JPH06147337A - Seal for spool valve - Google Patents

Abstract

PURPOSE:To prevent a seal from floating and jumping out when the seal is attached to a spool by integrally providing annular projecting parts on both side surfaces of an annular seal main body. CONSTITUTION:A seal 1 comprises an annular seal main body 1a and annular projecting parts 1b formed on both side surfaces of the seal main body 1a, so that they may touch a valve main body inner wall 4 while being attached to a seal attaching groove 3 of the spool 2. In the operation of a spool valve, when the spool 2 is slided and the seal 1 touches the valve main body inner wall 4, the annular projecting parts 1b is bonded to a groove wall 3b of the seal attaching groove. Accordingly, the seal 1 is prevented from standing out and protruding caused by entering of fluid by means of the projecting parts 1b closed to a seal attaching groove wall 3b even if the fluid tends to enter the space between the seal 1 outer peripheral surface and a seal attaching groove wall 3b on an internal diameter side of the seal 1.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a spool valve seal (hereinafter, simply referred to as "seal"), and more particularly to a technique effective for preventing floating and popping out when the seal is mounted on a spool.

[0002]

2. Description of the Related Art In a spool valve, a spool equipped with a seal is slidably provided in a valve body having an input port, an output port, and an exhaust port, and the seal is alternately alternated by sliding the spool. By contacting the inner wall, the flow direction of the fluid is switched and the drive of fluid pressure actuated equipment such as a cylinder is controlled.

Since the seal mounted on the spool is repeatedly contacted and non-contacted with the inner wall of the valve body, it is lifted from the seal mounting groove by the fluid acting to expand the seal by digging into the inner diameter side. Become.

If the spool continues to slide in such a state, the inner wall of the valve body will be worn away, resulting in a loss of the sealability which is the original function of the seal, or a seal diameter expansion action of the fluid entering the inner diameter side. In some cases, the seal came off the seal mounting groove.

Therefore, as a method for preventing the fluid from flowing into the inner diameter side of the seal, as shown in FIG.
It is known that annular seal lips 11c are formed on both sides of the seal 11 and the annular seal lips 11c prevent fluid from entering the seal inner diameter side.

In addition, as a method by such a method,
There are JP-A-4-64669, JP-A-4-64670, JP-A-4-64671, and the like.

[0007]

However, in the seal 1 in which the annular seal lips 11c are formed on both sides, the seal lip thickness A and the constriction for guiding the fluid pressure in order to convert the fluid pressure into the sealing force. If the section width B is properly secured, the effective width C of the seal becomes thin.

The seal 1 is required to have an effective width C sufficient to maintain a drag force for giving a sealing force to the sliding surface. However, in the seal 1 having such a small effective width C, the spool is a spool valve. You will not be able to obtain the required drag when you install it in.

On the contrary, in order to secure the drag force, the seal width D
Alternatively, it is necessary to make the seal mounting groove width E thick, but in the market today, there is a strong demand for miniaturization of the spool valve, and therefore, the seal width D and the seal mounting groove width E must be made as thin as possible. Therefore, in the seal 1 in which the annular seal lips 11c are formed on both sides as described above,
It is difficult to meet such requirements.

Therefore, an object of the present invention is to provide a technique relating to a seal which can prevent rising and popping out of the seal mounting groove.

Another object of the present invention is to provide a technique relating to a seal having a small seal width and preventing rising and popping out.

The above and other objects and novel features of the present invention will be apparent from the description of this specification and the accompanying drawings.

[0013]

The typical ones of the inventions disclosed in the present application will be outlined below.

That is, the seal of the present invention is one in which annular convex portions are formed on both side surfaces of the annular seal body.

Further, the seal of the present invention has an annular seal lip formed on only one side surface of the annular seal body.

Further, in the seal of the present invention, the annular convex portion is formed only on one side surface of the annular seal body.

In the seal of the present invention, a plurality of fluid discharge grooves are formed on the other side surface of the annular seal body from the inner diameter side toward the outer diameter side.

[0018]

According to the seal having the annular convex portions formed on both side surfaces of the annular seal body, when the seal is mounted in the seal mounting groove, the spool slides to bring the seal into contact with the inner wall of the valve body. . Further, the annular convex portions formed on both side surfaces are in close contact with the groove wall of the seal mounting groove, and the annular convex portions prevent fluid from entering the seal inner wall side.

