CN111473146B - Stainless steel four-way reversing valve main valve with integrated valve seat for air conditioner and machining method - Google Patents

Abstract

The invention discloses a stainless steel four-way reversing valve main valve with an integrated valve seat for an air conditioner and a machining method, and relates to the field of reversing valves. At present, the problems of high cost, complex processing technology, insecure welding position and easy deformation of a valve port surface after long-term use exist. The invention comprises a connecting seat fixed on a valve body, wherein the middle section of the valve body is concave to form a valve seat, and the left side surface and the right side surface of the valve seat are disconnected with the valve body to form an arched edge; the concave valve seat forms a convex platform in the inner cavity of the valve body, the top surface of the platform is a valve port surface matched with the sliding block in the valve body, the connecting seat is embedded in the concave valve seat, the left side surface and the right side surface of the connecting seat cover a gap formed after the valve seat and the valve body are disconnected, the wall thickness of the valve body is d, and d is not less than 0.8mm and not more than 1.7 mm. The left side surface and the right side surface of the valve seat are disconnected with the valve body, so that stress caused by large deformation during stamping is avoided, and the yield and the production efficiency are improved; the process complexity is reduced; the overall cost is reduced; and the wall thickness of the valve body can be selected to a larger extent to meet different requirements.

Description

Stainless steel four-way reversing valve main valve with integrated valve seat for air conditioner and machining method

Technical Field

The invention relates to the field of reversing valves, in particular to a stainless steel four-way reversing valve main valve with an integrated valve seat for an air conditioner and a machining method of the stainless steel four-way reversing valve main valve.

Background

The four-way reversing valve is one of important parts in an air conditioner, is arranged near a compressor, can generate vibration when the compressor runs, and has very high requirement on welding firmness of a connecting pipe of the four-way reversing valve.

A valve body of a traditional stainless steel four-way reversing valve comprises a valve body, a valve seat, a D connecting pipe, a C connecting pipe, an E connecting pipe and an S connecting pipe. The valve body is a straight-through tubular component, and is provided with a through hole corresponding to the D connecting pipe and 3 through holes corresponding to the C, E, S connecting pipes; the cross section of the valve seat is D-shaped, the valve seat comprises 3 valve seat holes, the depth of the hole wall of each valve seat hole is intersected because of the arc surface of the valve seat, and the hole diameter of the arc surface is larger than that of the plane of the valve seat; the arc surface of the valve seat is attached to the inner surface of the valve body; the D connecting pipe is welded with a corresponding D connecting pipe through hole on the valve body, and the C connecting pipe, the E connecting pipe and the S connecting pipe are respectively welded through the through hole on the valve body and the through hole on the valve seat in sequence. The defect is that three valve seat holes of the valve seat are step holes, cannot be formed by stamping and need to be machined, so that the manufacturing cost is high; the plane of the valve seat is connected with a sliding block component of control equipment of the four-way reversing valve, and the requirement of sealing performance is required, so that the plane of the valve seat needs to be ground, and the manufacturing cost is high due to grinding.

The patent number is ZL200720111518.8 patent name is four-way valve body part, the utility model discloses the valve seat structure of valve body, pipe wall middle section position is to the outstanding platform of valve body inner chamber, it is square that the D type of valve seat has changed into to form with its supporting modification, compare with traditional technique, though solved the valve seat because the D type has changed into square, the processing of valve seat appearance is simple, however, because will stretch out a platform under the tubulose and thin prerequisite of pipe wall, can lead to the tubulose to warp, if the pipe wall thickness, also easy-to-draw, and the valve seat needs to weld to the valve body inner chamber, the welding process is more complicated; the aperture of 3 holes on the valve seat close to the surface of the sliding block needs to be small and the aperture close to the surface of the platform needs to be large, and the 3 holes also need to be machined to meet the requirements, so the machining process of the valve seat is more complex; the overall cost is high due to the complex process and high manufacturing cost.

