JP2539970Y2 - Pressure regulating valve - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Purpose of the Invention] (Industrial Application Field) The present invention relates to a pressure regulating valve used in a vacuum circuit, a pneumatic circuit, and the like.

(Prior Art) A conventional pressure regulating valve will be described with reference to FIG.

In FIG. 6, the valve box (A) has a body (1) and a valve retainer (8). The cylindrical vessel (1) is communicated in the axial direction by a suction hole (2), a suction chamber (3), and a discharge chamber (4). A mortar-shaped valve seat (5) is formed between the suction chamber (3) and the discharge chamber (4). An umbrella-shaped valve element (6) corresponding to the shape of the valve seat (5) is provided on the valve seat (5) by a spring (7).
Has been pressed. On the other hand, the other end of the spring (7) is engaged with the engaging portion (8a) of the valve retainer (8), and the male screw portion (8b) of the valve retainer (8) It is screwed into the female thread (1a) and is fixed by a lock nut (9). Further, the valve retainer (8) shares the discharge chamber (4) on the male screw portion (8b) side, and a discharge hole (10) communicating with the discharge chamber (4) is formed at the other end. Connection (8
c) has.

 Next, the operation will be described.

The pressure regulating valve (C) is used, for example, by connecting to a pipe connecting the vacuum pump (P) and the vacuum tank (T) (fourth).
Figure).

When the gas in the vacuum tank (T) is sucked by the vacuum pump (P), the inside of the vacuum tank (T) gradually becomes a vacuum state. When the degree of vacuum in the vacuum tank (T) is equal to or greater than a predetermined value, the suction force by the negative pressure is greater than the force of the spring (7) pressing the valve body (6) against the valve seat (5), Body (6)
Is separated from the valve seat (5), and the suction chamber (3) and the discharge chamber (4)
Is communicated. Due to this communication, the air flows in from the suction hole (2), the degree of vacuum in the vacuum tank (T) decreases, and the degree of vacuum in the vacuum tank (T) does not exceed a predetermined value.

(Problem to be Solved by the Invention) According to the above pressure regulating valve, the valve element (6) in the open state
Is extremely unstable because it is supported only by the spring (7). For this reason, the valve body (6) vibrates vigorously right and left under the influence of the flow of the sucked air, and collides with the valve seat (5) or the side wall of the discharge chamber (4) to generate noise. .

Further, when the valve body (6) and the valve seat (5) are damaged by the collision, there is a problem that the degree of sealing is reduced, and it has been difficult to maintain stable performance for a long period of time.
SUMMARY OF THE INVENTION It is an object of the present invention to provide a pressure regulating valve capable of minimizing noise generation and maintaining a quiet and stable performance.

[Constitution of the Invention] (Means for Solving the Problems) The present invention is directed to a guide portion provided in a valve box for slidably guiding a valve element, and a suction hole formed by the movement of the valve element with respect to a valve seat. A plurality of communication passages formed in the guide portion or the valve body so that the communication state with the valve member changes stepwise.

(Operation) According to the present invention, the valve element is moved toward and away from the valve seat while being guided by the guide portion provided in the valve box, and each communication path is moved in accordance with the movement of the valve element. Stepwise communication with the suction port,
Or it is closed.

(Embodiment) An embodiment of the present invention will be described with reference to FIGS.

1 is a side sectional view of a configuration example of a pressure regulating valve according to the present invention, FIG. 2 is a sectional view taken along the line II-II in FIG. 1, FIG. 3 is a sectional view showing an operation state, and FIG. It is a figure showing the example of use of.

In FIG. 1, the valve box (B) has a body (21) and a valve retainer (28). The container (21) is cylindrical and has a plurality of suction holes (25) provided in the axial direction and a discharge chamber (2).
3) communicates from one end to the other end.
A valve seat (22) is formed at one end of the discharge chamber (23) on the side of the suction hole (25). The other end of the discharge chamber (23) has a predetermined length from the opening (21b) of the discharge chamber (23). A female thread portion (21a) is formed. The side wall (23a) of the discharge chamber (23) is provided with a plurality of semicircular communication passages (24) from the vicinity of the valve seat (22) to the female thread portion (21a). Further discharge chamber (23)
Inside, a valve body (26) having a circular cross-section corresponding to the cross-sectional shape of the discharge chamber (23) is slidably provided using the side wall (23a) as a guide part, and is provided on the valve seat (22) by a spring (27). Pressed. The other end of the spring (27) is engaged with the engaging portion (28a) of the valve retainer (28). In addition, this valve foot (2
8) is provided with a connection portion (28c) having a discharge hole (30).

The valve retainer (28) has a male thread (28
b) Screw into the female thread (21a) and lock nut (29)
The pressing force of the spring (27) against the valve body (26), that is, the setting of the vacuum tank (T) described later, is adjusted by adjusting the amount of screwing into the container (21) with the lock nut (29). The pressure is adjustable.

 Next, the operation will be described.

