WO2022012537A1 - 节流阀及换热系统 - Google Patents
节流阀及换热系统 Download PDFInfo
- Publication number
- WO2022012537A1 WO2022012537A1 PCT/CN2021/106024 CN2021106024W WO2022012537A1 WO 2022012537 A1 WO2022012537 A1 WO 2022012537A1 CN 2021106024 W CN2021106024 W CN 2021106024W WO 2022012537 A1 WO2022012537 A1 WO 2022012537A1
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- WIPO (PCT)
- Prior art keywords
- valve
- cavity
- seat
- section
- port
- Prior art date
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25B—REFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
- F25B41/00—Fluid-circulation arrangements
- F25B41/30—Expansion means; Dispositions thereof
- F25B41/38—Expansion means; Dispositions thereof specially adapted for reversible cycles, e.g. bidirectional expansion restrictors
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25B—REFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
- F25B41/00—Fluid-circulation arrangements
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25B—REFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
- F25B41/00—Fluid-circulation arrangements
- F25B41/30—Expansion means; Dispositions thereof
- F25B41/31—Expansion valves
- F25B41/32—Expansion valves having flow rate limiting means other than the valve member, e.g. having bypass orifices in the valve body
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25B—REFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
- F25B41/00—Fluid-circulation arrangements
- F25B41/30—Expansion means; Dispositions thereof
- F25B41/31—Expansion valves
- F25B41/325—Expansion valves having two or more valve members
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25B—REFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
- F25B41/00—Fluid-circulation arrangements
- F25B41/30—Expansion means; Dispositions thereof
- F25B41/31—Expansion valves
- F25B41/33—Expansion valves with the valve member being actuated by the fluid pressure, e.g. by the pressure of the refrigerant
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25B—REFRIGERATION MACHINES, PLANTS OR SYSTEMS; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS
- F25B2341/00—Details of ejectors not being used as compression device; Details of flow restrictors or expansion valves
- F25B2341/06—Details of flow restrictors or expansion valves
Definitions
- the present application relates to the technical field of valves, in particular to a throttle valve and a heat exchange system.
- Throttle valve is mainly used in air-conditioning refrigeration system and is an important part of refrigeration system.
- the two-way throttle valve is mainly used in the heating and cooling air-conditioning system.
- Two throttle valve components are arranged in parallel or in series to realize the two-way flow function.
- the existing throttle valve has many parts, the assembly process is complicated, and the production cost is high.
- the application provides a throttle valve, including:
- a communication piece which is arranged in the valve tube and divides the inside of the valve tube into a first valve cavity and a second valve cavity, and the communication piece is provided with a first cavity, a second cavity, a first channel and a second valve cavity a channel, the first chamber is located at one end of the communication member close to the first valve cavity, the second chamber is located at an end of the communication member close to the second valve cavity, and the first channel communicates the first chamber and the second valve chamber, and the second passage communicates with the second chamber and the first valve chamber;
- a first valve core assembly disposed at the first chamber, to control the on-off between the first passage and the first valve chamber;
- a second valve core assembly disposed at the second chamber, is used to control the connection between the second passage and the second valve chamber;
- the first channel is arranged as a straight channel inclined with respect to the axial direction of the communication member
- the second channel is provided as a straight channel inclined with respect to the axial direction of the communication member.
- the first passage has a first port that communicates with the outer wall of the communicating member, the first passage communicates with the second valve cavity through the first port, and the communicating member is in An annular first groove is provided at the first port of the first channel;
- the second passage has a second port that communicates with the outer wall of the communication member, the second passage communicates with the first valve cavity through the second port, and the communication member is connected to the first valve cavity.
- the second port of the two channels is provided with an annular second groove.
- the communication member is in a columnar structure, an outer middle section of the communication member is provided with an annular outer boss, one of the annular outer boss and the valve tube is provided with a limit protrusion, and the other is provided with a limit protrusion.
- One is provided with a limit groove, and the protrusion is matched with the limit groove to realize the sealing connection between the communication piece and the valve tube.
- the communication member includes a first connecting section located in the first valve cavity, the first cavity is located in the first connecting section, and the outer wall of the first connecting section is connected to the valve.
- a first gap is formed between the inner walls of the pipes, the second channel has a second port communicated with the outer wall of the first connecting section, and the second port communicates with the first gap;
- the communicating member includes a second connecting section located in the second valve cavity, the second cavity is located in the second connecting section, the outer wall of the second connecting section and the inner wall of the valve tube A second gap is formed therebetween, the first channel has a first port communicated with the outer wall of the second connecting segment, and the first port communicates with the second gap.
- the communication piece, the first valve core assembly and the second valve core assembly are coaxially arranged.
- the first valve core assembly is connected to the communication member by welding, the first chamber is configured as a stepped hole, and the end of the stepped hole with a larger diameter penetrates one end surface of the communication member ;
- the second valve core assembly is connected to the communicating piece by welding, the second chamber is set as a stepped hole, and the end of the stepped hole with a larger diameter penetrates the other end face of the communicating piece.
- the first valve core assembly includes:
- the first valve seat is provided with a first seat cavity, a first valve port and a first opening, the first valve port and the first opening are respectively provided at both ends of the first seat cavity and are connected with the The seat chamber is communicated, and the first valve port is arranged close to the first chamber;
- a first valve needle movably arranged in the first seat cavity to adjust the size of the flow area of the first valve port
- a first head is provided at the first opening, and a gap is left between the first head and the first valve seat to communicate with the first seat cavity and the first valve cavity;
- the two ends of the first elastic member are respectively abutted against the first valve needle and the first sealing head, so that the first valve needle has a tendency to reduce the flow area of the first valve port.
- the first seat cavity includes a first guide hole and a first process hole that communicate with each other, the first guide hole is disposed close to the first valve port, and the first process hole is close to the first process hole.
- the first opening is provided, and the diameter of the first process hole is greater than or equal to the diameter of the first guide hole.
- the first valve seat is further provided with a first muffler cavity, and the first muffler cavity is provided at one end of the first valve port away from the first seat cavity and is connected with the first muffler cavity.
- the valve port is connected, and the inner diameter of the first muffler cavity is larger than the inner diameter of the first valve port and smaller than the inner diameter of the first seat cavity;
- One end of the first channel communicates with the first muffler cavity, and a first flaring is provided at the connection between the first channel and the first muffler cavity.
- One end of a channel gradually increases to an end close to the first muffler cavity.
- the second valve core assembly includes:
- the second valve seat is provided with a second seat cavity, a second valve port and a second opening.
- the second valve port and the second opening are respectively provided at both ends of the second seat cavity and are connected with the first valve seat.
- the two seat cavities are communicated, and the second valve port is arranged close to the second cavity;
- the second valve needle is movably arranged in the second seat cavity to adjust the size of the flow area of the second valve port;
- a second sealing head disposed at the second opening, and a gap connecting the second seat cavity and the second valve cavity is left between the second sealing head and the second valve seat;
- the two ends of the second elastic member are respectively abutted against the second valve needle and the second sealing head, so that the second valve needle has a tendency to reduce the flow area of the second valve port.
- the second seat cavity includes a second guide hole and a second process hole that communicate with each other, the second guide hole is disposed close to the second valve port, and the second process hole is close to the second process hole.
- the second opening is provided, and the diameter of the second process hole is greater than or equal to the diameter of the second guide hole.
- the second valve seat is further provided with a second muffler cavity, and the second muffler cavity is provided at one end of the second valve port away from the second seat cavity and is connected with the second muffler cavity.
- the valve port is connected, and the inner diameter of the second muffler cavity is larger than the inner diameter of the second valve port and smaller than the inner diameter of the second seat cavity;
- One end of the second channel is communicated with the second muffler cavity, and a second flaring is provided at the connection between the second channel and the second muffler cavity.
- One end of the two channels gradually increases to the end close to the second muffler cavity.
- the first valve core assembly includes a first valve seat, and an outer wall of the first valve seat has a first limiting groove;
- the communication member includes a communication main body and a first connection section, the first valve seat A connecting section is provided at one end of the communication main body, the first chamber is located at the first connecting section, and a part of the first valve seat is penetrated in the first cavity of the first connecting section, The end of the first connecting segment is fixedly connected with the first limiting groove.
