JP4478473B2 - Valve core - Google Patents

Description

  The present invention relates to a valve core.

For example, the conventional valve core 1 shown in FIG. 7 is provided with a disk-shaped rubber stopper 4 fixed to one end of a movable shaft 3 inserted through the core body 2, and a compression coil spring 5 housed in the core body 2. By urging the movable shaft 3 to one side, the rubber plug 4 is always pressed against the edge of the tip opening 8 of the core body 2. Further, a sealing material 6 for closing a gap with an inner wall of a core mounting hole (not shown) is attached to the outer peripheral surface of the core body 2 (see, for example, Patent Document 1).
JP 2002-340206 A (FIG. 6)

  By the way, the cost competition of valve cores has progressed, and there has been a demand for the development of a valve core that can be manufactured at a low cost by reducing the number of parts compared to the conventional valve core 1 described above.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a valve core capable of reducing the number of parts compared to a conventional valve core.

The valve core (10, 60 ) according to the invention of claim 1 made to achieve the above object includes a cylindrical core body (11, 62 ) fixed inside the core mounting hole (52), the core body (11, 6 2) movable shaft linear through the (20,63) is integrally formed on one end side of the movable shaft (20,63), the distal end of the core body (11, 6 2) A plug part (24) for opening and closing the opening (28), and a biasing means (29, 61) for biasing the movable shaft (20, 63) so that the tip opening (28) is closed by the plug part (24). , it includes a fitting loaded tubular seal member to the core body (11, 6 2) (30,3 9), the cylindrical sealing member (30, 3 9), the core body (11,6 2 It is fitted and attached to the outer surface of) the inner wall of the core body (11, 6 2) and the core mounting hole (52) ( Outer seal portion in close contact pinched to 6) and (3 1), is arranged in front of or inside the distal opening (28) of the core body (11, 6 2), an inner in close contact with the stopper portion (24) seal portion (34,3 8) and formed integrally, the inner sealing portion (34) includes a cylindrical portion (32), the cylinder side tapered portion gradually expanding the distal end side inner diameter of the cylindrical portion (32) (33 The plug portion (24) includes a columnar portion (23) that fits inside the cylindrical portion (32), and a shaft-side tapered portion (22) that is in close contact with the cylinder-side tapered portion (33). The movable shaft (20, 63) and the core body (11, 62) are in contact with each other in a state where the plug portion (24) is in close contact with the inner seal portion (34). 19C) has a feature.

The invention according to claim 2 in a valve core (10,6 0) of claim 1, the inner seal portion (3 4) is continuous with the outer seal portion (3 1), the core body (11,6 2 ) Is characterized by protruding forward from one end face.

A third aspect of the present invention, the valve core (10,6 0) according to claim 1 or 2, tubular sealing member (30, 3 9) is rotatably fitted in the core body (11, 6 2) It has a feature where it is installed.

According to a fourth aspect of the present invention, in the valve core (10, 60) according to any one of the first to third aspects, the movable shaft (20, 63) and the core body (11, 62) are made of metals having different hardnesses. The abutting position determining portion (25) on the movable shaft (20, 63) side is formed such that a part of the plug portion (24) is tapered toward the back side of the core body (11, 62). While the contact taper portion (25) is configured, the contact position determining portion (19C) on the core body (11, 62) side is formed at the opening edge of the cylindrical structure of the core body (11, 62). It is composed of an edge portion (19C) and is characterized in that a metal seal is applied between the contact taper portion (25) and the contact edge portion (19C).

The invention of claim 5 is the valve core (10,6 0) according to any one of claims 1 to 4, the outer surface of the core body (11, 6 2), the cylindrical sealing member (30, 3 9) Projecting sideward from the portion (19) to which the body is fitted, and a body positioning contact portion (15) abutted against the inner wall (56) of the core mounting hole (52) in the direction of insertion into the core mounting hole (52) ) Is formed.

Portions invention of claim 6, in the valve core (10,6 0) according to claim 5, the core body (11, 6 2) of the outer surface of the inner cylindrical sealing member (30, 3 9) is fitted (19) is characterized in that the cylindrical seal member (30, 39 ) is abutted against the stepped portion (17) between the body positioning contact portion (15).