As shown in FIG. 4, the pressure regulating valve (C) is used, for example, by connecting to a pipe connecting a vacuum pump (P) and a vacuum tank (T). In this state, the vacuum pump (P)
, The gas in the vacuum tank (T) is sucked, and the inside of the vacuum tank (T) gradually becomes a vacuum state. When the degree of vacuum in the vacuum tank (T) is equal to or greater than a predetermined value, the suction force by the negative pressure is greater than the force of the spring (27) pressing the valve body (26) against the valve seat (22). Body (26)
Is separated from the valve seat (22). That is, the pressure regulating valve is in an open state (FIG. 3). Then, the suction hole (25) and the discharge chamber (2
3) communicates with each other through the communication path (24), and as shown by the arrow in FIG. 3, external gas flows through the suction port (25), the communication path (24), the discharge chamber (23), and the discharge port. It flows into the connecting pipe via the path of (30).

According to the above-mentioned pressure regulating valve, the valve element (26) slides on its outer peripheral portion while being guided by the side wall (23a) of the discharge chamber (23). )
Does not vibrate violently and noise can be reduced.

According to the actual value measured by the sound level meter, 74.5 dB for the conventional valve
Was reduced to 60.0 dB in the case of the valve of the example.

Further, for the same reason, damage to the valve body (26) and the valve seat (22) is prevented, and stable performance can be maintained for a long period of time.

In the above embodiment, the length from the end of the communication passage (24) to the side of the valve seat (22) to the end of the communication passage (24) is indicated by the same length. For example, by individually changing the length of the communication passage (24), that is, the length to the end of the valve seat (22) with respect to the end of the valve retainer (28), the opening and closing of the valve body (26) The communication state of each communication path (24) at the time can be changed stepwise for each communication path (24). Thus, the amount of gas flowing into the discharge chamber (23) from the suction hole (25) changes stepwise according to the distance between the valve body (26) and the valve seat (22). for that reason,
When the degree of vacuum that has risen to a predetermined value or more decreases, the valve element (26) is gradually closed in accordance with the decrease in the degree of vacuum, and the valve element (26) is closed when the valve element (26) collides with the valve seat (22). The impact can be reduced, so that the noise caused by opening and closing of the valve element (26) can be reduced.

Needless to say, the size and number of the communication passages (24)... Or the size and number of the suction holes (25) are not limited to the above-described embodiment.

Furthermore, although the container (21) is formed in a cylindrical shape, the shape is not limited to a cylindrical shape, and any shape may be used as long as the shape does not hinder the opening and closing operation of the valve (26).

Further, the example in which the communication path (24) is provided on the side wall (23a) of the discharge chamber (23) has been described, but the communication path (24) may be provided on the valve body (26) along the central axis.

The present invention can also be used in a pneumatic circuit that keeps the pressure in the tank constant using, for example, a compression pump. In this case, as shown in FIG. 5, the atmosphere flows from the direction of arrow a to the direction of arrow b. Therefore, the body (41) is provided with an engagement portion (41a) of the discharge hole (42) and the spring (43). The valve retainer (4) screwed into the female thread (41b) of the body (41) via the lock nut (44)
5) includes the suction hole (46), valve seat (47), and discharge chamber (4
8) is formed, and a communication path (49) is formed in the discharge chamber (48), and a valve body (50) is slidably provided on a side wall of the discharge chamber (48).

According to the pressure adjusting valve having the above configuration, the pressure of the pneumatic circuit can be quietly adjusted similarly to the vacuum circuit, and the stable performance can be maintained for a long period of time.

[Effects of the Invention] According to the present invention, vibration of the valve body during opening / closing operation can be prevented as much as possible, and impact on the valve seat of the valve body during opening / closing operation of the valve can be reduced. It is possible to obtain a pressure regulating valve capable of maintaining stable performance.

[Brief description of the drawings]

1 is a side sectional view of a configuration example of a pressure regulating valve according to the present invention, FIG. 2 is a sectional view taken along line II-II in FIG. 1, FIG. 3 is a side sectional view showing an operation state, and FIG. FIG. 5 is a side sectional view showing another embodiment of the present invention, and FIG. 6 is a structural view showing a conventional pressure regulating valve. A, B ... valve box, 1,21,41 ... body, 4,23,48 ... discharge chamber,
5,22,47… Valve seat, 24,49… Communication passage, 2,25,46… Suction hole, 6,26,50 …… Valve, 7,27,43… Spring, 8,28 , 45 ……
Valve retainer, 9,29,44… Lock nut, 10,30,42… Discharge hole.

Claims (1)

(57) [Scope of request for utility model registration] 1. A valve box having a gas flow passage formed from a suction hole to a discharge hole, and a valve seat provided in the gas flow passage. A pressure regulating valve having a valve body that varies a flow rate in the inside thereof and an elastic body that presses the valve body against the valve seat, and guides the valve body slidably provided in the valve box. A guide portion, and a plurality of communication passages formed in the guide portion or the valve body such that a communication state between the suction hole and the suction hole due to the movement of the valve body with respect to the valve seat changes stepwise. A pressure regulating valve.