- the first valve seat includes a main body section, a constricted section and a connecting section connected in sequence, and the area between the main body section, the constricted section and the connecting section forms the A first limiting groove, the connecting section is penetrated in the first cavity.
- an annular step is formed on the outer wall of the connecting section, and the throttle valve further includes a sealing member, and the sealing member is arranged in the annular step.
- an annular groove is formed on the outer wall of the connecting section, and the throttle valve further includes a sealing member, and the sealing member is arranged in the annular groove.
- the connecting section is a cylindrical structure, and the inner wall of the first connecting section and the outer wall of the connecting section are in an interference fit.
- the outer wall of the first valve seat has a limit plane, and the limit plane cooperates with the inner wall of the first connecting section to limit the circumferential direction of the first valve seat Location.
- the first valve core assembly includes a first valve seat, the first valve seat has a first valve port, the first valve core assembly further includes a first valve needle, the first valve The valve needle is movably arranged in the cavity of the first valve seat, the first valve needle is used to block the first valve port, and the outer wall of the first valve needle has a valve for fluid to pass through. gap.
- the first valve needle includes a first needle body portion and a first needle portion disposed at one end of the first needle body portion, the notch is located on the first needle body portion, and the first needle body portion is located on the first needle body portion.
- a needle portion is used to block the first valve port; wherein, both ends of the first needle body portion have rounded corners.
- a limiting groove is provided on the outer wall of the communication member, a limiting protrusion is provided on the side wall of the valve tube, and the limiting protrusion is engaged with the limiting groove.
- the first valve core assembly includes a first valve seat, and the first valve seat includes a first main body, a conical section and a connecting portion connected in sequence, and the radial direction of the conical section is The size is larger than the radial size of the connecting portion, and the connecting portion has an external thread;
- the communicating piece includes a communicating main body and a first connecting section arranged at one end of the communicating main body, and the first connecting section has an internal thread; The inner thread is matched with the outer thread, and the peripheral edge of the tapered section abuts against the first connection section.
- both the inner thread and the outer thread are tapered threads.
- the conical segment has a first conical surface, the included angle between the first conical surface and the axis of the conical segment is A, and the first connecting segment has a The second tapered surface, the included angle between the second tapered surface and the axis of the first connecting segment is B; wherein, A ⁇ B, the peripheral edge of the first tapered surface and the second Tapered surface abuts.
- the connecting portion is a cylindrical structure, and a side wall of the connecting portion has a slot, and the slot extends along the axial direction of the connecting portion.
- the outer wall of the first valve seat has a fitting plane, or the outer wall of the communicating piece has a fitting plane.
- the communicating member includes a communicating body, a first connecting segment provided at one end of the communicating body, and a second connecting segment provided at the other end of the communicating body, the first channel and the second channel are located at In the communication main body, the first chamber is located in the first connection segment, the second chamber is located in the second connection segment, the side wall of the second connection segment has side holes, and the second valve core assembly is provided It is a sealing structure, the sealing structure is movably arranged in the second chamber of the second connecting section, and the sealing structure has a blocking position for blocking the second passage and avoiding the second passage and the avoidance position of the side hole.
- the second connecting section includes a straight tube section and a constricted section, one end of the straight section is connected to the communication main body, and the constricted section is provided at the other end of the straight section, so The radial dimension of the constricted section is smaller than the radial dimension of the straight section, the side hole is located on the straight section, the sealing structure is located in the straight section, the inner wall of the constricted section and the The sealing structure stops the fit.
- the communication member further includes a sealing ring, the sealing ring is protrudingly disposed on the end surface of the communication main body, the sealing ring is disposed around the opening of the second passage, the sealing ring is located in the second chamber; when the sealing structure is located at the blocking position, the sealing structure and the sealing ring abut.
- the sealing structure is a spherical structure.
- the sealing structure includes: a guide sleeve and a sealing part; the guide sleeve is slidably arranged in the second connecting section; the sealing part is arranged in the guide sleeve, the The sealing part is made of elastic material, and the sealing part is used for blocking the second passage.
- the guide sleeve is a structure with two ends open, and both ends of the guide sleeve are riveted to the sealing portion.
- the guide sleeve is a structure in which one end is open and the other end is closed, and the guide sleeve has an open end and the sealing portion is riveted.
- the sealing part includes a main body and an annular body protruding from the main body, the outer wall of the main body is in contact with the inner wall of the guide sleeve, the annular body and the second channel corresponding settings.
- the present application also provides a heat exchange system, the heat exchange system includes a compressor, an indoor heat exchanger, an outdoor heat exchanger, a cooling module and two throttle valves, wherein the throttle valve is the aforementioned throttle valve, Both the indoor heat exchanger and the outdoor heat exchanger are connected to the compressor, the indoor heat exchanger is connected to the cooling module through one of the throttle valves, and the outdoor heat exchanger is connected to the other
- the throttle valve is connected to the cooling module, and the throttle directions of the two throttle valves are opposite.
- the first channel and the second channel are both arranged as linear channels inclined with respect to the axial direction of the communication member, and when the fluid flows in the first channel and the second channel, the flow resistance is small, so that the flow resistance is relatively small.
- the throttle valve has better stability.
- FIG. 1 is a schematic structural diagram of a throttle valve according to Embodiment 1 of the present application.
- FIG. 2 is a schematic diagram of the assembly structure of the connecting piece, the first valve seat and the second valve seat according to the first embodiment of the application;
- FIG. 3 is a schematic cross-sectional structure diagram of the connecting member according to the first embodiment of the application.
- FIG. 4 is a schematic side view of the structure of the connecting piece according to the first embodiment of the present application.
- FIG. 5 is a schematic structural diagram of the first valve seat according to the first embodiment of the application.
- FIG. 6 is a schematic structural diagram of the second valve seat according to the first embodiment of the application.
- FIG. 7 is a schematic structural diagram of a throttle valve provided in Embodiment 2 of the present application.
- Figure 8 is a cross-sectional view along line A-A in Figure 7;
- FIG. 9 is a cross-sectional view along line B-B in FIG. 8.
- FIG. 10 is a schematic structural diagram of the first valve seat in FIG. 7;
- FIG. 11 is a schematic structural diagram of the first valve needle in FIG. 7;
- Figure 12 is a top view of the first valve needle in Figure 11;
- FIG. 13 is a schematic structural diagram of the first valve seat in the throttle valve provided in the third embodiment of the application.
- Figure 14 is a cross-sectional view of the first valve seat in Figure 13;
- FIG. 15 is a schematic structural diagram of a throttle valve provided in Embodiment 4 of the application.
- Figure 16 is another view of the throttle valve of Figure 15;
- Fig. 17 is an assembly view of the valve seat and the communicating piece in Fig. 15;
- Figure 18 is a cross-sectional view of the valve seat and the communicating member in Figure 17;
- Fig. 19 is a partial enlarged view at C in Fig. 18;
- Figure 20 is a schematic structural diagram of the valve seat in Figure 15;
- Figure 21 is a partial enlarged view at D in Figure 20;
- Figure 22 is a side view of the valve seat of Figure 20;
- FIG. 23 is a schematic structural diagram of the communication piece in FIG. 15;
- Figure 24 is a partial enlarged view at E in Figure 23;
- FIG. 25 is a schematic structural diagram of a throttle valve provided in Embodiment 5 of the application.
- Fig. 26 is the schematic diagram of the partial structure in Fig. 25;
- FIG. 27 is a schematic structural diagram of the communication piece in FIG. 25;
- Figure 28 is another schematic view of the communication member in Figure 25;
- FIG. 29 is a schematic structural diagram of the throttle valve provided in the sixth embodiment of the application.
- Figure 30 is a schematic diagram of a part of the structure in Figure 29;
- FIG. 31 is a schematic diagram 1 of the sealing structure in FIG. 29;
- FIG. 32 is a second schematic diagram of the sealing structure in FIG. 29;
- Fig. 33 is the schematic diagram 3 of the sealing structure in Fig. 29;
- FIG. 34 is a schematic diagram of the heat exchange system provided in Embodiment 7 of the present application.