Although the patent publication No. CN 102269281B is entitled a four-way reversing valve for a heat pump air conditioner, this invention improves a valve seat, in accordance with the description in paragraph 30 of the specification, "the valve body 12, the first connection pipe 22 (D connection pipe), and the second third and fourth connection pipe 62 (E, S, C connection pipe) are first processed separately, and a square hole (square connection port 12 a) and a prototype flanging hole (circular connection port 12B) on the other side surface are punched in the processed valve body 12, and the E, S, C connection pipe 62 is a stainless steel pipe. During installation, firstly, the E, S, C connecting pipe 62 is inserted into the valve seat opening 52, welding and sealing are kept by argon arc welding or laser welding, meanwhile, the D connecting pipe 22 is welded or brazed on the flanging hole 12b of the valve body 12 by argon arc welding, then the valve seat 52 is pressed on the square hole 12a of the valve body 12, the bending edge of the valve seat 52 is attached to the edge of the square hole 12a of the valve body 12, the periphery of the valve seat 52 and the square hole 12a of the valve body 12 are welded and sealed by argon arc welding or laser welding, the description can know that the welding difficulty between the valve seat 52 and the square hole 12a is large, the welding strength is insufficient, meanwhile, the E, S, C connecting pipe 62 is directly welded on the valve seat opening 52, and the welding surface is too small and is easy to loosen, so that the sealing performance is reduced.

The patent name of the grant publication No. CN 20131635Y is four-way valve and air conditioner with four-way valve, this utility model has improved the valve body and has been overall structure with the disk seat, however, according to the 4 th page or 3 rd paragraph description in its description "this kind of four-way valve main course of working does: under specific temperature and pressure, the pipe wall 215 of the main valve body 210 is laterally pressurized, and three connecting pipe (E, S, C pipe) holes 231, 232 and 233 on the same side of the main valve body are directly molded through a molding die of an inner cavity; the separate nipple (D-tube) hole 234 is then punch formed. The description shows that the three holes 231, 232 and 233 are small in distance and insufficient in flanging height, so that the welding areas of the three connecting pipes (E, S, C pipes) and the three holes 231, 232 and 233 are insufficient, the strength of the three connecting pipes (E, S, C pipes) welded on the main valve body is insufficient, and a gap or even a falling phenomenon exists between the E, S, C connecting pipe and the holes 231, 232 and 233 when the air-conditioning compressor vibrates in operation; when the four-way reversing valve is installed in a refrigerating system, the E, S, C connecting pipe is slightly stressed to cause deformation of a valve port surface, so that the sealing performance between the sliding block and the valve port surface is poor; the main valve body is made of brass or aluminum, resulting in high overall cost.

Disclosure of Invention

The invention aims to solve the technical problems and provide the technical task of perfecting and improving the prior technical scheme, overcoming the defects of high cost, complex processing technology, insecure welding position, easy deformation of a valve port surface after long-term use and the like in the prior art, and providing the main valve of the stainless steel four-way reversing valve for the air conditioner with the integrated valve seat. Therefore, the invention adopts the following technical scheme.

The stainless steel four-way reversing valve main valve with the integrated valve seat for the air conditioner comprises a tubular valve body, a D connecting pipe and a connecting seat, wherein the D connecting pipe is directly welded on the valve body; the concave valve seat forms a convex platform in the inner cavity of the valve body, the top surface of the platform is a valve port surface matched with the sliding block in the valve body, the connecting seat is embedded in the concave valve seat, the left side surface and the right side surface of the connecting seat cover a gap formed after the valve seat and the valve body are disconnected, and the valve seat is provided with three valve port holes opposite to the E connecting pipe, the S connecting pipe and the C connecting pipe, so that the E connecting pipe, the S connecting pipe and the C connecting pipe can be communicated with the inner cavity of the valve body; the wall thickness of the valve body is d, wherein d is more than or equal to 0.8mm and less than or equal to 1.7 mm. The left side surface and the right side surface of the valve seat are arranged in parallel in the axial direction; the left side surface and the right side surface of the valve seat are disconnected with the valve body, so that stress caused by large deformation during stamping is avoided, the yield is improved, the valve seat can be formed at one time, the production efficiency is improved, and the cost is reduced; the valve seat is directly formed on the valve body and is of an integrated structure with the valve body, the valve seat can be processed in a stamping mode, the inner cavity surface of the valve seat, namely the raised platform, is directly used as a valve port surface, the valve port surface can be flattened only by extrusion, and the requirement on the sealing property between the valve port surface and the sliding block can be met without a grinding process, so that the complexity of the original valve seat processing process is reduced; the processing technology is simplified, the manufacturing cost is low, and the rate of finished products is improved, so the total cost is reduced; the valve port surface integrated with the valve body avoids the adoption of a mode of welding and fixing the pipe wall, improves the reliability of the process, and avoids the condition that the valve seat falls off due to the pushing of the sliding block. Meanwhile, the connecting pipe, the connecting seat and the valve seat can be fixedly connected by brazing, when brazing is carried out, as long as a gap exists between the connecting pipe hole of the connecting seat and the C, E, S, D connecting pipe, the connecting pipe and the connecting pipe hole are welded by the brazing filler metal, and meanwhile, the connecting seat and the valve seat are welded together, so that the welding strength is improved. Because the connecting seat is embedded on the valve seat and is welded with the tubular valve body into a whole, the rigidity of the valve port surface is improved, and the problem of deformation of the valve port surface in multiple practical use can be prevented. Because the left and right sides face of the valve seat is disconnected with the valve body, the wall thickness of the valve body can be selected in a wider range to meet different requirements, and the processing technology is also simplified.

