KR940009814B1 - Flow regulating valve - Google Patents

Abstract

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Description

Flow control valve

1 is a cross-sectional view of a flow regulating valve of the present invention.

2A is a sectional view of a needle valve of the flow regulating valve.

2b is a cross-sectional view of the casing body of the flow regulating valve.

3 and 4 are explanatory views of the valve seat body of the flow regulating valve.

5 is an explanatory diagram of a conventional flow control valve.

* Explanation of symbols for main parts of the drawings

1: casing body 2: needle valve

3: valve side 4: valve seat body

5: cylinder 10: fluid passage

12: valve chamber 30: valve body

40: valve seat portion

The present invention relates to a flow rate adjustment valve used for adjusting the speed of an actuator for air or hydraulic pressure.

Generally, as shown in FIG. 5, the flow regulating valve is comprised by arrange | positioning the needle valve 2 in the fluid path 10 formed in the casing main body 1, The said fluid path 10 The needle valve 2 is press-fitted into the valve accommodation chamber 12 opened in a direction perpendicular to the direction of the cross section.

The needle valve 2 includes a valve shaft 3 having an operation portion 31 in one opening of the cylinder 5 and a valve body portion 30 in the front end thereof, as shown in the drawing. The screwing is carried out and coking is fixed by the aspect which inserts the cylindrical valve seat body 4 which has the valve seat part 40 in the other opening part.

In this case, when the operation part 31 is rotated, the valve body part 30 approaches or separates from the valve seat part 40, and the fluid passage area changes, so that the flow rate of the fluid downstream can be adjusted. . Therefore, when this flow regulating valve is installed in the air circuit for driving the cylinder, for example, it is possible to easily adjust the advancing and retreating speed of the output shaft of the cylinder.

However, in the flow rate control valve of the above configuration, if the operation portion 31 is tightened more strongly than necessary, the caulking portion of the bent cylinder 5 is opened and the valve seat 4 is moved in the cylinder 5. There is a problem that the flow rate adjustment becomes difficult or impossible.

On the other hand, the flow regulating valve also has a problem that it requires a lot of time for assembly because of the large number of assembly operations.

Therefore, the present invention aims to provide a flow regulating valve which can shorten the time required for assembly and does not interfere with the flow rate adjustment even if the operation portion is tightened more strongly than necessary.

Thus, in the present invention, the valve accommodation chamber 12 is formed in the fluid path 10 formed in the casing body 1 with respect to the flow rate regulating valve, and the needle valve 2 in the valve accommodation chamber 12 is provided. , The needle valve 2 is screwed into the cylinder 5 supported by the constituent wall of the valve accommodation chamber 12 and one opening of the cylinder 5. And a valve shaft 3 having a valve body portion 30 at a tip end thereof, and a cylinder in which the valve seat portion 40 is mounted in an aspect opposite to the valve body portion 30 in the other opening of the cylinder body 5. In the flow regulating valve composed of the valve seat body 4 having a shape, the valve seat body 4 is formed by penetrating through the coaxial hole 42 coaxial with the valve shaft 3, and the valve seat body 4. A fluid passage 3 is formed in the end face of the flange portion 41 of the flange portion 41, and the valve seat 4 is connected to the cylinder 5. The bottom wall which comprises the valve accommodation chamber 12 is clamped.

Referring to the operation of the present invention made of the above configuration as follows.

When the needle valve 2 is operated, the valve body portion 30 at the tip end of the valve shaft 3 approaches or is separated from the valve seat portion 40 of the valve seat body 4 in the same manner as a conventional flow regulating valve. The opening degree of the fluid path 10 changes.

When the needle valve 2 is operated to be tightened, the valve body portion 30 abuts against the valve seat portion 40. When the needle valve 2 is further tightened, the valve seat body 4 is inserted into the valve seat body 4 from the valve shaft 3. Pressing force is applied. However, in the present invention, since the valve seat 4 is fitted by the bottom wall constituting the cylinder 5 and the valve accommodation chamber 12, the movement of the valve seat 4 is controlled by the valve accommodation chamber. It is impeded by the bottom wall which comprises (12).

In addition, the valve seat body 4 as described above is configured to be fitted by the constituent walls of the cylinder 5 and the valve accommodation chamber 12, so that the valve seat body ( Coking fixation to the cylinder 5 of 4) becomes unnecessary.

EMBODIMENT OF THE INVENTION Hereinafter, it demonstrates according to drawing which showed the structure of this invention as an Example.

The flow regulating valve includes a valve accommodation chamber 12 which opens in a direction orthogonal to this in the fluid path 10 formed in the casing body 1, as shown in FIGS. 1 and 2A and b. The needle valve 2 is press-fitted from the opening of the storage chamber 12 and assembled.

The casing body 1 is made of a synthetic resin, and as shown in FIG. 2B, an enlarged opening 14 is formed in the opening portion of the valve accommodation chamber 12, and the other, the fluid path ( 10 is provided with an attachment / detachment mechanism (7) which can be attached and detached by a tub, which is a fluid pipe, at the entrance of 10).

In addition, the needle valve 2 described above includes a cylinder 5 at both ends and a valve shaft 3 which is screwed into an opening of one of the cylinders 5, as shown in FIG. The valve seat body 4 inserted into the other opening part of the said cylinder 5 is comprised, and the lock nut 9 which prevents relative rotation of the said valve shaft 3 and the cylinder 5 is comprised.