- Second elastic part 50. Sealing structure; 51. Guide sleeve; 511. Thick-walled cylinder; 512. Thin-walled cylinder; 52. Sealing part; , indoor heat exchanger; 93, outdoor heat exchanger; 94, cooling module.
- an element when an element is referred to as being “disposed on” another element, it can be directly disposed on the other element or an intervening element may also be present. When an element is referred to as being “disposed on” another element, it can be directly disposed on the other element or intervening elements may also be present. When an element is referred to as being “fixed” to another element, it can be directly fixed to the other element or intervening elements may also be present.
- FIGS. 1-6 are schematic structural diagrams of the throttle valve provided in Embodiment 1 of the present application.
- this embodiment provides a throttle valve, which can be applied to an air conditioning and refrigeration system.
- the throttle valve includes a valve tube 10 , a communication member 20 , a first valve core assembly 30 and a second valve core assembly 40 .
- the communication member 20 is arranged in the valve tube 10 and divides the inside of the valve tube 10 into a first valve cavity 11 and a second valve cavity 12 .
- the communicating member 20 is provided with a first chamber 21, a second chamber 22, a first channel 23 and a second channel 24.
- the first chamber 21 is located at one end of the communicating member 20 close to the first valve chamber 11, and the second chamber 22 Located at one end of the communication member 20 close to the second valve cavity 12 , the first channel 23 communicates with the first cavity 21 and the second valve cavity 12 , and the second channel 24 communicates with the second cavity 22 and the first valve cavity 11 .
- the first valve core assembly 30 is disposed at the first chamber 21 to control the connection between the first passage 23 and the first valve chamber 11 .
- the second valve core assembly 40 is disposed at the second chamber 22 to control the connection between the second passage 24 and the second valve chamber 12 .
- the fluid can enter the second passage 24 from the first valve chamber 11 , then enter the second chamber 22 , then enter the second valve core assembly 40 , and finally enter the second valve chamber 12 .
- the fluid can also enter the first passage 23 from the second valve chamber 12 , then enter the first chamber 21 , then enter the first valve core assembly 30 , and finally enter the first valve chamber 11 .
- the throttle valve can achieve bidirectional flow through the valve tube 10, the communication piece 20, the first valve core assembly 30 and the second valve core assembly 40, with fewer parts and a very simple structure.
- the installation process is also very simple, which reduces the probability of defects in the assembly process, which is conducive to the improvement of product consistency, thereby greatly reducing the production cost of the throttle valve.
- Product consistency refers to the fact that different products remain substantially the same when mass-produced.
- first channel 23 is provided as a straight channel inclined with respect to the axial direction of the communication member 20 .
- second channel 24 is also provided as a straight channel inclined with respect to the axial direction of the communication member 20 .
- the flow resistance is smaller, so that the stability of the throttle valve is better.
- the first passage 23 has a first port 231 that communicates with the outer wall of the communication member 20 , the first passage 23 communicates with the second valve cavity 12 through the first port 231 , and the communication member 20 is provided with the first port 231 of the first passage 23 .
- An annular first groove 28 is provided, so that the fluid has a larger fluid capacity at the first port 231 of the first channel 23, so that the fluid interruption is not easy to occur, the stability of the fluid flow can be ensured, and it is beneficial to improve the efficiency of the fluid flow. Good fluid control.
- the second passage 24 has a second port 241 that communicates with the outer wall of the communicating member 20 , the second passage 24 communicates with the first valve chamber 11 through the second port 241 , and the communicating member 20 is connected to the second port 241 of the second passage 24 .
- the annular second groove 29 is provided, so that the fluid has a larger fluid capacity at the second port 241 of the second channel 24, so that the fluid interruption is not easy to occur, and the stability of the fluid flow can be ensured, which is conducive to more Good fluid control.
- the communication member 20 , the first valve core assembly 30 and the second valve core assembly 40 are arranged coaxially.
- the coaxial arrangement makes the overall occupied space of the communication piece 20 , the first valve core assembly 30 and the second valve core assembly 40 smaller, which is beneficial to the miniaturized design of the valve tube 10 and greatly reduces the occupied space of the throttle valve.
- the communication member 20 has a columnar structure.
- the outer middle section of the communication piece 20 is provided with an annular outer boss 25 .
- One of the annular outer boss 25 and the valve tube 10 is provided with a limiting protrusion 13 , and the other is provided with a limiting groove 251 , and the limiting protrusion 13 is clamped with the limiting groove 251 to realize the connecting piece 20 and the valve tube 10 . Therefore, when the communicating piece 20 is installed in the valve tube 10 , the communicating piece 20 divides the inside of the valve tube 10 into a first valve cavity 11 and a second valve cavity 12 .
- the outer wall of the annular outer boss 25 is provided with a limiting groove 251
- the inner wall of the valve tube 10 is provided with a limiting protrusion 13 .
- the valve tube 10 can be pressurized inward by means of extrusion deformation, so that the limiting protrusion 13 can be formed on the inner wall of the valve tube 10, and the processing method is very simple.
- the outer wall of the annular outer boss 25 is provided with a limiting protrusion 13
- the inner wall of the valve tube 10 is provided with a limiting groove 251 .
- the communication member 20 includes a first connecting section 26 located in the first valve cavity 11 , the first cavity 21 is located in the first connecting section 26 , and a first gap 261 is formed between the outer wall of the first connecting section 26 and the inner wall of the valve tube 10 .
- the second port 241 of the second passage 24 is communicated with the outer wall of the first connecting section 26
- the second port 241 is communicated with the first gap 261 , so that the second passage 24 is communicated with the first valve cavity 11 .
- the structure is very compact, which is beneficial to the miniaturized design of the throttle valve.
- the communication piece 20 further includes a second connecting section 27 located in the second valve cavity 12 , the second cavity 22 is located in the second connecting section 27 , and a second gap is formed between the outer wall of the second connecting section 27 and the inner wall of the valve tube 10 . 271 , the first port 231 of the first passage 23 is communicated with the outer wall of the second connecting section 27 , and the first port 231 is communicated with the second gap 271 , so that the first passage 23 is communicated with the second valve cavity 12 . In this way, the structure is very compact, which is beneficial to the miniaturized design of the throttle valve.
- the first valve core assembly 30 is connected to the communication member 20 by welding, and the connection is performed by welding, so that the connection between the first valve core assembly 30 and the communication member 20 is firm and the sealing performance is good.
- welding to connect the first valve core assembly 30 and the communicating member 20 is beneficial to simplify the processing process and improve the consistency of the product.
- the solder flows into the gap between the first valve core assembly 30 and the first chamber 21.
- the first chamber 21 is set as a step hole, and the step hole has a larger diameter at the end. One end face of the communication member 20 is penetrated.
- the first chamber 21 is set as a stepped hole, which is convenient for one end of the first valve core assembly 30 to be loaded into the first chamber 21, and also facilitates the flow of solder into the first chamber 21 from the end with a larger hole diameter, so that the first valve core The welding between the assembly 30 and the connecting piece 20 is firm.
- the connection between the second valve core assembly 40 and the communication member 20 is firm and sealed. Good performance.
- the second chamber 22 is configured as a stepped hole, and one end of the stepped hole with a larger diameter penetrates the other end surface of the communicating member 20 .
- the second chamber 22 is set as a stepped hole, which is convenient for one end of the second valve core assembly 40 to be loaded into the second chamber 22, and also facilitates the flow of solder into the second chamber 22 from the end with the larger hole diameter, so that the second valve core The welding between the assembly 40 and the connecting piece 20 is firm.
- first valve core assembly 30 and the second valve core assembly 40 are independently controlled, with high control precision and long service life.
- the first valve core assembly 30 includes a first valve seat 31 , a first valve needle 32 , a first sealing head 33 and a first elastic member 34 .
- the first valve seat 31 is provided with a first seat cavity 311 , a first valve port 312 and a first opening 313 .