According to a seventh aspect of the invention, the valve core (10,6 0) according to any one of claims 1 to 6, on the inner side of the tubular sealing member (3 0), the large-diameter portion (35) and the small diameter portion ( 36) are arranged side by side in the axial direction, and the core body (11, 62 ) is fitted inside the large diameter portion (35), and between the large diameter portion (35) and the small diameter portion (36). It is characterized in that the end surface of the core body (11, 62 ) is abutted against the stepped portion (35A).

The invention of claim 8 is the valve core (1 0) according to any one of claims 1 to 7, the biasing means (29), projecting outwardly from the core body (1 1) of the movable shaft (20) is inserted into the portion, and its movable shaft (20) spring engaging portion integrally formed on the end portion (21), the compression coil spring is compressed between the end surface of the core body (1 1) (29) It is characterized by being composed of

The invention of claim 9 is the valve core (10 ) according to any one of claims 1 to 8 , wherein the core body ( 11) , the movable shaft (20), and the cylindrical seal member (30, 39 ). And an elastic member as the urging means (29).

[Inventions of Claims 1 and 9 ]
In the valve core of claim 1 (10,6 0), the inner seal portion for sealing a gap between the tip and the plug opening (28) of the core body (11, 6 2) and (24) and (34,3 8), outer seal portion for sealing a clearance between the inner wall (56) of the core body (11, 6 2) of the outer surface and the core mounting hole (52) (3 1) and is, integral with the cylindrical sealing member (30, 3 9) Since it is formed, the number of seal parts can be reduced as compared with the conventional valve core. Moreover, since the cylindrical seal member (30, 39 ) is fitted and mounted on the core body (11, 62 ) side, compared to a conventional movable shaft provided with a rubber plug (4), The structure of the movable shaft (20, 63) can be simplified and the number of parts can be reduced.

Accordingly, as the valve core (10 ) of claim 9 , the core body ( 11) , the movable shaft (20), the cylindrical seal member (30, 39 ), and the biasing means (29) It is possible to configure with 4 parts of elastic members.

Further, the cylindrical portion (23) in the plug portion (24) is fitted into the cylindrical portion (32) in the inner seal portion (34) to close the cylindrical portion (32), and the axial side in the plug portion (24) A taper part (22) closely_contact | adheres to the cylinder side taper part (33) in an inner side seal part (34), and seals the open port of a cylindrical seal member (30).

  Note that the columnar portion (23) and the cylindrical portion (32) may have a close fitting configuration or a gap fitting configuration.

Further, due to the mutual contact of the contact position determining portions (25, 19C) provided on the movable shaft (20, 63) and the core body (11, 62), the plug portion (24) becomes the inner seal portion (34). It is restricted from being excessively pressed onto the surface, and the sealing performance is stabilized.

[Invention of claim 2]
In the valve core (10,6 0) according to claim 2, the inner seal portion (3 4), since protrudes forward from one end face of the core body (11, 6 2), of the core mounting hole (52) the valve core The pressure of the compressed fluid filled in the back side from (10, 60 ) is received and pressed to the plug part (24) side, and the sealing performance is improved.

[Invention of claim 3 ]
In the valve core according to claim 3 (10,6 0), since rotatably fitted and mounted on the cylindrical sealing member (30, 3 9) a core body (11, 6 2), a valve core (10,6 0) when screwed into the core mounting hole (52), the cylindrical sealing member (30, 3 9) is rotated relative to the core body (11, 6 2), sliding wear of the inner surface of the core mounting hole (52) Can be suppressed.

[Invention of claim 4 ]
In the valve core (10, 60) according to claim 4 , the contact taper portion (25) provided on the movable shaft (20, 63) side, and the contact edge portion (19C) provided on the core body (11, 62). Are brought into contact with each other, and a metal seal for sealing the tip opening (28) of the core body (11, 62) is applied. Thereby, it becomes a double seal structure with an above-described metal seal and the seal by a cylindrical seal member (30), and a sealing performance improves.

[Invention of claim 5 ]
When the valve core (10, 60 ) according to claim 5 is inserted into the core mounting hole (52), the main body positioning contact portion (15) provided in the core main body (11, 62 ) is formed into the core mounting hole. It strikes against the inner wall (56) of (52) and prevents further insertion of the valve core (10, 60 ) . Accordingly, the outer seal portion (31 ) is not excessively pressed against the inner wall (56) of the core mounting hole (52), and the sealing performance is stabilized.

