KR200470135Y1 - Core assembly and check valve incorporating the same - Google Patents

Abstract

The present invention relates to a core assembly and a check valve having the same, and in particular, when the core is detached from the pipe, the core is not deformed, and the core is in close contact with the seat due to the pressure and temperature of the fluid. The present invention relates to a core assembly and a check valve having the same, so that the operation is smoothly performed even in repeated use.

The present invention, in the core assembly for the check valve axially fitted to the seat assembled in the coaxial direction of the case pipe, one end of the outer peripheral surface 1311 fitted in the axial direction of the seat 1200 is reduced in shaft diameter A binary constant length projection 1312 is provided, the other end of the body 1310 is formed with a circular groove 1315 of a predetermined depth in the direction of the central axis, and the stepped side wall of the body 1310 is fitted into the protrusion 1312 A sealing washer 1320 made of a synthetic resin material that is in close contact with the protrusion, and is fitted to the protrusion 1312 to be in close contact with the sealing washer 1320 and has a diameter smaller than that of the sealing washer 1320. It is characterized by consisting of a fixing washer (1330) for fixing the sealing washer 1320 in the axial direction by riveting molding.

Core, Seat, Check Valve, Washer

Description

CORE ASSEMBLY AND CHECK VALVE INCORPORATING THE SAME}

The present invention relates to a core assembly and a check valve having the same, and more particularly, when the core is detached from the seat, the core is not deformed, and the pressure and temperature of the fluid are in close contact with the seat. Since the core is not deformed, and the operation is smoothly performed even in repeated use, the core assembly and the check valve having the same are improved.

In general, the check valve used in the refrigeration system, as shown in Figure 11, the seat 130 having a flow path is fixed to a predetermined position of the case pipe 120 to block the reverse flow of the refrigerant, the seat 130 The core 110 is installed in the axial direction of the case pipe 120 so as to open and close the flow path, and a stopper 140 is installed at one end of the case pipe 120 while both ends of the case pipe 120 are installed. The refrigerant pipes 150 and 160 through which refrigerant flows in and out are connected.

Here, the core 110 is heat treated to prevent leakage when installed in the check valve composed of the case pipe 120 to prevent leakage of the refrigerant.

Reference numeral 112 is a wing, 113 is an injection molding groove.

Therefore, when a refrigerant that is a fluid flows into the refrigerant pipe 150, it is supplied to the rear through the seat 130 and the case pipe 120. On the contrary, when a refrigerant that is a fluid flows into the refrigerant pipe 160, the stopper 140 is introduced. And the refrigerant passing through the case pipe 120 is in close contact with the body portion 111 of the core 110 to the seat 130 to prevent the refrigerant from leaking into the refrigerant pipe 150.

However, when the core 110 is assembled by welding the sheet 130 or the stopper 140 to which the core is detached to the case pipe 120, the welding heat is formed of plastic through the case pipe 120. ) Has the drawback that deformation occurs.

In addition, when the diameter of the case pipe 120 or the pressure of the refrigerant is large, the pressure and temperature of the refrigerant, which is a fluid, become high, and the core 110 repeatedly contacted with the sheet 130 is deformed to deform the sheet 130. There is a flaw in the axial flow path. Therefore, the core 110 has a drawback that the operation is not made smoothly when repeated use is not reliable.

On the other hand, in order to eliminate such defects, the core may be formed of Teflon having high heat resistance, but such Teflon is difficult to form core and has a high material cost.

The present invention is to solve the above-described drawbacks, the synthetic resin sealing washer and the fixing washer is inserted into the protrusion of the body is fixed in the axial direction, the core is not easily deformed when assembling the sheet detachable core to the pipe Of course, the core that is in close contact with the sheet is not deformed by the pressure and temperature of the fluid, the operation is made smoothly even in repeated use is the first object to provide a core assembly that improves the reliability.

The present invention, the body is easy to move in the axial direction in the seat, the assembly is easy when the sealing washer is installed by the interference prevention portion, even if the sealing washer is worn by the sealing surface to the seat portion of the sheet A second object is to provide a core assembly that can be in close contact and reliably prevent fluid leakage.

The present invention has a third object to provide a core assembly in which the sealing washer is provided with a stepped portion and needs only precision processing.

According to the present invention, the synthetic resin sealing washer and the fixing washer are inserted into the protrusion of the body to be fixed in the axial direction. There is a fourth purpose to provide a check valve that does not deform the core close to the seat, the operation is smooth even in repeated use, so that the reliability is improved.

The present invention has a fifth object to provide a check valve, characterized in that a plurality of through holes formed in the seat is formed at an equal angle to facilitate the flow of the fluid.