- the first valve port 312 and the first opening 313 are respectively disposed at two ends of the first seat cavity 311 and communicate with the first seat cavity 311 , and the first valve port 312 is disposed close to the first chamber 21 .
- the first valve needle 32 is movably disposed in the first seat cavity 311 to adjust the size of the flow area of the first valve port 312 .
- the first sealing head 33 is disposed at the first opening 313 , and a gap connecting the first seat cavity 311 and the first valve cavity 11 is left between the first sealing head 33 and the first valve seat 31 for fluid to pass through.
- Both ends of the first elastic member 34 abut against the first valve needle 32 and the first sealing head 33 respectively, so that the first valve needle 32 has a tendency to reduce the flow area of the first valve port 312 .
- the first valve port 312 is closed.
- the fluid pressure in the first passage 23 is greater than the elastic force of the first elastic member 34 , the fluid pushes the first valve needle 32 to move, thereby compressing the first elastic member 34 and opening the first valve port 312 or increasing the first valve port 312
- the opening 313 finally enters the first valve chamber 11 .
- the first valve needle 32 moves reversely and reduces the flow of the first valve port 312 area, even closing the first valve port 312 .
- the welding connection between the first valve core assembly 30 and the communicating member 20 is realized by welding the first valve seat 31 and the inner wall of the first chamber 21 .
- the first seat cavity 311 includes a first guide hole 3111 and a first process hole 3112 that communicate with each other.
- the diameter of a process hole 3112 is greater than or equal to that of the first guide hole 3111 .
- the first guide hole 3111 can play a role of guiding the first valve needle 32 to prevent the first valve needle 32 from being displaced during the movement process.
- the diameter of the first process hole 3112 is greater than or equal to that of the first guide hole 3111, which can ensure that the diameter of the first guide hole 3111 meets the design requirements during processing, and ensures that the first valve needle 32 can be smoothly installed in the first guide hole 3111, and The first valve needle 32 can move freely in the first guide hole 3111 .
- the inner diameter of the first valve seat 31 at the first opening 313 is larger than the diameter of the first process hole 3112 , so that a step (not marked) is formed between the first opening 313 and the first process hole 3112 , and the first head 33 abuts against the first process hole 3112 . at this step.
- FIG. 5 it is a schematic structural diagram of the first valve seat 31 when the first valve needle 32 , the first elastic member 34 and the first sealing head 33 are not installed in the first valve seat 31 .
- the side wall of the first opening 313 is in the shape of a straight tube, so that the first valve needle 32 , the first elastic member 34 and the first sealing head 33 can be sequentially installed into the first valve seat 31 . As shown in FIG.
- FIG. 1 it is a schematic structural diagram of the throttle valve after the first valve needle 32, the first elastic member 34 and the first head 33 are installed in the first valve seat 31; the first valve needle 32, the first elastic member 34 and the first sealing head 33 are installed in the first valve seat 31, squeeze the side wall at the first opening 313 of the first valve seat 31 to deform the side wall to form a conical structure, thereby blocking the first sealing head 33.
- the first head 33 is T-shaped, and the upper end of the T-shape is fixed at the first opening 313 and leaves a gap with the first valve seat 31 for fluid to pass through; the lower end of the T-shape is used to connect the first elastic member 34 .
- the first elastic member 34 is a compression spring, and one end of the compression spring is sleeved on one end of the first sealing head 33 .
- the first valve needle 32 includes a first needle body portion 321 , a first needle portion 322 provided at one end of the first needle body portion 321 , and a first mounting portion 323 provided at the other end of the first needle body portion 321 .
- the first needle body portion 321 is cylindrical, the outer wall of the first needle body portion 321 is slidably matched with the inner wall of the first guide hole 3111 , and the outer wall of the first needle body portion 321 is provided with a gap 320 , so that the fluid can pass through the gap 320 pass through.
- the first needle portion 322 cooperates with the first valve port 312 to adjust the size of the flow area of the first valve port 312 .
- One end of the first elastic member 34 is sleeved outside the first mounting portion 323 .
- the first valve seat 31 is further provided with a first muffler cavity 314.
- the first muffler cavity 314 is provided at one end of the first valve port 312 away from the first seat cavity 311 and communicated with the first valve port 312.
- the inner diameter of the first muffler cavity 314 It is larger than the inner diameter of the first valve port 312 and smaller than the inner diameter of the first seat cavity 311 .
- One end of the first channel 23 is connected to the first muffler cavity 314 , and a first flaring 232 is provided at the connection between the first channel 23 and the first muffler cavity 314 . The end close to the first muffler cavity 314 gradually increases.
- the fluid in the first passage 23 flows to the first seat cavity 311, it sequentially passes through the first flared opening 232, the first muffler cavity 314 and the first valve port 312, and finally enters the first seat cavity 311.
- the muffler cavity 314 and the first flaring 232 when the fluid flows from the first channel 23 to the first seat cavity 311, the channel between the first channel 23 and the first seat cavity 311 (the first flaring 232, the first muffler cavity 314
- the change of the inner diameter of the first valve port 312) is relatively gentle, and there will be no sudden increase or sudden decrease, so that the noise generated by the fluid can be reduced, and the effect of noise reduction can be achieved.
- the second valve core assembly 40 includes a second valve seat 41 , a second valve needle 42 , a second sealing head 43 and a second elastic member 44 .
- the second valve seat 41 is provided with a second seat cavity 411 , a second valve port 412 and a second opening 413 .
- the second valve port 412 and the second opening 413 are respectively provided at both ends of the second seat chamber 411 and communicate with the second seat chamber 411 , and the second valve port 412 is provided close to the second chamber 22 .
- the second valve needle 42 is movably disposed in the second seat cavity 411 to adjust the size of the flow area of the second valve port 412 .
- the second valve port 412 When the flow area of the second valve port 412 is zero, the second valve port 412 is in a closed state, and when the flow area of the second valve port 412 is greater than zero, the second valve port 412 is in an open state. "Adjusting the size of the flow area of the second valve port 412" includes both the adjustment of the size of the flow area in the open state of the second valve port 412 and the switching of the second valve port 412 between the open state and the closed state.
- the second head 43 is disposed at the second opening 413 , and a gap connecting the second seat cavity 411 and the second valve cavity 12 is left between the second head 43 and the second valve seat 41 for fluid to pass through.
- Both ends of the second elastic member 44 abut against the second valve needle 42 and the second sealing head 43 respectively, so that the second valve needle 42 has a tendency to reduce the flow area of the second valve port 412 .
- the second valve port 412 is closed.
- the fluid pushes the second valve needle 42 to move, thereby compressing the second elastic member 44 and opening the second valve port 412 or increasing the second valve port 412
- the opening 413 finally enters the second valve chamber 12 .
- the welding connection between the second valve core assembly 40 and the communicating member 20 is realized through the welding connection between the second valve seat 41 and the inner wall of the second chamber 22 .
- the second seat cavity 411 includes a second guide hole 4111 and a second process hole 4112 that communicate with each other.
- the diameter of the second process holes 4112 is greater than or equal to the diameter of the second guide hole 4111 .
- the second guide hole 4111 can play the role of guiding the second valve needle 42 to avoid the situation that the second valve needle 42 is deviated during the movement process.
- the diameter of the second process hole 4112 is greater than or equal to that of the second guide hole 4111, which can ensure that the diameter of the second guide hole 4111 meets the design requirements during processing, and ensures that the second valve needle 42 can be smoothly installed in the second guide hole 4111, and The second valve needle 42 can freely move in the second guide hole 4111 .
- the inner diameter of the second valve seat 41 at the second opening 413 is larger than the diameter of the second process hole 4112 , so that a step (not shown) is formed between the second opening 413 and the second process hole 4112 , and the second head 43 abuts against the second process hole 4112 . at this step.
- FIG. 6 it is a schematic structural diagram of the second valve seat 41 when the second valve needle 42 , the second elastic member 44 and the second sealing head 43 are not installed in the second valve seat 41 .