As shown in the same drawing, the valve shaft 3 has a configuration including an operation portion 31, a male screw portion 32, and a valve body portion 30, and the valve body portion 30 and the male screw portion 32. A groove 33 for mounting the O-ring 60 is formed between each other, and at the same time, the valve body portion 30 has a tapered portion 34 having a tapered end toward the tip portion.

As shown in Figs. 2 to 4, the valve seat body 4 has a cylinder part 45 having a diameter smaller than that of the valve body part 30, and a cross section having a drum shape. The valve seat 4 is formed of a flange portion 41, and a through hole 42 coaxial with the valve shaft 3 is formed in the valve seat 4, and a through hole 42 is formed in the end face of the collar portion 41. ), A fluid passage 43 is formed. In addition, the valve seat 4 is provided with a taper cylindrical packing 44 on the cylinder 45, and the maximum diameter of the packing 44 is press-contacted with the inner circumferential wall of the cylinder 5 described later. The size is to say. Moreover, in this valve seat body 4, the upper part of the inner peripheral wall in the cylinder part 45 turns into the valve seat part 40. As shown in FIG.

As shown in FIG. 2A, the cylinder 5 has an outer diameter set slightly larger than the diameter of the valve accommodation chamber 12, and forms the flange portion 56 on the outer circumferential surface near one end thereof, and at the same time the inner circumferential surface thereof. The male screw portion 50 corresponding to the male screw portion 32 is formed in the inner portion, and the enlarged opening portion 51 corresponding to the flange portion 41 is formed on the inner circumferential surface near the other end portion. In addition, grooves 52 and 53 for mounting the O-rings 61 and 62 are formed on the side circumferential surface of the cylindrical body 5, and at the same time, the engaging protrusions 54 having a sawtooth profile are formed. A pair of fluid passage holes 55 and 55 is formed between the grooves 52 and 53.

Moreover, the length from the lower surface of the flange part 56 of the cylinder 5 in the state which attached the valve seat 4 to the said cylinder 5 from the end surface of the valve seat 4 (FIG. 2A figure). A dimension shown in Fig. 2 is equal to or slightly larger than the length (B dimension shown in Fig. 2A) from the bottom wall surface of the valve accommodation chamber 12 of the casing body 1 to the bottom surface of the enlarged opening 14. have.

Since each part of this flow regulating valve is comprised as mentioned above, when the needle valve 2 was press-fitted into the valve accommodation chamber 12 of the casing main body 1, as shown in FIG. The engagement protrusion 54 of 5 has entered into the inner peripheral wall of the valve accommodation chamber 12, and the valve seat 4 is the bottom wall which comprises the cylinder 5 and the valve accommodation chamber 12. As shown in FIG. It becomes the state clamped by (13).

In addition, in the case of this flow regulating valve, the control flow path is the connection tub (a) → the fluid path (10a) of the casing body (1) → the lower space of the valve accommodation chamber (12) → the slit (43) of the valve seat body. → the through hole 42 of the valve seat body 4 → the gap between the valve body part 30 and the valve seat part 40 → the fluid passage hole 55 of the cylinder body 5 → the casing body 1 The fluid path 10b is connected to the connection tube b, and the free flow path is the connection tube b, the fluid path 10b, the fluid passage hole 55, the valve body part 30 and the valve seat part. The space between the gaps 40 and between the inner circumferential surface of the cylinder 5 and the outer circumferential surface of the packing 44 becomes the lower space of the valve accommodation chamber 12, the fluid path 10a, and the connection tube a. .

As described above, the present invention has the configuration as described above, and thus has the following effects. That is, even if the needle valve 2 is tightened more strongly than necessary, the movement of the valve seat body 4 is prevented by the bottom wall of the valve accommodation chamber 12, so that the valve seat body 4 has a cylindrical body 5. It does not move within) and, as a result, does not interfere with the flow rate adjustment of the fluid.

Further, in the assembly of the present invention, in the assembling step, the caulking fixation of the valve seat body 4 to the cylinder 5 becomes unnecessary, so that the number of labor required for assembly is reduced, and as a result, the time required for assembly is shortened. It becomes possible to plan.

Claims (1)

The valve accommodation chamber 12 is formed in the fluid path 10 formed in the casing body 1, and the needle valve 2 is disposed in the valve accommodation chamber 12 so as to be externally operable. (2) a valve shaft having a cylinder body 5 supported by a constituent wall of the valve accommodation chamber 12 and an opening of one of the cylinder bodies 5, and having a valve body portion 30 at its tip end ( 3) and a flow regulating valve composed of a cylindrical valve seat 4 mounted on the other opening of the cylinder 5 in a manner in which the valve seat 40 is opposed to the valve body 30. In the valve seat body 4, a through hole 42 coaxial with the valve shaft 3 is formed therethrough, and a through hole 42 is formed in the end face of the flange portion 41 of the valve seat body 4. A fluid passage 43 is formed in communication with the valve seat, and the valve seat 4 is fitted by the bottom wall 13 constituting the cylinder 5 and the valve accommodation chamber 12. Flow control valve, characterized in that.

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