The present invention is a core assembly for a check valve for achieving the above object, is fitted in the axial direction to the seat assembled in the coaxial direction of the case pipe, one end of the outer peripheral surface fitted in the axial direction of the seat is reduced in shaft diameter A binary constant length protrusion is provided, and the other end is provided with a body having a circular groove having a predetermined depth in the direction of the central axis, a sealing washer made of a synthetic resin material fitted to the protrusion and closely contacting the stepped side wall of the body, and inserted into the protrusion part. While being in close contact with the sealing washer characterized in that consisting of a fixing washer having a diameter smaller than the diameter of the sealing washer and the end of the protrusion riveting molding to fix the sealing washer in the axial direction.

In the core assembly for the check valve according to the present invention, the body has a smaller outer diameter compared to both ends of the center of the outer circumferential surface having a larger diameter, and the outer diameter of the end portion of the side wall on which the sealing washer is in close contact is larger than the outer diameter of the fixing washer. Stepped interference prevention portion is formed to a certain thickness to have a constant diameter to have a smaller diameter than the outer diameter of, characterized in that the inclined sealing surface is provided on the outer peripheral surface of the large diameter of the stepped body by the interference prevention portion.

In the core assembly for the check valve of the present invention, the sealing washer has a through hole formed to be fitted to the protrusion at the center of the shaft, and an inclined surface is formed at the corner which is repeatedly contacted with the seat, while the inclined surface is formed. Steps are formed on the outer circumferential surface and the surface in which the fixing washer is in close contact.

The check valve provided with the core assembly of the present invention includes the core assembly described above, which is axially fitted to the seat assembled in the coaxial direction of the case pipe, and the seat is fitted and fixed in the inner diameter axial direction of the case pipe. It consists of a fixed portion and a fluid inlet portion having a predetermined length with a diameter smaller than the outer diameter of the seat fixing portion, the seat fixing portion is formed with a fixing groove for fixing with the case pipe at a predetermined position of the outer peripheral surface, the fluid in the shaft center While the passage of the through is formed, an inclined sheet surface on which the core assembly is in close contact is formed at the axis center connected to the fluid inlet portion, the fluid inlet portion is formed with an axial hole having the same diameter as the seat surface, A through hole is formed from the outer circumferential surface toward the axial center so as to penetrate the hole, while a groove is formed at the end of the hole. The groove has a structure in which a snap ring is fitted to prevent the core assembly from falling out of the hole of the fluid inlet.

The check valve having a core assembly of the present invention is characterized in that a plurality of through holes are formed at equal angles.

As described above, according to the core assembly of the present invention and the check valve provided with the same, the synthetic resin sealing washer and the fixing washer are inserted into the protrusion of the body to be fixed in the axial direction, so that the core is deformed when the sheet is detached from the core. This does not occur, of course, the core in close contact with the sheet is not deformed by the pressure and temperature of the fluid, the operation is made smoothly even in repeated use is improved reliability.

According to the core assembly for the check valve of the present invention, the body is easy to move in the axial direction in the seat, the assembly is easy when the sealing washer is installed by the interference prevention unit, and the diarrhea sealing washer is worn by the sealing surface. In this case, there is an effect of being in close contact with the seat portion of the sheet to reliably prevent leakage of the fluid.

According to the core assembly for the check valve of the present invention, the sealing washer is formed in the stepped portion, there is an effect that only the required portion is precisely processed.

Hereinafter, with reference to the accompanying drawings will be described in detail the core assembly and the check valve having the same according to the present invention.

In adding the reference numerals to the components of the accompanying drawings, the same components, even if displayed on the other drawings to have the same reference numerals as possible, it is determined that may unnecessarily obscure the subject matter of the present invention Detailed descriptions of well-known functions and configurations will be omitted.

According to the present invention, the core assembly 1300 axially fitted to the seat 1200 assembled in the coaxial direction of the case pipe 1100 having a tubular shape so that the fluid is introduced and discharged is as shown in FIGS. 1 to 3. One end of the outer circumferential surface 1311 fitted in the axial direction of the seat 1200 has a reduced shaft diameter, and is provided with a protrusion 1312 having a predetermined length. The formed body 1310, a sealing washer 1320 made of a synthetic resin material which is fitted to the protrusion 1312 and adheres to the stepped sidewall of the body 1310, and the sealing washer 1320 is fitted to the protrusion 1312. While having a diameter smaller than the diameter of the sealing washer 1320 and riveting the end portion of the protrusion 1312 is made of a fixing washer (1330) for fixing the sealing washer 1320 in the axial direction.

Here, the body 1310 and the fixing washer 1330 is made of a brass material in this embodiment, the sealing washer is made of Teflon (Teflon).

The riveting molding of the end portion of the protrusion 1312 may be formed in a pointed shape in the present invention, but may be formed in a circular shape, and the diameter of the protrusion 1312 may have a radius of 1 mm or less.