- the side wall of the second opening 413 is in the shape of a straight tube, so that the second valve needle 42 , the second elastic member 44 and the second sealing head 43 can be sequentially installed into the second valve seat 41 . As shown in FIG.
- FIG. 1 it is a schematic structural diagram of the throttle valve after the second valve needle 42, the second elastic member 44 and the second head 43 are installed in the second valve seat 41; the second valve needle 42, the second elastic member 44 and the second head 43 are installed into the second valve seat 41, squeeze the side wall at the second opening 413 of the second valve seat 41 to deform the side wall to form a conical structure, thereby blocking the second head 43.
- the second head 43 is T-shaped, and the upper end of the T-shape is fixed at the second opening 413 and leaves a gap with the second valve seat 41 for fluid to pass through; the lower end of the T-shape is used to connect the second elastic member 44 .
- the second elastic member 44 is a compression spring, and one end of the compression spring is sleeved on one end of the second head 43 .
- the second valve needle 42 includes a second needle body portion 421 , a second needle portion 422 disposed at one end of the second needle body portion 421 , and a second mounting portion 423 disposed at the other end of the second needle body portion 421 .
- the second needle body portion 421 is cylindrical, the outer wall of the second needle body portion 421 is slidably matched with the inner wall of the second guide hole 4111, and the outer wall of the second needle body portion 421 is provided with a gap (not shown), so that the fluid can flow from the through the gap.
- the second needle portion 422 cooperates with the first opening 313 to adjust the size of the flow area of the second valve port 412 .
- One end of the second elastic member 44 is sleeved outside the second mounting portion 423 .
- the second valve seat 41 is further provided with a second muffler cavity 414.
- the second muffler cavity 414 is provided at one end of the second valve port 412 away from the second seat cavity 411 and communicated with the second valve port 412.
- the inner diameter of the second muffler cavity 414 It is larger than the inner diameter of the second valve port 412 and smaller than the inner diameter of the second seat cavity 411 .
- One end of the second passage 24 is connected to the second muffler cavity 414 , and a second flaring 242 is provided at the communication place between the second passage 24 and the second muffler cavity 414 . The end close to the second muffler cavity 414 gradually increases.
- the fluid in the second channel 24 flows to the second seat cavity 411 , it passes through the second flare 242 , the second muffler cavity 414 and the first opening 313 in sequence, and finally enters the second seat cavity 411 .
- cavity 414 and the second flaring 242 when the fluid flows from the second channel 24 to the second seat cavity 411, the channel between the second channel 24 and the second seat cavity 411 (the second flaring 242, the second muffler cavity 414 and The change of the inner diameter of the first opening 313) is relatively gentle, and there will not be a sudden increase or a sudden decrease, so that the noise generated by the fluid can be reduced, and the effect of noise reduction can be achieved.
- FIGS. 7-12 are schematic structural diagrams of the throttle valve provided in Embodiment 2 of the present application.
- the difference between the second embodiment and the first embodiment lies in the connection method between the communication member 20 and the first valve seat 31 , and the connection method between the communication member 20 and the second valve seat 41 .
- the first valve seat 31 and the second valve seat 41 have the same structure and the same connection mode with the communication member 20 . Only the connection mode between the first valve seat 31 and the communication member 20 will be described in detail below.
- the outer wall of the first valve seat 31 has a first limiting groove 315 .
- the communicating piece 20 includes a communicating body 200, a first connecting segment 26 provided at one end of the communicating body 200, and a second connecting segment 27 provided at the other end of the communicating body 200, that is, the first connecting segment 26 and the second connecting segment 27 are respectively provided connected to both ends of the main body 200 .
- the first connecting section 26 and the second connecting section 27 are both cylindrical. A part of the first valve seat 31 is penetrated in the first connecting section 26, that is, a part of the first valve seat 31 is penetrated in the first chamber 21.
- the end of the first connecting segment 26 is fixedly connected to the first limiting groove 315 .
- the end of the first connecting segment 26 is riveted to the inner wall of the first limiting groove 315 , and the fixed connection is specifically in the form of riveting of port closing.
- the end of the first connecting segment 26 can also be fixedly connected with the first limiting groove 315 by other means such as welding, screw connection, or the like.
- the end of the first valve seat 31 is inserted into the first connecting section 26 of the communication member 20 , and the end of the first connecting section 26 is connected to the first limiting groove on the first valve seat 31 .
- the inner wall of 315 is riveted, so that the first valve seat 31 and the communicating piece 30 are reliably connected by means of plugging and riveting, and the sealing performance of the two is improved, thereby improving the reliability of the throttle valve.
- the end surface of the first valve seat 31 is in contact with the communication body 200 , so that the first valve seat 31 and the communication member 20 can be better limited in the axial direction.
- the first valve seat 31 includes a main body section 316 , a neck section 317 and a connecting section 318 connected in sequence, and the area between the main body section 316 , the neck section 317 and the connecting section 318 forms a first limit
- the groove 315 and the connecting section 318 are penetrated in the first connecting section 26 .
- the first limiting groove 315 is formed. Due to the existence of the first limiting groove 315 , the riveting deformation of the end of the first connecting segment 26 is facilitated.
- an annular step 3181 is provided on the outer wall of the connecting section 318 , and the throttle valve further includes a sealing member 70 , and the sealing member 70 is arranged in the annular step 3181 .
- the sealing member 70 By arranging the sealing member 70, reliable sealing between the first valve seat 31 and the communicating member 20 can be achieved, and leakage of the throttle valve can be avoided.
- the first connecting segment 26 presses the sealing member 70 tightly, thereby improving the sealing effect.
- the connecting section 318 is a cylindrical structure, and the inner wall of the first connecting section 26 and the outer wall of the connecting section 318 are in an interference fit.
- the connection reliability of the first connecting section 26 and the connecting section 318 is improved.
- the coaxiality of the first valve seat 31 and the communication member 20 can be improved.
- the outer wall of the first valve seat 31 has a limit plane 310 , and the limit plane 310 is engaged with the inner wall of the first connecting section 26 to limit the circumferential position of the first valve seat 31 . That is, by setting the limiting plane 310 , the circumferential direction of the first valve seat 31 can be limited to prevent the first valve seat 31 from rotating.
- the inner wall of the first connecting section 26 has a convex point that protrudes toward the first valve seat 31 , and the convex point abuts against the limiting plane 310 .
- the circumferential limit of the first valve seat 31 and the communication member 20 is realized through the cooperation of the convex point and the limit plane 310 .
- the bumps may be formed by impact on the first connecting segment 26 .
- the first valve needle 32 is movably disposed in the cavity of the first valve seat 31 , and the first valve needle 32 is used to block the first valve port 312 .
- the outer wall of the first valve needle 32 has a notch 320 for fluid to pass through. After the first valve needle 32 blocks the first valve port 312 , the fluid cannot flow. When the first valve needle 32 does not block the first valve port 312 , the fluid can pass through the gap 320 and the first valve port 312 .
- the first valve needle 32 includes a first needle body portion 321 , a first needle portion 322 provided at one end of the first needle body portion 321 , and a first mounting portion provided at the other end of the first needle body portion 321 323.
- the first needle body portion 321 is in the shape of a column
- the first needle portion 322 is in the shape of a needle, and is used to block the first valve port 312 .
- the notch 320 is located on the first needle body portion 321 .
- both ends of the first needle body portion 321 have rounded corners 3211 . Round corners 3211 are provided at both ends of the first needle body portion 321 to ensure smooth movement of the first valve needle 32 and reduce resistance caused by the deflection of the first valve needle 32 .
- the first needle portion 322 includes a first cylindrical segment, a tapered cylindrical segment and a second cylindrical segment connected in sequence, and the diameter of the second cylindrical segment is smaller than that of the first cylindrical segment.
- connection method between the second valve seat 41 and the communication member 20 For the connection method between the second valve seat 41 and the communication member 20, reference may be made to the connection method between the first valve seat 31 and the communication member 20 described above, and the description is not repeated here.
- the ends of the first sealing head 33 and the first valve seat 31 are riveted, and similarly, the ends of the second sealing head 43 and the second valve seat 41 are riveted.