  Note that the main body positioning contact portion (15) may be made of a metal having a hardness different from that of the inner wall (56) of the core mounting hole (52) to provide a metal seal.

[Inventions of Claims 6 and 7 ]
In the valve core (10,6 0) of claim 6, when inserting into the core mounting hole (52), also cylindrical sealing member (30, 3 9) is pushed in the axial direction, the cylindrical sealing member (30 , 3 9) abuts against the stepped portion of the core body (11, 6 2) (17), it is possible to prevent the shift from the normal position.

In the valve core (10, 60 ) of claim 7 , even if the cylindrical seal member (30 ) is pushed in the axial direction, the large-diameter portion (35 ) provided inside the cylindrical seal member (30 ). ) And the small-diameter portion (36), the end surface of the core body (11, 62 ) hits the step portion (35A), and the cylindrical seal member (30 ) can be prevented from shifting from the normal position. .

[Claim 8 ]
In the valve core (10 ) of claim 8 , since the compression coil spring (29) as the urging means (29) is disposed outside the core body ( 11) , the compression coil spring is provided inside the core body. Compared to the case, the number of parts can be reduced.

[First Embodiment]
Hereinafter, a first embodiment of the present invention will be described with reference to FIGS.
In FIG. 1, reference numeral 50 denotes a valve stem, which has a tubular shape extending in the vertical direction in the figure, and a core mounting hole 52 provided inside the valve stem 50 communicates with, for example, an internal space of a tire (not shown). ing. Then, the compressed air is charged into the tire from the charge port 53 that is open toward the upper side in the figure in the core mounting hole 52.

  A female screw portion 57 is formed at a position near the charge port 53 in the core mounting hole 52, and a reduced diameter portion 54 having an inner diameter smaller than that of the female screw portion 57 is formed behind the female screw portion 57. In addition, a stem-side taper portion 56 whose inner diameter gradually decreases toward the reduced diameter portion 54 is formed between the female screw portion 57 and the reduced diameter portion 54. The valve core 10 according to the present invention is inserted into the core mounting hole 52 from the charge port 53 and is screwed and fixed to the female screw portion 57.

  The valve core 10 is shown in an enlarged manner in FIG. 3 and is composed of four parts: a core body 11, a movable shaft 20, a cylindrical seal member 30, and a compression coil spring 29.

  The core body 11 is made of, for example, a metal having a hardness different from that of the valve stem 50, has a cylindrical shape in which the tip end side in the insertion direction into the core mounting hole 52 is tapered, and includes the axial hole 13 on the inner side. A bridge portion 14 is formed at the base end portion of the core body 11 so as to straddle the base end opening 27 of the axial hole 13. Since the width of the bridge portion 14 is narrower than the inner diameter of the proximal end opening 27 of the axial hole 13 as shown in FIG. 4, a part of the proximal end opening 27 is open upward. Further, a portion of the base end opening 27 covered with the bridge portion 14 is opened to the core mounting hole 52 through a space below the bridge portion 14.

  A male screw portion 12 is formed at the base end portion of the cylindrical portion of the core body 11 and the bridge portion 14. The male screw portion 12 is screwed into the female screw portion 57 of the valve stem 50.

  A cylindrical seal member fitting portion 19 having an outer diameter smaller than that of the entire core main body 11 is formed at the distal end portion of the core body 11, and a shaft hole 13 is opened at the distal end of the seal member fitting portion 19. 28 is open. An arrowhead portion 19B that gradually protrudes outward from the tip toward the rear is formed at the tip of the seal member fitting portion 19. Further, the front end surface 19A of the seal member fitting portion 19 is orthogonal to the axial direction of the core body 11, and the front end surface 19A and the inner peripheral surface of the axial hole 13 intersect at a right angle. A contact edge portion 19C is formed. Further, on the proximal end side of the seal body fitting portion 19 in the core body 11, a body positioning contact portion 15 whose outer diameter is increased stepwise with respect to the seal member fitting portion 19 is formed. ing.