Accordingly, the synthetic resin sealing washer 1320 and the fixing washer 1330 are inserted into the protrusion 1312 of the body 1310 and fixed in the axial direction, so that the core assembly 1300 is detached from the seat 1200 (case pipe). Deformation of the sealing washer 1320 fixed to the body 1310 of the core assembly 1300 when assembled to the 1100, as well as deformation of the sealing washer 1320 in close contact with the sheet by the pressure and temperature of the fluid. Since the operation is smooth even in repeated use, the reliability is improved.

Wherein the body 1310, the outer diameter of the outer circumferential surface 1311 having a large diameter is smaller than the outer end, the outer diameter of the side wall that the sealing washer 1320 is in close contact than the outer diameter of the fixing washer 1330 Stepped interference prevention portion 1314 is formed to a certain thickness to have a constant diameter to have a larger diameter than the outer diameter of the sealing washer 1320, the outer circumferential surface having a large diameter of the stepped body 1310 by the interference prevention portion ( 1311 is characterized in that the inclined sealing surface (1313) is provided.

Therefore, the body 1310 is easy to move in the axial direction in the seat 1200, the assembly is easy when the sealing washer 1320 is installed by the interference prevention unit 1314, the sealing surface 1313 As a result, even when the dilution sealing washer 1320 is worn out, the dilution of the fluid can be prevented by being in close contact with the seat portion 1214 described later of the seat 1200.

In addition, the sealing washer 1320 has a through hole 1321 formed at the center of the shaft so as to be fitted into the protrusion 1312, and an inclined surface is formed at an edge that is repeatedly contacted with the sheet 1200, while the inclined surface is formed. A step portion 1322 is formed on a surface where the outer circumferential surface to be formed and the fixing washer 1330 are in close contact with each other are formed.

Therefore, the step portion 1322 is formed in the sealing washer 1320, so that only the necessary portion in contact with the sheet portion 1214 of the sheet 1200 need to be precisely processed.

Meanwhile, the check valve 1000 having the core assembly 1300 of the present invention is axially fitted to the seat 1200 assembled in the coaxial direction of the case pipe 1100 as shown in FIGS. 1 to 5. The core assembly 1300 of the above-described embodiment, the seat fixing portion 1210 which is fitted and fixed in the inner diameter axial direction of the case pipe 1100, and the fluid inflow having a predetermined length with a diameter smaller than the outer diameter of the sheet fixing portion Part 1220, but the seat fixing portion 1210 is formed with a fixing groove 1212 for fixing with the case pipe 1100 at a predetermined position of the outer peripheral surface, the passage 1213 of the fluid in the axis On the other hand, the inclined seat surface 1214 is formed at the shaft center connected to the fluid inlet part 1220, and the core assembly 1300 is in close contact with the fluid inlet part 1220. An axial hole 1222 of the same diameter as 1214 is formed, Through holes 1223 are formed in the outer circumferential surface toward the axis center so as to penetrate the air holes 1222, while the sheet 1200 having grooves 1224 is formed at the ends of the holes 1222 and the grooves 1224. The core assembly 1300 includes a snap ring 1400 that is fitted to prevent the core assembly 1300 from falling out of the hole 1222 of the fluid inlet 1220.

Here, a plurality of through holes 1223 of the sheet 1200 are formed at equal angles.

Reference numeral 1110 denotes a seat fixing tube portion, and 1140 is a groove formed when fixing the sheet 1200.

Accordingly, when the fluid flows into the left end 1120 of the case pipe 1110, the fluid is pushed into the core assembly 1300 seated on the seat 1200 while the fluid passes through the passage 1213 and the seat of the seat fixing part 1210. The through hole 1223 formed in the hole 1222 of the fluid inlet portion 1220 through the surface 1214, the space formed on the inner diameter of the case pipe 1110 and the outer peripheral surface of the fluid inlet portion 1220 It is discharged to the right end 1130 of the case pipe 1110 through.

Meanwhile, when the compressor is stopped, the refrigerant supplied to the right end 1130 of the case pipe 1110 tries to flow back, but the core assembly 1300 is moved to the left side by the refrigerant pressure, so that the sealing washer 1320 is seated. It is in close contact with the seat surface 1214 of 1200 to prevent backflow.

In this case, the synthetic resin sealing washer 1320 and the fixing washer 1330 are inserted into the protrusion part 1312 of the body 1310 and fixed in the axial direction, so that the core assembly 1300 is detached from the seat 1200 (case pipe). It is easy to deform since heat is not directly transferred to the sealing washer 1320 fixed to the body 1310 of the core assembly 1300 when assembled to the 1100 or the connecting pipe (not shown) at both ends of the case pipe 1100. It will not occur.