- FIG. 13 and FIG. 14 are schematic structural diagrams of the throttle valve provided in Embodiment 3 of the present application.
- the difference from the second embodiment is that the outer wall of the connecting section 318 has an annular groove 3182 , the throttle valve further includes a sealing member 70 , and the sealing member 70 is arranged in the annular groove 3182 .
- the sealing member 70 By arranging the sealing member 70, reliable sealing between the first valve seat 31 and the communicating member 20 and reliable sealing between the second valve seat 41 and the communicating member 20 can be achieved, so as to avoid leakage of the flow valve.
- the first connecting segment 26 presses the sealing member 70 tightly, thereby improving the sealing effect.
- the second connecting segment 27 presses the sealing member 70 to improve the sealing effect.
- the connecting member 20 and the first valve seat 31 are fixed by riveting, and the connecting member 20 and the second valve seat 41 are also fixed by riveting.
- the sealing member/sealing ring at the lower end will be compressed and deformed, so that the The connection between the two is more reliable, and the sealing effect is improved, thereby improving the accuracy of flow regulation.
- the portion of the communication member 20 and the first valve seat 31 in the interference fit has an axial length, which can ensure the coaxiality between the communication member 20 and the first valve seat 31 .
- the portion of the communication member 20 and the second valve seat 41 in the interference fit has an axial length, which can ensure the coaxiality between the communication member 20 and the second valve seat 41 .
- FIGS. 15-24 are schematic structural diagrams of the throttle valve provided in Embodiment 4 of the present application.
- the difference between the fourth embodiment and the second embodiment lies in the connection method between the communication member 20 and the first valve seat 31 , and the connection method between the communication member 20 and the second valve seat 41 .
- the first valve seat 31 and the second valve seat 41 have the same structure and the same connection mode with the communication member 20 . Only the connection mode between the first valve seat 31 and the communication member 20 will be described in detail below.
- the first valve seat 31 includes a first body 3101 , a conical segment 3102 and a connecting portion 3103 connected in sequence, and the radial dimension of the conical segment 3102 is larger than that of the connecting portion 3103 ,
- the connection portion 3103 has external threads.
- the communicating piece 20 includes a communicating body 200, a first connecting segment 26 provided at one end of the communicating body 200 and a second connecting segment 27 provided at the other end of the communicating body 200, that is, the first connecting segment 26 and the second connecting segment 27 are respectively provided connected to both ends of the main body 200 .
- the first connecting section 26 and the second connecting section 27 are both cylindrical, and both the first connecting section 26 and the second connecting section 27 have internal threads; wherein, the internal threads and the external threads are matched, and the circumference of the tapered section 3102 and the first A connecting segment 26 abuts.
- the first valve seat 31 and the communicating piece 20 are connected by screw threads, so the structure is simple and the connection is reliable, and the periphery of the conical section 3102 of the first valve seat 31 abuts against the first connecting section 26 of the communicating piece 20 , in this way, the sealing between the first valve seat 31 and the communicating member 20 is realized by means of line sealing, thereby improving the reliability of the throttle valve.
- both the inner thread and the outer thread are tapered threads.
- the taper thread connection is adopted, which further improves the connection sealing between the first valve seat 31 and the communicating member 20.
- the internal thread and the external thread can also adopt other forms of threads as required.
- the tapered segment 3102 has a first tapered surface 3104
- the angle between the first tapered surface 3104 and the axis of the tapered segment 3102 is A
- the first connecting segment 26 has a second tapered surface 262 therein.
- the included angle between the second tapered surface 262 and the axis of the first connecting segment 26 is B; where A ⁇ B, the peripheral edge of the first tapered surface 3104 abuts against the second tapered surface 262 .
- the connecting portion 3103 has a cylindrical structure, and the side wall of the connecting portion 3103 has a slot 3105 , and the slot 3105 extends along the axial direction of the connecting portion 3103 .
- the connecting portion 3103 is easily deformed elastically in the radial direction. In this way, it is convenient to screw the connecting portion 3103 into the first connecting segment 26 , and it can prevent the connecting portion 3103 from swelling the first connecting segment 26 .
- the two slots 3105 divide the connecting portion 3103 into two parts.
- the radial deformation capability of the connecting portion 3103 can be further improved.
- the number of the slots 3105 can also be set to other numbers.
- the outer wall of the first valve seat 31 has a fitting plane 3106
- the outer wall of the communicating member 20 has a fitting plane 3106 .
- connection method between the second valve seat 41 and the communication member 20 For the connection method between the second valve seat 41 and the communication member 20, reference may be made to the connection method between the first valve seat 31 and the communication member 20 described above, and the description is not repeated here.
- the flow valve further includes a filter screen 80, which is arranged in the valve tube 10, so that impurities in the fluid can be filtered through the filter screen 80, thereby improving the service life of the throttle valve.
- valve seat ie, the first valve seat 31 and the second valve seat 41
- connecting piece are fixedly connected by the tapered thread, and at the same time, the line sealing is realized, and a vertical groove is formed in the middle of the tapered thread, which can be elastically deformed. Allow the valve seat to continue to be screwed in without breaking the connecting piece.
- FIGS. 25-28 are schematic structural diagrams of the throttle valve provided in Embodiment 5 of the present application.
- the second valve core assembly 40 is configured as a sealing structure 50 .
- the communicating member 20 includes a communicating body 200, a first connecting segment 26 provided at one end of the communicating body 200, and a second connecting segment 27 provided at the other end of the communicating body 200, that is, the first connecting segment 26 and the second connecting segment 27
- the connecting sections 27 are respectively disposed on both ends of the communication main body 200 .
- the first channel 23 and the second channel 24 are located in the communication body 200
- the first chamber 21 is located in the first connecting section 26
- the second cavity 22 is located in the second connecting section 27 .
- the first valve seat 31 is connected to the first connecting section 26 .
- the side wall of the second connecting section 27 has a side hole 272
- the sealing structure 50 is movably disposed in the second chamber 22 of the second connecting section 27
- the sealing structure 50 has a blocking position for blocking the second passage 24 and avoiding the first The avoidance position of the second channel 24 and the side hole 272 .
- the passage can be closed or communicated through the movement of the sealing structure 50 in the second connecting section 27 of the communication member 20, and the structure is simple and the cost is low.
- the above structure enables the throttle valve to have the functions of bidirectional flow and unidirectional throttling.
- the throttling valve has the advantages of simple structure, good manufacturability, good sealing performance and high flow consistency in the throttling direction.
- the second gap 271 , the first channel 23 , the first valve port 312 and the gap 320 form a forward channel
- the first gap 261 , the second channel 24 , the second chamber 22 , the side hole 272 and the second gap 271 A reverse channel is formed; when the fluid in the valve tube 10 flows from the communication member 20 toward the first valve seat 31, the sealing structure 50 is in the blocking position, the first valve needle 32 avoids the first valve port 312, and the positive
- the fluid in the valve tube 10 flows from the first valve seat 31 toward the communicating member 20, the sealing structure 50 is in the avoidance position, and the first valve needle 32 blocks the first valve Port 312, the forward channel is closed, and the reverse channel is connected.
- the fluid can flow in both directions in the throttle valve, and the fluid can drive the first valve needle 32 or the sealing structure 50 to move, so that the passage can be automatically connected or disconnected.
- the second connecting section 27 includes a straight cylinder section 273 and a constricted section 274.
- One end of the straight section 273 is connected to the communication main body 200, and the constricted section 274 is provided at the other end of the straight section 273.
- the radial dimension is smaller than that of the straight cylinder section 273
- the side hole 272 is located on the straight cylinder section 273
- the sealing structure 50 is located in the straight cylinder section 273
- the inner wall of the constricted section 274 and the sealing structure 50 stop and fit.
- the sealing structure 50 can be limited by the constricted section 274 to prevent the sealing structure 50 from coming out of the straight cylinder section 273 .
- the neck section 274 is formed by riveting, which is convenient for production.