  As shown in FIG. 3, a shaft support hole 14A is formed through the portion of the bridge portion 14 that intersects the center line of the shaft hole 13. The shaft support hole 14A and the shaft hole 13 are movable. The shaft 20 penetrates. The movable shaft 20 is made of, for example, a metal having a hardness different from that of the core body 11. The movable shaft 20 includes a plug portion 24 integrally formed at one end portion (lower end portion in FIG. 3) of the rod body 26, and the other end of the rod body 26. A spring locking part 21 is formed integrally with the part. Specifically, for example, the movable shaft 20 is formed by forging a rod body 26 having a plug portion 24 into the core body 11 and protruding from the bridge portion 14 of the rod body 26. A compression coil spring 29 is inserted through the cable. A spring locking portion 21 is caulked at the end of the rod body 26, and the compression coil spring 29 is stretched between the spring locking portion 21 and the bridge portion 14, so that the movable shaft 20 is connected to the bridge portion 14. Is biased to the side.

  The plug portion 24 includes an abutting taper portion 25, a cylindrical portion 23, and an axial taper portion 22 arranged in the axial direction. The cylindrical portion 23 has a cylindrical shape with a diameter larger than the inner diameter of the axial hole 13. The contact taper portion 25 has a taper structure in which the diameter gradually decreases from the cylindrical portion 23 toward the rod body 26. On the other hand, the shaft-side taper portion 22 has a taper structure in which the diameter gradually increases as the column portion 23 moves away from the rod body 26 on the opposite side. When the plug portion 24 is urged toward the tip opening 28 of the core body 11 by the compression coil spring 29, the middle portion of the contact taper portion 25 is a contact edge portion of the core body 11 as shown in FIG. It contacts 19C. Here, since the core body 11 and the movable shaft 20 are made of different metals, the contact between the contact taper portion 25 provided on the movable shaft 20 and the contact edge portion 19C provided on the core body 11 Metal seal is applied.

  The cylindrical sealing member 30 has a natural sectional structure shown in FIG. As shown in the figure, inside the cylindrical seal member 30, a large diameter portion 35 and a small diameter portion 36 are formed side by side in the axial direction. As shown in FIG. 3, the seal member fitting portion 19 in the core body 11 is fitted inside the large diameter portion 35. Further, the front end surface 19A (see FIG. 3) of the seal member fitting portion 19 is abutted against the step portion 35A (see FIG. 5) between the large diameter portion 35 and the small diameter portion 36, and in the cylindrical seal member 30. The end surface on the large diameter portion 35 side is abutted against the stepped portion 17 between the main body positioning contact portion 15 and the seal member fitting portion 19 in the core main body 11. As a result, the position of the cylindrical seal member 30 is determined in the axial direction.

  As shown in FIG. 5, the base end portion of the cylindrical seal member 30 is an outer seal portion 31 having a larger outer diameter than other portions. Further, a portion of the cylindrical seal member 30 that protrudes from the distal end surface 19 </ b> A of the core body 11 is an inner seal portion 34 that is in close contact with the plug portion 24 of the movable shaft 20. Further, the inner seal portion 34 includes a cylindrical portion 32 provided with the above-described small diameter portion 36 on the inner side, and a cylinder side tapered portion 33 that gradually widens the opening edge of the cylindrical portion 32 toward the opening.

Next, operations and effects of the valve core 10 according to the present embodiment having the above-described configuration will be described below.
In order to fix the valve core 10 in the core mounting hole 52, the valve core 10 is inserted into the core mounting hole 52 from the tip opening 28 side, and the female screw part 57 of the core mounting hole 52, the male screw part 12 of the valve core 10, and Screw together. By deepening the threaded engagement between the male and female screw portions 57 and 12, the valve core 10 is driven to the inner side of the core mounting hole 52, and the inner seal portion 34 of the cylindrical seal member 30 is brought into the reduced diameter portion 54. At the same time, the outer seal portion 31 of the cylindrical seal member 30 comes into close contact with the inner wall (stem-side tapered portion 56) of the core mounting hole 52, and the gap between the core body 11 and the inner surface of the core mounting hole 52 is sealed.

  Here, since the cylindrical seal member 30 is rotatably fitted to and attached to the core body 11, the cylindrical seal member 30 is prevented from rotating and contacting the valve stem 50, and wear is suppressed. Even if the cylindrical seal member 30 receives a force in the axial direction due to friction with the stem-side tapered portion 56, the end of the cylindrical seal member 30 abuts against the stepped portion 17 of the main body positioning contact portion 15. In addition, the end face of the core body 11 abuts on the stepped portion 35A between the large diameter portion 35 and the small diameter portion 36 provided on the inner side of the cylindrical seal member 30, thereby preventing axial displacement.