In addition, the body 1310 and the fixing washer 1330 of the core assembly 1300 is made of brass made of metal so that deformation does not occur even at a high temperature, as well as deformation does not occur in the pressure and temperature of the fluid, the seat 1200 The sealing washer 1320 made of Teflon material is not deformed, the operation is made smoothly even in repeated use.

In addition, the core assembly 1300 may be prevented from being separated from the hole 1222 of the fluid inlet part 1220 by the snap ring 1400 fixed to the seat 1200.

In addition, even when the sealing washer 1320 is deformed or damaged by the sealing surface 1313, the body 1310 is in contact with the sheet surface 1214 of the seat 1200 to prevent backflow, thereby increasing reliability. have. In addition, when a groove having a reduced diameter is formed on an outer circumferential surface of the body 1310, the hole 1222 of the fluid inlet part 1220 formed at one side of the seat 1200 may be smoothly moved without interference.

The embodiments of the present invention described above and illustrated in the drawings should not be construed as limiting the technical spirit of the present invention. The scope of protection of the present invention is limited only by the matters described in the claims, and those skilled in the art will be able to modify the technical idea of the present invention in various forms. Therefore, such improvements and modifications will fall within the protection scope of the present invention, if it is obvious to those skilled in the art.

1 is a longitudinal sectional view showing a check valve according to an embodiment of the present invention,

Figure 2 is a longitudinal cross-sectional view of the core assembly according to an embodiment of the present invention,

3 is a perspective view of the core assembly of FIG.

4 is a longitudinal sectional view of a sheet according to an embodiment of the present invention;

5 is a perspective view of the seat of FIG. 4;

6 is a half sectional view illustrating a conventional check valve;

FIG. 7 is an explanatory diagram showing the core of FIG. 6. FIG.

Description of the Related Art

1000: check valve 1100: case pipe

1200: sheet 1210: sheet fixing section

1220: fluid inlet 1300: core assembly

1310: body 1320: sealing washer

1330: washer 1400: snap ring

Claims (5)

In the core assembly for the check valve fitted in the axial direction to the seat assembled in the coaxial direction of the case pipe, One end of the outer circumferential surface 1311 fitted in the axial direction of the seat 1200 is reduced in shaft diameter and provided with a protrusion 1312 having a predetermined length. In addition, the outer diameter of the outer circumferential surface 1311 having a large diameter is smaller than both ends, and the outer diameter of the end of the side wall on which the sealing washer 1320 is in close contact is larger than the outer diameter of the fixing washer 1330 than the outer diameter of the sealing washer. And the body 1310 is formed with a stepped interference prevention portion 1314 to a predetermined thickness to have a constant diameter to have a small diameter, A sealing washer 1320 made of a synthetic resin material inserted into the protrusion 1312 to be in close contact with the stepped sidewall of the body 1310; The sealing washer 1320 is fixed in the axial direction by riveting the end of the protrusion 1312 while having a diameter smaller than the diameter of the sealing washer 1320 while being inserted into the protrusion 1312 and being in close contact with the sealing washer 1320. Core assembly for a check valve, characterized in that consisting of a fixed washer (1330). delete The method of claim 1, The sealing washer 1320 has a through hole 1321 formed at the center of the shaft so as to be fitted into the protrusion 1312, and an inclined surface is formed at a corner that is repeatedly contacted with the sheet 1200, while the inclined surface is Core assembly for a check valve, characterized in that the step portion 1322 is formed on the outer circumferential surface is formed and the surface of the fixing washer (1330) in close contact. The core assembly 1300 of any one of claims 1 or 3, which is axially fitted to the seat 1200 assembled in the coaxial direction of the case pipe 1100 made of a tubular shape so that the refrigerant is supplied, The seat fixing part 1210 is inserted and fixed in the axial direction of the inner diameter of the case pipe 1100, and the fluid inlet portion 1220 having a predetermined length with a diameter smaller than the outer diameter of the seat fixing part, the seat fixing part 1210 has a fixing groove 1212 for fixing the case pipe 1100 at a predetermined position of the outer peripheral surface, the passage 1213 of the fluid is formed through the shaft center, while the fluid inlet 1220 An inclined seat surface 1214 is formed at the shaft center connected to the core assembly 1300, and the fluid inlet part 1220 has an axis having a diameter equal to the inclined diameter of the seat surface 1214. A direction hole 1222 is formed, and a through hole 1223 is formed from the outer circumferential surface toward the axial center so as to penetrate the hole 1222, while the sheet 1200 having the groove 1224 formed at the end of the hole 1222. )Wow, The groove 1224 includes a check valve having a core assembly including a snap ring 1400 fitted to prevent the core assembly 1300 from being pulled out of the hole 1222 of the fluid inlet 1220. . 5. The method of claim 4, The through-hole 1223 is a check valve having a core assembly, characterized in that a plurality of formed at an equal angle.

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