- the communication member 20 further includes a sealing ring 201 , the sealing ring 201 is protrudingly disposed on the end surface of the communication main body 200 , the sealing ring 201 is disposed around the opening of the second passage 24 , and the sealing ring 201 is located in the second chamber 22 Inside; when the sealing structure 50 is in the blocking position, the sealing structure 50 and the sealing ring 201 abut. In this way, the sealing effect can be improved through the tight fit between the sealing structure 50 and the sealing ring 201 .
- the side of the sealing ring 201 facing the sealing structure 50 is a rounded structure, a pointed structure or a flat structure.
- the sealing structure 50 is a spherical structure. This improves the tightness of the throttle valve.
- the sealing structure 50 may be made of an elastic material.
- the sealing structure 50 is preferably made of stainless steel because the fluid in contact with the sealing structure 50, such as refrigerant, will corrode the rubber sealing material or change its performance, thereby affecting the sealing effect.
- which can be any structure that can slide in the straight cylinder section 273, such as a stainless steel ball or a stainless steel column.
- FIGS. 29-33 are schematic structural diagrams of the throttle valve provided in Embodiment 6 of the present application.
- the difference between the sixth embodiment and the fifth embodiment is that the structure of the sealing structure 50 is different.
- the sealing structure 50 includes: a guide sleeve 51 and a sealing portion 52 .
- the guide sleeve 51 is slidably arranged in the second connecting section 27 ; the sealing part 52 is arranged in the guiding sleeve 51 , the sealing part 52 is made of elastic material, and the sealing part 52 is used to block the second passage 24 .
- the guide sleeve 51 is made of stainless steel and can slide within the second connecting section 27 , so that the movement of the assembled sealing structure 50 is smoother.
- the guide sleeve 51 has a structure with both ends open, and both ends of the guide sleeve 51 are riveted with the sealing portion 52 .
- the riveting method is adopted, the connection is reliable, and the processing is convenient.
- the guide sleeve 51 is a structure in which one end is open and the other end is closed, and the guide sleeve 51 has an open end and the sealing portion 52 is riveted. In this way, a good connection and limiting effect of the guide sleeve 51 and the sealing portion 52 can also be achieved.
- the guide sleeve 51 includes a thick-walled cylinder 511 and a thin-walled cylinder 512 disposed at the end of the thick-walled cylinder 511 , the sealing portion 52 is located in the thick-walled cylinder 511 , the thin-walled cylinder 512 and the sealing portion 52 riveted.
- the wall thickness of the thin-walled barrel 512 is smaller than that of the thick-walled barrel 511, which facilitates the riveting operation.
- the sealing portion 52 includes a main body 521 and an annular body 522 protruding from the main body 521 , the outer wall of the main body 521 is in contact with the inner wall of the guide sleeve 51 , the annular body 522 and the second channel 24 corresponds to the setting.
- the sealing effect can be improved.
- the first sealing head 33 and the first valve seat 31 are riveted, and the communicating member 20 and the valve tube 10 are riveted, so that the connection strength is high.
- the communicating piece 20 and the first valve seat 31 are screwed together, or the communicating piece 20 and the first valve seat 31 are riveted.
- the throttle valve further includes two filter screens 80 , and the first valve seat 31 and the communication member 20 are located between the two filter screens 80 .
- FIG. 34 is a schematic structural diagram of the heat exchange system provided in Embodiment 7 of the present application.
- Embodiment 7 provides a heat exchange system.
- the heat exchange system includes a compressor 91, an indoor heat exchanger 92, an outdoor heat exchanger 93, a cooling module 94, and two throttle valves described in any one of the above embodiments.
- the heat exchanger 92 and the outdoor heat exchanger 93 are both connected to the compressor 91, the indoor heat exchanger 92 is connected to the cooling module 94 through a throttle valve, and the outdoor heat exchanger 93 is connected to the cooling module 94 through another throttle valve, The throttling direction of the two throttle valves is opposite.
- the cooling module 94 can also be understood as a controller and a heat sink. This solution can maximize the energy utilization rate and be green and environmentally friendly; the throttle valve can replace the capillary to improve energy efficiency; on some models, it can replace the electronic expansion valve to reduce costs.