  When the screwing of the male and female screw portions 57 and 12 is deepened, the outer edge edge portion 16 of the main body positioning contact portion 15 of the core main body 11 comes into contact with the stem-side taper portion 56 as shown in FIG. Here, since the valve stem 50 and the core body 11 are made of different metals, a metal seal is applied. Thereby, the gap between the outer surface of the core body 11 and the inner surface of the core mounting hole 52 is closed by the double seal of the metal seal and the seal by the outer seal portion 31.

  Further, the contact between the outer edge 16 and the stem-side tapered portion 56 prevents the core body 11 from being further screwed in, and the outer seal portion 31 of the cylindrical seal member 30 is connected to the inner wall (stem of the core mounting hole 52 (stem The side taper portion 56) is not excessively pressed and the sealing performance of the cylindrical seal member 30 is stabilized. Thus, the mounting of the valve core 10 into the core mounting hole 52 is completed.

  As shown in FIG. 1, the valve core 10 is always in a closed state in which the plug portion 24 of the movable shaft 20 is directed to the distal end opening 28 of the core body 11 by the elastic force of the compression coil spring 29. Yes. Here, charging compressed air into the tire (not shown) through the core mounting hole 52 is as follows. That is, for example, a charge pump is connected to the charge port 53 in the valve stem 50, and compressed air is sent into the core mounting hole 52. Then, as shown in FIG. 2, due to the pressure of the charged compressed air, the movable shaft 20 moves linearly against the compression coil spring 29, and a gap is generated between the plug portion 24 and the tip opening 28, and the charge port Compressed air flows from the 53 side to the back side of the core mounting hole 52.

  When the charge pump is removed from the charge port 53 when the compressed air is filled in the inner side of the core mounting hole 52, the elastic force of the compression coil spring 29 or the elastic force thereof and the pressure on the inner side of the core mounting hole 52 As a result, the movable shaft 20 moves to the charge port 53 side, and the plug portion 24 returns to the state of closing the tip opening 28 of the core body 11.

  Specifically, when the plug portion 24 is pushed toward the tip opening 28 side of the core body 11, the shaft-side taper portion 22 of the plug portion 24 becomes a cylinder in the inner seal portion 34 of the cylindrical seal member 30 as shown in FIG. 3. The gap between the distal end opening 28 of the core body 11 and the plug portion 24 is sealed by being in close contact with the side taper portion 33. Further, since the cylindrical portion 23 of the plug portion 24 is fitted in the cylindrical portion 32 of the inner seal portion 34, the cylindrical portion 32 is brought into close contact with the cylindrical portion 23 by the pressure on the back side of the core mounting hole 52. The seal is also applied here.

  In a state where the shaft side tapered portion 22 and the columnar portion 23 of the plug portion 24 are in close contact with the cylindrical seal member 30, the contact taper portion 25 of the plug portion 24 contacts the contact edge portion 19 </ b> C of the core body 11. Thereby, the cylinder side taper part 33 of the cylindrical seal member 30 is not excessively pressed by the shaft side taper part 22 of the plug part 24, and the sealing performance is stabilized. Here, since the core body 11 and the movable shaft 20 are made of metals having different hardness, a metal seal is applied between the contact taper portion 25 and the contact edge portion 19C. That is, the gap between the tip opening 28 of the core body 11 and the plug portion 24 is sealed by the double seal structure of the seal by the cylindrical seal member 30 and the metal seal.

  As described above, in the valve core 10 of the present embodiment, the inner seal portion 34 that seals the gap between the distal end opening 28 of the core body 11 and the plug portion 24, the outer surface of the core body 11, and the inner wall (the stem side) of the core mounting hole 52. Since the outer seal portion 31 that seals the gap with the taper portion 56) is integrally formed with the cylindrical seal member 30, the number of seal parts can be reduced as compared with the conventional valve core. In addition, since the cylindrical seal member 30 is fitted and mounted on the core body 11 side, the seal pressing parts can be eliminated from the movable shaft 20, and the structure of the movable shaft 20 can be simplified and the number of parts can be reduced. . In addition, since the compression coil spring 29 is disposed outside the core body 11, the number of parts can be reduced as compared with the case where the compression coil spring 29 is provided inside the core body 11. Thus, the valve core 10 can be configured by four parts, that is, the core body 11, the movable shaft 20, the cylindrical seal member 30, and the compression coil spring 29.