As a preferable technical means: the connecting seat is provided with three connecting pipe holes opposite to the three valve hole holes, and the connecting pipe E, the connecting pipe S and the connecting pipe C are inserted into the corresponding connecting pipe holes; the aperture of the connecting pipe hole is larger than that of the valve port hole. The welding ring can be conveniently pressed between the valve port hole and the E, S, C connecting pipe, the process is simplified, and meanwhile, the three connecting pipes are convenient to position.

As a preferable technical means: the E connecting pipe, the S connecting pipe and the C connecting pipe are welded and fixed with the connecting seat and the valve seat together. The mode of brazing can be adopted, the welded fastening of the connecting pipe, the connecting seat and the valve seat is realized, the welding is convenient, the welding is formed in one step, and the welding efficiency, the reliability and the process simplicity are effectively improved.

As a preferable technical means: and the two side surfaces of the connecting seat are in interference fit with the arched edges of the valve seat. The difficulty of the assembly process of the connecting seat and the valve seat is further reduced.

As a preferable technical means: the bottom surface of disk seat be the plane and through this plane fixed connection seat, the connecting seat top surface is the plane, improves the laminating degree of fitting surface to increase the welding reliability after the welding.

As a preferable technical means: the valve seat form an L-shaped groove for the middle section part of the valve body through stamping, the connecting seat is embedded and fixed in the groove, and two side surfaces and a top surface of the two side arched edges and the bottom surface of the valve seat are matched with those of the connecting seat. The matching of the valve seat and the side surface of the connecting seat and the welding of the bottom surface further improve the welding reliability of the valve seat and the connecting seat.

As a preferable technical means: the cross section of the connecting seat is D-shaped. The connecting seat adopting the D shape can be level with the outer surface of the valve body, which is beneficial to reducing the space, and the appearance is smooth and more beautiful.

The invention also aims to provide a method for processing the main valve of the stainless steel four-way reversing valve with the integrated valve seat for the air conditioner, which comprises the following steps:

1) selecting a stainless steel coil with a corresponding width according to the size of the main valve;

2) feeding the stainless steel coil into a die;

201) flattening the stainless steel coil in a mould;

202) pressing the flattened stainless steel coil to form two connected semicircular pipes with upward openings;

203) punching the middle part of a semicircular pipe to form an upwards concave valve seat, wherein the left side surface and the right side surface of the valve seat are disconnected with the semicircular pipe; the valve seat is formed by pressing in one or more steps;

204) punching a semicircular pipe forming a valve seat to form a capillary hole and a valve port hole, and punching the middle part of the other semicircular pipe to form a D-shaped pipe hole;

205) flanging the capillary hole and the D connecting pipe hole;

206) extruding and leveling the valve port surface of the valve seat to form a flat valve port surface;

207) cutting two ends of the two semi-circular pipes;

208) turning over a semi-circular pipe to splice the openings of the semi-circular pipe to form a tubular valve body with a splicing seam;

3) welding the splicing seams, and leveling the inside and outside of the welding seams of the valve body;

4) annealing the valve body;

5) shaping inner cavities at two end parts of the valve body;

6) the connecting seat is clamped in the valve seat through press fitting, the periphery splicing part between the connecting seat and the valve seat is sealed and welded through laser welding or argon arc welding, and a welding seam is leveled;

7) mounting a welding ring on the D connecting pipe, and pressing the D connecting pipe into a D connecting pipe hole of the valve body;

8) placing a welding ring into a connecting pipe hole of the connecting seat, and pressing the three connecting pipes into the corresponding connecting pipe holes of the connecting seat;

9) and placing the main valve body, the connecting pipe and the connecting seat into a furnace for brazing, and thus welding the valve body, the connecting pipe and the connecting seat into a whole to obtain the main valve of the stainless steel four-way reversing valve for the air conditioner with the integrated valve seat.