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Abstract
Description
Claims (36)
- 一种节流阀,其特征在于,包括:阀管;连通件,设于所述阀管内并将所述阀管内部分隔为第一阀腔和第二阀腔,所述连通件设有第一腔室、第二腔室、第一通道和第二通道,所述第一腔室位于所述连通件靠近所述第一阀腔的一端,所述第二腔室位于所述连通件靠近所述第二阀腔的一端,所述第一通道连通所述第一腔室和所述第二阀腔,所述第二通道连通所述第二腔室和所述第一阀腔;以及第一阀芯组件,设于所述第一腔室处,用以控制所述第一通道和所述第一阀腔之间的通断;以及第二阀芯组件,设于所述第二腔室处,用以控制所述第二通道和所述第二阀腔之间的通断;所述第一通道设置为相对于所述连通件的轴向倾斜的直线型通道;所述第二通道设置为相对于所述连通件的轴向倾斜的直线型通道。
- 根据权利要求1所述的节流阀,其中,所述第一通道具有连通于所述连通件的外壁的第一端口,所述第一通道通过所述第一端口连通所述第二阀腔,所述连通件于所述第一通道的第一端口处设有环形的第一凹槽;及/或,所述第二通道具有连通于所述连通件的外壁的第二端口,所述第二通道通过所述第二端口连通所述第一阀腔,所述连通件于所述第二通道的第二端口处设有环形的第二凹槽。
- 根据权利要求1所述的节流阀,其中,所述连通件呈柱状结构,所述连通件的外部中段设有环形外凸台,所述环形外凸台和所述阀管中的一个设有限位凸起,另一个设有限位凹槽,所述凸起与所述限位凹槽相适配以实现所述连通件与所述阀管之间的密封连接。
- 根据权利要求1所述的节流阀,其中,所述连通件包括位于所述第一阀腔内的第一连接段,所述第一腔室位于第一连接段,所述第一连接段的外壁与所述阀管的内壁之间形成第一间隙,所述第二通道具有连通于所述第一连接段的外壁的第二端口,所述第二端口与所述第一间隙连通;及/或,所述连通件包括位于所述第二阀腔内的第二连接段,所述第二腔室位于第二连接段,所述第二连接段的外壁与所述阀管的内壁之间形成第二间隙,所述第一通道具有连通于所述第二连接段的外壁的第一端口,所述第一端口与所述第二间隙连通。
- 根据权利要求1所述的节流阀,其中,所述连通件、所述第一阀芯组件以及所述第二阀芯组件同轴设置。
- 根据权利要求5所述的节流阀,其中,所述第一阀芯组件与所述连通件焊接连接,所述第一腔室设置为台阶孔,且该台阶孔孔径较大的一端贯穿所述连通件的一端面;及/或,所述第二阀芯组件与所述连通件焊接连接,所述第二腔室设置为台阶孔,该台阶孔孔径较大的一端贯穿所述连通件的另一端面。
- 根据权利要求5所述的节流阀,其中,所述第一阀芯组件包括:第一阀座,设有第一座腔、第一阀口以及第一开口,所述第一阀口和所述第一开口分别设于所述第 一座腔的两端并与所述第一座腔连通,所述第一阀口靠近所述第一腔室设置;第一阀针,可活动地设于所述第一座腔内以调节所述第一阀口的流通面积的大小;第一封头,设于所述第一开口处,所述第一封头与所述第一阀座之间留有连通所述第一座腔和所述第一阀腔的空隙;以及第一弹性件,两端分别抵接于所述第一阀针和所述第一封头,以使所述第一阀针具有减小所述第一阀口的流通面积的趋势。
- 根据权利要求7所述的节流阀,其中,所述第一座腔包括相连通的第一导向孔以及第一工艺孔,所述第一导向孔靠近所述第一阀口设置,所述第一工艺孔靠近所述第一开口设置,所述第一工艺孔的孔径大于或等于所述第一导向孔的孔径。
- 根据权利要求7所述的节流阀,其中,所述第一阀座还设有第一消音腔,所述第一消音腔设于所述第一阀口远离所述第一座腔的一端并与所述第一阀口连通,所述第一消音腔的内径大于所述第一阀口的内径且小于所述第一座腔的内径;所述第一通道一端连通所述第一消音腔,且所述第一通道与所述第一消音腔的连通处设有第一扩口,所述第一扩口的内径由靠近所述第一通道的一端至靠近所述第一消音腔的一端逐渐增大。
- 根据权利要求5所述的节流阀,其中,所述第二阀芯组件包括:第二阀座,设有第二座腔、第二阀口以及第二开口,所述第二阀口和所述第二开口分别设于所述第二座腔的两端并与所述第二座腔连通,所述第二阀口靠近所述第二腔室设置;第二阀针,可活动地设于所述第二座腔内以调节所述第二阀口的流通面积的大小;第二封头,设于所述第二开口处,所述第二封头与所述第二阀座之间留有连通所述第二座腔和所述第二阀腔的空隙;以及第二弹性件,两端分别抵接于所述第二阀针和所述第二封头,以使所述第二阀针具有减小所述第二阀口的流通面积的趋势。
- 根据权利要求10所述的节流阀,其中,所述第二座腔包括相连通的第二导向孔以及第二工艺孔,所述第二导向孔靠近所述第二阀口设置,所述第二工艺孔靠近所述第二开口设置,所述第二工艺孔的孔径大于或等于所述第二导向孔的孔径。
- 根据权利要求10所述的节流阀,其中,所述第二阀座还设有第二消音腔,所述第二消音腔设于所述第二阀口远离所述第二座腔的一端并与所述第二阀口连通,所述第二消音腔的内径大于所述第二阀口的内径且小于所述第二座腔的内径;所述第二通道一端连通所述第二消音腔,且所述第二通道与所述第二消音腔的连通处设有第二扩口,所述第二扩口的内径由靠近所述第二通道的一端至靠近所述第二消音腔的一端逐渐增大。
- 根据权利要求1所述的节流阀,其中,第一阀芯组件包括第一阀座,所述第一阀座的外壁上具有第一限位槽;所述连通件包括连通主体和第一连接段,所述第一连接段设于所述连通主体一端,所述第一腔室位 于所述第一连接段,所述第一阀座的一部分穿设在所述第一连接段的所述第一腔室内,所述第一连接段的端部和所述第一限位槽固定连接。
- 根据权利要求13所述的节流阀,其中,所述第一阀座包括顺次连接的主体段、缩颈段和连接段,所述主体段、所述缩颈段和所述连接段之间的区域形成所述第一限位槽,所述连接段穿设在所述第一腔室内。
- 根据权利要求14所述的节流阀,其中,所述连接段的外壁上具有环形台阶,所述节流阀还包括密封件,所述密封件设置在所述环形台阶内。
- 根据权利要求14所述的节流阀,其中,所述连接段的外壁上具有环形槽,所述节流阀还包括密封件,所述密封件设置在所述环形槽内。
- 根据权利要求14所述的节流阀,其中,所述连接段为筒状结构,所述第一连接段的内壁和所述连接段的外壁过盈配合。
- 根据权利要求13所述的节流阀,其中,所述第一阀座的外壁上具有限位平面,所述限位平面和所述第一连接段的内壁限位配合,以限制所述第一阀座的周向位置。
- 根据权利要求1所述的节流阀,其中,所述第一阀芯组件包括第一阀座,所述第一阀座具有第一阀口,所述第一阀芯组件还包括第一阀针,所述第一阀针可移动地设置在所述第一阀座的腔体内,所述第一阀针用于封堵所述第一阀口,所述第一阀针的外壁上具有用于供流体通过的缺口。
- 根据权利要求19所述的节流阀,其中,所述第一阀针包括第一针体部和设于第一针体部一端的第一针部,所述缺口位于所述第一针体部上,所述第一针部用于封堵所述第一阀口;其中,所述第一针体部的两端均具有圆角。
- 根据权利要求1所述的节流阀,其中,所述连通件的外壁上设有限位凹槽,所述阀管的侧壁上设有限位凸起,所述限位凸起和所述限位凹槽卡接。
- 根据权利要求1所述的节流阀,其中,所述第一阀芯组件包括第一阀座,所述第一阀座包括顺次连接的第一主体、锥形段和连接部,所述锥形段的径向尺寸大于所述连接部的径向尺寸,所述连接部具有外螺纹;所述连通件包括连通主体和设于所述连通主体一端的第一连接段,所述第一连接段具有内螺纹;所述内螺纹和所述外螺纹配合,所述锥形段的周缘和所述第一连接段抵接。
- 根据权利要求22所述的节流阀,其中,所述内螺纹和所述外螺纹均为锥螺纹。
- 根据权利要求22所述的节流阀,其中,所述锥形段具有第一锥形面,所述第一锥形面和所述锥形段的轴线之间的夹角为A,所述第一连接段内具有第二锥形面,所述第二锥形面和所述第一连接段的轴线之间的夹角为B;其中,A<B,所述第一锥形面的周缘和所述第二锥形面抵接。
- 根据权利要求22所述的节流阀,其中,所述连接部为筒状结构,所述连接部的侧壁上具有开槽,所述开槽沿所述连接部的轴向延伸。
- 根据权利要求25所述的节流阀,其中,所述开槽为两个,两个所述开槽将所述连接部划分为两 部分。
- 根据权利要求22所述的节流阀,其中,所述第一阀座的外壁上具有装配平面,或所述连通件的外壁上具有装配平面。
- 根据权利要求1所述的节流阀,其中,所述连通件包括连通主体、设于连通主体一端的第一连接段以及设于连通主体另一端的第二连接段,所述第一通道和所述第二通道位于所述连通主体,所述第一腔室位于第一连接段,所述第二腔室位于第二连接段,所述第二连接段的侧壁具有侧孔,所述第二阀芯组件设置为密封结构,所述密封结构可移动地设置在所述第二连接段的所述第二腔室内,所述密封结构具有封堵所述第二通道的封堵位置以及避让所述第二通道和所述侧孔的避让位置。
- 根据权利要求28所述的节流阀,其中,所述第二连接段包括直筒段和缩口段,所述直筒段的一端和所述连通主体连接,所述缩口段设置在所述直筒段的另一端,所述缩口段的径向尺寸小于所述直筒段的径向尺寸,所述侧孔位于所述直筒段上,所述密封结构位于所述直筒段内,所述缩口段的内壁和所述密封结构止挡配合。
- 根据权利要求28所述的节流阀,其中,所述连通件还包括密封环,所述密封环凸出设置在所述连通主体的端面上,所述密封环围绕所述第二通道的开口设置,所述密封环位于第二腔室内;所述密封结构位于所述封堵位置的情况下,所述密封结构和所述密封环抵接。
- 根据权利要求28所述的节流阀,其中,所述密封结构为球形结构。
- 根据权利要求28所述的节流阀,其中,所述密封结构包括:导向套以及密封部;所述导向套可滑动地设置在所述第二连接段内;所述密封部设置在所述导向套内,所述密封部由弹性材料制成,所述密封部用于封堵所述第二通道。
- 根据权利要求32所述的节流阀,其中,所述导向套为两端开口的结构,所述导向套的两端均和所述密封部铆接。
- 根据权利要求32所述的节流阀,其中,所述导向套为一端开口另一端封闭的结构,所述导向套具有开口的一端和所述密封部铆接。
- 根据权利要求32所述的节流阀,其中,所述密封部包括主体和凸出设置在所述主体上的环形体,所述主体的外壁和所述导向套的内壁接触,所述环形体和所述第二通道对应设置。
- 一种换热系统,其特征在于,所述换热系统包括压缩机、室内换热器、室外换热器、降温模块和两个节流阀,所述节流阀为权利要求1至35中任一项所述的节流阀,所述室内换热器和所述室外换热器均和所述压缩机连接,所述室内换热器通过一个所述节流阀和所述降温模块连接,所述室外换热器通过另一个所述节流阀和所述降温模块连接,两个所述节流阀的节流方向相反。
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