[Second Embodiment]
The valve core 60 of the present embodiment is shown in FIG. 6 and is different from the first embodiment in that a compression coil spring 61 is accommodated in the core body 62. Hereinafter, only the configuration different from that of the first embodiment will be described, and the configuration common to the first embodiment will be denoted by the same reference numeral, and redundant description will be omitted.

  The core main body 62 of the present embodiment can be divided into a main body first component 40 and a main body second component 41 in the middle part in the axial direction. The main body first component 40 constituting the base end side of the core main body 62 includes the male screw portion 12 and the bridge portion 14 described in the first embodiment. Further, a thin cylindrical body 43 protrudes from the end surface of the main body first component 40 opposite to the bridge portion 14.

  A locking flange 44 protrudes laterally from the end of the main body first component 40 on the main body second component 41 constituting the distal end side of the core main body 62. Then, with the locking flange 44 inserted inside the thin cylindrical body 43 and in contact with the back surface of the thin cylindrical body 43, the tip of the thin cylindrical body 43 is bent to the back side of the locking flange 44, The main body first component 40 and the main body second component 41 are connected.

  From the inner edge portion of the distal end opening 28 of the main body second component 41, a spring locking wall 45 projects inward. In the movable shaft 63 of the present embodiment, a spring locking protrusion 46 protrudes laterally from an intermediate portion in the axial direction. Further, the compression coil spring 61 of the present embodiment has a so-called conical coil spring structure, and the winding diameter gradually increases from one end to the other end. Then, in a state where the movable shaft 63 is inserted from the distal end opening 28 side of the main body second component 41, the compression coil spring 61 is accommodated in the main body second component 41, and the large-diameter side end is set to the spring locking wall 45. The spring locking projection 46 is caulked and formed in the middle part of the rod body 26. Next, the main body first component 40 is connected to the main body second component 41. As a result, the movable shaft 63 is biased upward in FIG. 6, and the plug portion 24 closes the tip opening 28 of the core body 62.

  The configuration of the valve core 60 of the present embodiment is as described above, and this configuration also provides the same operational effects as the first embodiment. Further, according to the valve core 60 of the present embodiment, the main body first component 40 can be rotated with respect to the main body second component 41, thereby suppressing wear between the cylindrical seal member 30 and the core mounting hole 52. Thus, the sealing performance can be stabilized.

[Other Embodiments]
The present invention is not limited to the above-described embodiment. For example, the embodiments described below are also included in the technical scope of the present invention, and various other than the following can be made without departing from the scope of the invention. It can be changed and implemented.

  (1) In the valve core 10 of the first embodiment, the core body 11 and the movable shaft 20 are configured to form metal members having different hardnesses and apply a metal seal. However, the movable shaft and the core body are in contact with each other. You may make it the structure which does not give a metal seal only by determining a position.

(2) In the first implementation embodiment, the valve core 1 is 0 male screw portion 12 provided in has a configuration which is retained screwed into the female screw portion 57 of the core mounting hole 52, the valve core Another threaded part may be provided, and the valve core may be inserted into the core mounting hole and then prevented from being removed by the threaded part.

( 3 ) Moreover, you may fix a valve core in a core mounting hole by other latching means, such as an adhesive agent and press fit, other than screwing.

( 4 ) In the first or second embodiment, the valve core according to the present invention is used to open and close the flow path of the compressed air. However, the present invention is not limited to the one used for the flow path of the compressed air. For example, it may be used for a flow path of a fluid such as nitrogen, oxygen, or a refrigerant for an air conditioner.

1 is a side sectional view of a state where a valve core according to a first embodiment of the present invention is mounted in a core mounting hole. Side sectional view with valve core open Side cross-sectional view of valve core Top view of valve core Side sectional view of cylindrical seal member Side sectional view of the valve core of the second embodiment Cross section of conventional valve core

10,6 0 bar Rubukoa <br/> 11, 6 2 core body 15 body positioning knob abutting portion 16 outer edge portion 17 stepped portion 19 sealing member fitting portion 19 A destination end face 19C abutting edge portions (abutment Positioning Department)
20,63 movable shaft 21 the spring locking portion 22 the shaft side tapered portion 2 3 yen pillar portion 24 stopper portion 25 abutting the tapered portion (abutment positioning portion)
28 Tip opening 29, 61 Compression coil spring (biasing means)
30,3 9 tubular sealing member 3 1 outer sealing section 32 cylindrical section 33 cylindrical side tapered portion 34,3 8 inside sealing section 35 the large diameter portion 35A stepped portion 36 small diameter portion 52 the core mounting hole 56 stem side tapered portion ( inner wall)