The valve seat is processed by stainless steel plates through a progressive die, or a plurality of common dies, or the progressive die and the common dies, the valve port surface is extruded and leveled, and the requirement on the sealing property between the valve port surface and the sliding block can be met without grinding, so that the complexity of the original valve seat processing process is reduced; the valve port hole, the capillary hole and the connecting pipe hole welded with the D connecting pipe of the valve seat are formed at one time through a progressive die, so that the complexity of the processing technology is greatly reduced; the processing technology is simplified, the manufacturing cost is low, and the yield is improved, so the total cost is reduced. Meanwhile, when brazing, as long as a gap exists between the connecting pipe hole of the connecting seat and the C, E, S connecting pipe, the connecting pipe and the connecting pipe hole are welded by the welding flux, the connecting seat and the valve seat are welded together, and the D connecting pipe and the tubular valve body are also welded together, so that the welding strength is improved. Because the connecting seat is embedded on the valve seat and is welded with the tubular valve body to form a whole, the deformation problem of the valve port surface after multiple practical use can be prevented. Meanwhile, the original valve seat which needs to be welded with the valve body is replaced by the valve seat integrated with the valve body, the manufacturing, machining and welding processes of the independent valve seat can be saved, and the three connecting pipes are conveniently positioned when being installed by using the connecting pipe holes which are slightly larger than the valve port holes. The cost is also reduced due to the simple process. The valve body, all connecting pipes and connecting seats are welded in a brazing furnace at one time, gaps among the connecting pipes and the connecting seats can be completely welded by welding flux, and the welding area is large, so that the welding strength is high.

As a preferable technical means: the die is a progressive die to continuously realize the processing of the tubular valve body with a splicing seam, and after the tubular valve body is spliced, monomer cutting is carried out to form an independent tubular valve body. The progressive die is adopted, so that the working efficiency is effectively improved, the position precision is higher, and the yield is effectively improved.

Has the beneficial effects that: the valve seat is directly formed on the valve body and is of an integrated structure with the valve body, the valve seat can be processed in a stamping mode, the inner cavity surface of the valve seat, namely the raised platform, is directly used as a valve port surface, the valve port surface can be flattened only by extrusion, and the requirement on the sealing property between the valve port surface and the sliding block can be met without a grinding process, so that the complexity of the original valve seat processing process is reduced; the processing technology is simplified, the manufacturing cost is low, and the rate of finished products is improved, so the total cost is reduced; compared with a platform formed by welding a valve seat in the inner cavity of the main valve body, the integrally formed platform has the advantages that the pipe wall is smoother, the flow loss can be effectively reduced, the valve opening surface integrated with the valve body is avoided, the mode of welding and fixing the pipe wall is avoided, the reliability of the process is improved, and the condition that the valve seat falls off due to the fact that the sliding block is pushed by moving of the sliding block is avoided. Meanwhile, the connecting pipe, the connecting seat and the valve seat can be fixedly connected by brazing, when brazing is carried out, as long as a gap exists between the connecting pipe hole of the connecting seat and the C, E, S connecting pipe, the connecting pipe and the connecting pipe hole are welded by welding materials, the connecting seat and the valve seat are welded together, and the D connecting pipe and the tubular valve body are also welded together, so that the welding strength is improved. Because the connecting seat is embedded on the valve seat and welded into a whole, the deformation problem of the valve port surface after multiple practical uses can be prevented.

Drawings

Fig. 1 is a front view of the valve body of the present invention.

Fig. 2 is a schematic bottom view of the valve body of the present invention.

Fig. 3 is a schematic top view of the valve body of the present invention.

Fig. 4 is a right-side structural schematic view of the valve body of the present invention.

Fig. 5 is a schematic perspective view of the valve body of the present invention.

Fig. 6 is a schematic top view of a first connecting seat of the present invention.

Fig. 7 is a schematic side view of a first connecting seat of the present invention.

Fig. 8 is a schematic perspective view of a first connecting seat according to the present invention.

Fig. 9 is a schematic front view of a second connecting seat of the present invention.

Fig. 10 is a right-view structural diagram of a second connecting seat of the present invention.

Fig. 11 is a schematic top view of a second connecting seat of the present invention.

Fig. 12 is a schematic perspective view of a second connecting seat of the present invention.

Fig. 13 is a first front view structure diagram of the present invention.

Fig. 14 is a schematic perspective view of a first embodiment of the present invention.

Fig. 15 is a schematic front view of a second embodiment of the present invention with the adapter removed.

Fig. 16 is a schematic perspective view of a second embodiment of the present invention with the adapter removed.

