate and - stationary roll piece with a fixed, looped tooth arrangement on the surface. The bottom of the fixed base plate, where the said fixed loop teeth are assembled. With the teeth that form an orbital vortex to form a compression chamber Where the inlet refrigerant chamber is a chamber formed within the base plate. Stationary type protruding from the side resistance area of the fixed base plate and Where the valve chamber is the chamber that is arranged on the top surface of the base plate. 1 0. Compressors that can be injected according to claim 9, where the valve chamber is a chamber. That was created when the back cover is applied over the niche that has been prepared on the top surface of Fixed base plate as mentioned above 1 1. Compressors that can be injected according to claim 9, where such compression parts have The compression chamber is arranged in pairs when the orbital teeth of the orbital roll element are assembled. With fixed loop teeth of fixed roll parts and The valve chamber was arranged in accordance with each compression chamber that was Prepared as a pair 1 2. The compressor capable of injecting according to claim 4, which, as mentioned above, also includes - a hermetically sealed undercarriage that stores the extruded and injectable parts. And - a spray hose installed through the side surface of the hermetically sealed casing to allow the substance to The cooling for injection can flow from outside into the cooling chamber 1 3. Compressor capable of injecting claim 12 with a hermetically sealed enclosure. It consists of - the lower casing and - the top casing, which provides a hermetically sealed gap within the sealed casing. It is securely attached when assembled into the aforementioned casing. Where the hose is installed through the side surface of the lower casing 1 4. Methods for manufacturing an injectable spiral compressor that includes: - Preparation of the orbital vortex dentition on the surface on either side of the orbital plinth - fixed recirculation of the teeth. On the surface on either side of the sheet. Stationary baseplate - Side hole establishment on side of stationary base plate - Surface recess on other side of fixed base plate - Arrangement Make one connection hole on the fixed base plate to connect the matte surfaces. The bottom of the niche and the side holes join together, and the second connecting hole, which will connect the bottom surface of the niche. And the surface on either side of the fixed base plate together - inserting the valve-closed into the recess provided on the fixed base plate where the tongue The opening-closure will open and release the first connection hole. - The rear splice is inserted onto the fixed base plate to allow the articulation. The back covers the recesses of the niches where the valve is inserted - the insert of the orbital plaque, where the orbital tooth is placed into Hermetically sealed enclosures - fixed plinth inserts where fixed, looped teeth are laid down In a hermetically sealed casing to allow the aforementioned fixed loop teeth to be assembled into it. Which is a circular orbital pattern to provide the compression chamber - the suction pipe is connected to the suction opening of the compression chamber where the suction pipe is Allows the suction refrigerant to flow from outside the hermetically sealed casing into the And - the injection pipe is connected to the side hole where the pipe will allow the refrigerant For injecting flow from outside the hermetically sealed casing into the side holes. -----------------------------------------