Claims (9)

A cylindrical core body (11, 62 ) fixed inside the core mounting hole (52);
A movable shaft moves linearly (20,63) through said core body (11, 6 2),
Wherein is integrally formed on one end side of the movable shaft (20,63), said core body (11, 6 2) plug portions for opening and closing the tip opening (28) and (24),
Biasing means (29, 61) for biasing the movable shaft (20, 63) so that the tip opening (28) is closed by the plug portion (24);
It and a said core body (11, 6 2) in the fitting loaded cylindrical sealing member (30, 3 9),
The cylindrical sealing member (30, 3 9), is fitted and attached to the outer surface of the core body (11, 6 2), the inner wall of the core body (11, 6 2) and the core mounting hole (52) outer seal portion in close contact pinched in the (56) (3 1) and, the tip is disposed in front of or inside the opening (28) of said core body (11, 6 2), said plug portion (24) And the inner seal part (34, 38 ) that is in close contact with
The inner seal portion (34) includes a cylindrical portion (32) and a cylindrical taper portion (33) that gradually expands the inner diameter on the front end side of the cylindrical portion (32).
The plug portion (24) includes a columnar portion (23) that fits inside the cylindrical portion (32), and a shaft-side tapered portion (22) that is in close contact with the cylinder-side tapered portion (33). ,
The movable shaft (20, 63) and the core main body (11, 62) are in contact with each other with the plug portion (24) in contact with the inner seal portion (34). , 19C). A valve core (10, 60). Said inner sealing portion (3 4) is continuously in said outer seal portion (3 1), according to claim 1, characterized in that projecting forward from one end surface of the core body (11, 6 2) The valve core (10, 60 ) . The valve core (10, 60) according to claim 1 or 2, wherein the cylindrical seal member (30, 39) is rotatably fitted to the core body (11, 62). The movable shaft (20, 63) and the core body (11, 62) are made of metals having different hardnesses,
The abutting position determining portion (25) on the movable shaft (20, 63) side is formed such that a part of the plug portion (24) is tapered toward the back side of the core body (11, 62). While the contact taper portion (25) is formed,
The abutting position determining portion (19C) on the core body (11, 62) side is configured by an abutting edge portion (19C) formed at the opening edge of the cylindrical structure of the core body (11, 62),
The valve core (10, 10) according to any one of claims 1 to 3, wherein a metal seal is applied between the contact taper portion (25) and the contact edge portion (19C). 60). The outer surface of the core body (11, 62) projects laterally from the portion (19) where the cylindrical seal member (30, 39) is fitted, and is inserted in the core mounting hole (52). The valve core (10, 10) according to any one of claims 1 to 4, wherein a body positioning contact portion (15) is formed to abut against an inner wall (56) of the core mounting hole (52). 60). A step portion between a portion (19) of the outer surface of the core main body (11, 62) to which the cylindrical seal member (30, 39) is fitted and the main body positioning contact portion (15). 6. The valve core (10, 60) according to claim 5, wherein the cylindrical seal member (30, 39) is abutted against (17). A large diameter portion (35) and a small diameter portion (36) are arranged in the axial direction inside the cylindrical seal member (30), and the core body (11, 11) is disposed inside the large diameter portion (35). 62) is fitted, and the end surface of the core body (11, 62) is abutted against the step portion (35A) between the large diameter portion (35) and the small diameter portion (36). The valve core (10, 60) according to any one of claims 1 to 6. The urging means (29) is inserted into a portion of the movable shaft (20) that protrudes outward from the core body (11), and is integrally formed at the end of the movable shaft (20). The valve core (10) according to any one of claims 1 to 7, wherein the valve core (10) comprises a compression coil spring (29) that is compressed between a stop portion (21) and an end face of the core body (11). ). The core main body (11), the movable shaft (20), the cylindrical seal member (30, 39), and an elastic member as the biasing means (29) are composed of four parts. The valve core (10) according to any one of claims 1 to 8 .

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