In the figure: 10-a valve body; 11-D tubing holes; 12-capillary holes; 13-a valve seat; 14-a valve port orifice; 15-the arched edge of the valve seat; 16-the bottom surface of the valve seat; 17-valve port face; 20-a connecting seat; 21-tubing holes; 30-D connecting pipe; 41-E connection pipe; 42-S connection pipe; 43-C connection pipe.

Detailed Description

The technical scheme of the invention is further explained in detail by combining the drawings in the specification.

The first embodiment is as follows:

as shown in fig. 1, 2, 3, 4, 5, 6, 7, 8, 13, 14, the present invention includes a tubular valve body 10, a D connection pipe 30 directly welded on the valve body 10, and a connection seat 20 fixed on the valve body 10, parallel E connection pipe 41, S connection pipe 42, C connection pipe 43 welded on the connection seat 20, a middle section of the valve body 10 being recessed to form a valve seat 13, and left and right sides of the valve seat 13 being disconnected from the valve body 10 to form an arc-shaped edge 15; the concave valve seat 13 forms a convex platform in the inner cavity of the valve body 10, the top surface of the platform is a valve port surface 17 matched with the slide block in the valve body, the connecting seat 20 is embedded in the concave valve seat 13, the left side surface and the right side surface of the connecting seat 20 cover a gap formed after the valve seat 13 and the valve body 10 are disconnected, and the valve seat 13 is provided with three valve port holes 14 opposite to the E connecting pipe 41, the S connecting pipe 42 and the C connecting pipe 43, so that the E connecting pipe 41, the S connecting pipe 42 and the C connecting pipe 43 can be communicated with the inner cavity of the valve body 10; the wall thickness of the valve body is d, wherein d is more than or equal to 0.8mm and less than or equal to 1.7 mm. The left and right side surfaces of the valve seat 13 are arranged in parallel in the axial direction; the left side surface and the right side surface of the valve seat 13 are disconnected with the valve body 10, so that the stress generated by large deformation during stamping is avoided, the yield is improved, the valve seat can be formed at one time, the production efficiency is improved, and the cost is reduced; because the left and right sides of the valve seat are disconnected with the valve body, the wall thickness of the valve body can be selected in a larger range to meet different requirements; the valve seat 13 is directly formed on the valve body 10 and has an integrated structure with the valve body 10, the valve seat 13 can be processed in a stamping mode, the inner cavity surface of the valve seat 13, namely a raised platform, is directly used as a valve port surface 17, the valve port surface 17 can be flattened only by extrusion, and the requirement on the sealing property between the valve port surface 17 and a sliding block can be met without a grinding process, so that the complexity of the original processing process of the valve seat 13 is reduced; the processing technology is simplified, the manufacturing cost is low, and the rate of finished products is improved, so the total cost is reduced; the valve port surface 17 integrated with the valve body 10 avoids the adoption of a mode of welding and fixing the pipe wall, improves the reliability of the process, and avoids the condition that the valve seat 13 falls off due to the pushing of the sliding block due to the movement of the sliding block. The connecting pipe, the connecting seat 20 and the valve seat 13 can be fixedly connected by brazing, and when brazing is carried out, as long as gaps exist between the connecting pipe holes 21 and C, E, S of the connecting seat 20 and the connecting pipes 43, 41 and 42, the connecting pipes and the connecting pipe holes 21 are welded by the brazing filler metal, and meanwhile, the connecting seat 20 and the valve seat 13 are welded together, so that the welding strength is improved. Since the connecting seat 20 is embedded in the valve seat 13 and welded as a whole, the deformation problem of the valve port surface 17 after multiple practical uses can be prevented.

In order to facilitate the placing of the welding ring and the reliability of welding, three connecting pipe holes 21 opposite to the three valve hole holes 14 are formed in the connecting seat 20, and the aperture of each connecting pipe hole 21 is larger than that of each valve hole 14. During welding, the weld ring may be placed on the step surface formed with the nipple hole 21 and the valve port hole 14.

In order to improve the welding reliability, the E connecting pipe 41, the S connecting pipe 42 and the C connecting pipe 43 are welded and fixed with the connecting seat 20 and the valve seat 13. The mode of brazing can be adopted, the welded fastening of the connecting pipe, the connecting seat 20 and the valve seat 13 is realized, the welding is convenient, the welding is formed at one time, and the welding efficiency and the welding reliability are effectively improved.

The two side surfaces of the connecting seat 20 are in interference fit with the arched edges 15 of the valve seat 13. The difficulty of the assembly process of the connecting seat 20 and the valve seat 13 is reduced.

In order to improve the welding reliability, the bottom surface 16 of the valve seat 13 is a plane and the connecting seat 20 is fixed through the plane, and the top surface of the connecting seat is a plane, so that the fitting degree of the matching surface is improved, and the welding reliability after welding is improved.

For convenience of manufacture, the valve seat 13 is a reversed u-shaped groove punched out of the middle section of the valve body 10, the connecting seat 20 is inserted and fixed in the u-shaped groove, and the two side arched edges 15 and the bottom surface 16 of the valve seat 13 are matched with the two side surfaces and the top surface of the connecting seat 20. The matching of the side surfaces and the welding of the bottom surface further improve the welding reliability of the valve seat 13 and the connecting seat 20. In this embodiment, adopt the partial punching press of middle section of valve body 10 to form "| -L" shape groove, avoided length direction's hem, reduce the degree of difficulty of processing, also help improving the yield simultaneously, reduce the fitting surface, reduce the degree of difficulty of assembly.

The valve seat 13 is embedded with a connecting seat 20 with a D-shaped cross section. The two side surfaces and the top surface of the D-shaped connecting seat 20 are matched with the valve seat 13, and the connecting seat 20 which is flush with the outer surface of the valve seat 13 is beneficial to reducing the space and facilitating the assembly.

The processing method of the main valve of the stainless steel four-way reversing valve for the air conditioner comprises the following steps:

1) selecting a stainless steel coil with a corresponding width according to the size of the main valve;

2) feeding the stainless steel coil into a die;

201) flattening the stainless steel coil in a mould;

202) pressing the flattened stainless steel coil to form two connected semicircular pipes with upward openings;

203) a valve seat 13 which is concave upwards is formed in the middle of the semicircular pipe in a stamping mode, and the left side face and the right side face of the valve seat 13 are disconnected with the semicircular pipe; the valve seat 13 is formed by press forming in one or more steps;

204) punching a semicircular pipe forming a valve seat 13 to form a capillary hole 12 and a valve port hole 14, and punching the middle part of the other semicircular pipe to form a D-shaped connecting pipe hole 11;

205) flanging the capillary hole 12 and the D connecting pipe hole 11;

206) flattening the valve port surface 17 of the valve seat 13 to form a flattened valve port surface 17;

207) cutting two ends of the two semi-circular pipes;

208) turning over a semi-circular pipe to splice the openings of the two semi-circular pipes to form a tubular valve body 10 with a splicing seam;

3) welding the splicing seams, and leveling the welding seams of the valve body 10 inside and outside;

4) annealing the valve body 10;

5) shaping the inner cavities at the two end parts of the valve body 10;

6) the connecting seat 20 is clamped in the valve seat 13 through press fitting, the periphery splicing part between the connecting seat 20 and the valve seat 13 is sealed and welded through laser welding or argon arc welding, and a welding seam is leveled;

7) installing a welding ring on the D connecting pipe 30, and pressing the welding ring into a D connecting pipe hole 11 of the valve body 10;

8) placing a welding ring into a connecting pipe hole 21 of the connecting seat 20, and pressing the three connecting pipes into the corresponding connecting pipe holes 21 of the connecting seat 20;

9) and placing the main valve body into a furnace for brazing, and thus welding the valve body 10, the connecting pipe and the connecting seat 20 into a whole to obtain the stainless steel four-way reversing valve main valve for the air conditioner with the integrated valve seat.

The valve seat 13 can be made of stainless steel plates through a progressive die, a plurality of common dies or the cooperation of the progressive die and the common dies, the valve port surface 17 is flattened through extrusion, and the requirement on the sealing performance between the valve port surface 17 and a sliding block can be met without a grinding process, so that the complexity of the original valve seat 13 processing process is reduced; the valve port hole 14 of the valve seat 13, the capillary hole 12 and the connecting pipe hole 11 welded with the D connecting pipe 30 are formed at one time through a progressive die, so that the complexity of the processing technology is greatly reduced; the processing technology is simplified, the manufacturing cost is low, and the yield is improved, so the total cost is reduced. Meanwhile, when brazing, as long as there are gaps between the joint pipe hole 21 of the connecting base 20 and the E joint pipe 41, the S joint pipe 42, and the C joint pipe 43, the joint pipe and the joint pipe hole 21 are welded by the solder, and the connecting base 20 and the valve seat 13 are welded together, so that the welding strength is improved. Because the connecting seat 20 is embedded on the valve seat 13 and welded into a whole, the problem of deformation of the valve port surface 17 in practical use can be prevented. Meanwhile, the valve seat 13 integrated with the valve body 10 replaces the original valve seat welded with the valve body, so that the manufacturing, machining and welding processes of the independent valve seat can be saved, and the pipe connecting hole 21 is slightly larger than the valve port hole 14, so that the three pipe connecting pipes are conveniently positioned when being installed. The cost is also reduced due to the simple process. The valve body 10 and all the connecting pipes and the connecting seats 20 are welded in a brazing furnace at one time, the gaps among the connecting pipes and the connecting seats are completely welded by the welding flux, the welding area is large, and therefore the welding strength is high.

In this embodiment, a welding ring with a break and elasticity is adopted, the welding ring can be clamped in the pipe connecting hole 21 of the connecting seat 20, after the E connecting pipe 41, the S connecting pipe 42 and the C connecting pipe 43 are pressed, the welding ring is pressed on the bottom surface 16 of the valve seat 13 by the E connecting pipe 41, the S connecting pipe 42 and the C connecting pipe 43, and the installation and the positioning are convenient.

The welded rings of the E connection pipe 41, the S connection pipe 42 and the C connection pipe 43 are placed between the connecting seat 20 and the valve seat 13: the solder flow path is shortest, full and in-place welding can be obtained between the connecting pipe hole 21 of the connecting base 20 and the connecting pipes 41, 42 and 43, and meanwhile, full and in-place welding can be obtained between the connecting base 20 and the valve seat 13;

after the connecting seat 20 is tightly assembled and pressed into the valve seat 13, the E connecting pipe 41, the S connecting pipe 42 and the C connecting pipe 43 are tightly assembled and pressed into the connecting pipe hole 21 of the connecting seat 20, the position relation of the E connecting pipe 41, the S connecting pipe 42, the C connecting pipe 43, the D connecting pipe 30, the connecting seat 20 and the valve seat 13 can be fixed before welding, and a support does not need to be used for fixing and entering a brazing furnace, so that the process is simple.

The connecting seat 20 is tightly assembled and pressed into the valve seat 13, after brazing, the connecting seat 20 and the valve seat 13 are completely fixed, and the rigidity of the valve port surface 17 is enhanced, so that the valve port surface 17 cannot deform after being used for many times, and the stability and the reliability of a product are improved.

In this embodiment, the mold is a progressive mold to continuously realize the processing of the tubular valve body 10 with a splicing seam, and after the tubular valve body 10 is spliced, the individual body is cut off to form the independent tubular valve body 10. The progressive die is adopted, so that the working efficiency is effectively improved, the position precision is higher, and the yield is effectively improved.

Example two:

the same parts as those in the first embodiment are not described again, but the differences are as follows: as shown in fig. 9, 10, 11, 12, 15 and 16, the cross section of the connection seat 20 is rectangular. The rectangular connecting seat 20 is more convenient to process, and is beneficial to improving the processing precision and reducing the processing cost. On the premise of ensuring the reliability of welding, the connecting seat 20 is more convenient to process. The height of the connecting seat 20 is greater than or equal to the upper concave depth of the valve seat 13, so as to realize reliable sealing welding of the connecting seat and the valve body 10.

Through the improvement of the prior art, the production cost can be greatly reduced, and the production efficiency is improved by 3 times. Has great economic value.

The main valve of the stainless steel four-way reversing valve for the air conditioner with the integrated valve seat and the processing method thereof shown in fig. 1 to 16 are specific embodiments of the present invention, have shown the substantive features and the progress of the present invention, and can be modified equally in shape, structure and the like according to the practical use requirements, and are within the protection scope of the present invention.

Claims (7)

1. Take idle call stainless steel four-way reversing valve main valve of integral type disk seat, including pipy valve body (10), a D takes over (30) lug weld on valve body (10), its characterized in that: the valve seat is characterized by further comprising a connecting seat (20) fixed on the valve body (10), the E connecting pipe (41), the S connecting pipe (42) and the C connecting pipe (43) which are arranged in parallel are welded on the connecting seat (20), the middle section of the valve body (10) is concave to form a valve seat (13), the left side surface and the right side surface of the valve seat (13) are disconnected with the valve body (10) to form an arched edge (15), the concave valve seat (13) forms a convex platform in the inner cavity of the valve body (10), the top surface of the platform is a valve port surface (17) matched with a sliding block in the valve body, the connecting seat (20) is embedded into the concave valve seat (13), the left side surface and the right side surface of the connecting seat (20) cover gaps formed after the valve seat (13) and the valve body (10) are disconnected, three valve port holes (14) opposite to the E connecting pipe (41), the S connecting pipe (42) and the C connecting pipe (43) are formed in the valve seat (13), so that the E connecting pipe (41), The S connecting pipe (42) and the C connecting pipe (43) can be communicated with an inner cavity of the valve body (10), the wall thickness of the valve body is d, wherein d is more than or equal to 0.8mm and less than or equal to 1.7 mm; the bottom surface (16) of the valve seat (13) is a plane and is fixedly connected with the connecting seat (20) through the plane; the L-shaped groove is formed by stamping the middle section part of the valve body (10) of the valve seat (13), the connecting seat (20) is embedded and fixed in the groove, and the two side surfaces and the top surface of the two side arched edges (15) and the bottom surface (16) of the valve seat (13) are matched with the two side surfaces and the top surface of the connecting seat (20).

2. The main valve of the stainless steel four-way reversing valve for the air conditioner with the integrated valve seat as claimed in claim 1, wherein: the connecting seat (20) is provided with three pipe connecting holes (21) opposite to the valve hole (14), the E connecting pipe (41), the S connecting pipe (42) and the C connecting pipe (43) are inserted into the corresponding pipe connecting holes (21), and the aperture of the pipe connecting holes (21) is larger than that of the valve hole (14).

3. The main valve of the stainless steel four-way reversing valve for the air conditioner with the integrated valve seat as claimed in claim 2, wherein: the E connecting pipe (41), the S connecting pipe (42) and the C connecting pipe (43) are welded and fixed with the connecting seat (20) and the valve seat (13).

4. The main valve of the stainless steel four-way reversing valve for the air conditioner with the integrated valve seat as claimed in claim 1, wherein: and two side surfaces of the connecting seat (20) are in interference fit with the arched edge (15) of the valve seat (13).

5. The main valve of the stainless steel four-way reversing valve for the air conditioner with the integrated valve seat as claimed in claim 1, wherein: the cross section of the connecting seat (20) is D-shaped.

6. The processing method of the main valve of the stainless steel four-way reversing valve for the air conditioner with the integrated valve seat is characterized by comprising the following steps of:

1) selecting a stainless steel coil with a corresponding width according to the size of the main valve;

2) feeding the stainless steel coil into a die;

201) flattening the stainless steel coil in a mould;

202) pressing the flattened stainless steel coil to form two connected semicircular pipes with upward openings;

203) a valve seat (13) which is concave upwards is formed in the middle of the semicircular pipe in a punching mode, and the left side surface and the right side surface of the valve seat (13) are disconnected with the semicircular pipe; the valve seat (13) is formed by pressing in one or more steps;

204) punching a capillary hole (12) and a valve port hole (14) on a semicircular pipe forming a valve seat (13), and punching a D-pipe hole (11) in the middle of the other semicircular pipe;

205) flanging the capillary hole (12) and the D-shaped pipe hole (11);

206) extruding and flattening the valve port surface (17) of the valve seat (13) to form a flattened valve port surface (17);

207) cutting two ends of the two semi-circular pipes;

208) turning over a semi-circular pipe to splice the openings of the semi-circular pipe to form a tubular valve body (10) with a splicing seam;

3) welding the splicing seams, and leveling the inside and the outside of the welding seams of the valve body (10);

4) annealing the valve body (10);

5) shaping inner cavities at two end parts of the valve body (10);

6) the connecting seat (20) is clamped in the valve seat (13) through press fitting, the periphery splicing part between the connecting seat (20) and the valve seat (13) is sealed and welded through laser welding or argon arc welding, and a welding seam is leveled;

7) a welding ring is arranged on the D connecting pipe (30) and is pressed in a D connecting pipe hole (11) of the valve body (10);

8) placing a welding ring in a connecting pipe hole (21) of the connecting seat (20), and pressing the three connecting pipes into the corresponding connecting pipe holes (21) of the connecting seat (20);

9) and (3) putting the valve body (10), the connecting pipe and the connecting seat (20) into a furnace for brazing, and welding the valve body, the connecting pipe and the connecting seat into a whole to obtain the main valve of the stainless steel four-way reversing valve for the air conditioner with the integrated valve seat as claimed in any one of claims 1 to 5.

7. The process of claim 6, wherein: the die is a progressive die to continuously realize the processing of the valve body (10) with a splicing seam, and the independent valve body (10) is formed by cutting off the single body after the valve body (10) is spliced.

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