According to the above-mentioned seal in which the annular seal lip is formed only on one side surface of the annular seal body, the spool valve of the type in which only the space on one specific side blocked by the seal is pressurized, When the surface on which the annular seal lip is formed is mounted toward the pressurizing chamber side, the fluid attempting to enter the inner diameter side of the seal from the pressurizing chamber spreads the annular seal lip. Therefore, the ring-shaped seal lip is brought into close contact with the groove wall of the seal mounting groove, which prevents fluid from entering.

According to the seal in which the annular convex portion is formed only on one side surface of the annular seal body, the annular convex portion is brought into close contact with the groove wall of the seal mounting groove. As a result, the invasion of fluid from the pressurizing chamber to the inner diameter side of the seal is prevented.

According to the above-mentioned seal in which one or a plurality of fluid discharge grooves are formed from the inner diameter side to the outer diameter side on the other side surface of the annular seal body, the seal body enters the inner diameter side when the seal is mounted. Since the fluid to be discharged is discharged to the outside by the fluid discharge groove, the inner diameter side of the seal is always kept in a non-pressurized state, and floating is prevented in advance.

[0022]

[Embodiment 1] FIG. 1 is a sectional view of an essential part showing a state in which a seal according to an embodiment of the present invention is mounted in a seal mounting groove.

The seal 1 of this embodiment comprises an annular seal body 1a and annular convex portions 1b formed on both side surfaces of the annular seal body 1a. And this seal 1
Is mounted in the seal mounting groove 3 of the spool 2 and is in contact with the inner wall 4 of the valve body.

The sealing action of the seal 1 of this embodiment will be described below.

That is, when the seal 1 of this embodiment is mounted in the seal mounting groove 3, the spool 2 slides and the seal 1 contacts the inner wall 4 of the valve body as shown in FIG. Further, the annular convex portions 1b formed on both side surfaces are brought into close contact with the groove walls 3b of the seal mounting groove 3.

As a result, even if the fluid tries to enter the space between the outer surface of the seal 1 on the inner diameter side of the seal 1 and the groove wall 3b of the seal mounting groove 3, it is brought into close contact with the groove wall 3b of the seal mounting groove 3. This is blocked by the ring-shaped convex portion 1b.

As a result, the pressure of the fluid does not penetrate into the annular space on the inner diameter side of the annular convex portion 1b of the seal 1, so that no force acts from the annular space on the inner diameter side in the outer direction, and the seal is formed. It is possible to prevent jumping out of the seal mounting groove 3 of 1 and rising.

[0028]

[Embodiment 2] FIG. 2 is a cross-sectional view of essential parts showing a state in which a seal according to another embodiment of the present invention is mounted in a seal mounting groove.

The seal 1 of this embodiment comprises an annular seal body 1a and an annular seal lip 1c formed only on one side surface of the annular seal body 1a. And
It is mounted in the seal mounting groove 3 with the surface on which the annular seal lip 1c is formed facing the pressure chamber P ₁ side.

The sealing action of the seal 1 of this embodiment will be described below.

In the first place, the spool valve is generally of a type in which only the space on one specific side blocked by the seal 1 is pressurized. Therefore, the seal mounting groove 3 of the spool 2
The flow direction of the fluid with respect to the seal 1 attached to is one direction, and there is no flow in the opposite direction.

Therefore, in FIG. 2 in which P ₁ is the pressure chamber and P ₂ is the atmospheric pressure chamber, the seal 1 is sealed with the surface on which the annular seal lip 1c is formed facing the pressure chamber P ₁ side. Mount in the mounting groove 3.

Then, the fluid trying to invade from the space on the side of the outer peripheral side surface of the seal 1 into the annular space on the inner diameter side spreads the annular seal lip 1c from the pressurizing chamber P ₁ , whereby the annular seal lip 1c is formed. Groove wall 3 of seal mounting groove 3
It is brought into close contact with b and the invasion of fluid is blocked.

Therefore, also in this embodiment, it is possible to prevent the seal 1 from popping out or rising due to the air that has entered the annular space on the inner diameter side of the seal lip 1c.

On the other hand, as described above, since the atmospheric pressure chamber P ₂ fluid to be penetrate into the inner wall of the seal 1 is not, the sealing lip 1 to the side of the atmospheric pressure chamber P ₂ side annular seal 1
It does not matter if c is not formed.

[0036]

[Third Embodiment] FIG. 3 is a cross-sectional view of essential parts showing a seal which is still another embodiment of the present invention.

The seal 1 of this embodiment comprises an annular seal body 1a and an annular convex portion 1d formed on only one side surface of the annular seal body 1a.

As in the case of the second embodiment, the seal 1 is mounted in a seal mounting groove (not shown) with the surface on which the annular convex portion 1d is formed facing the pressurizing chamber.

According to the seal 1 of this embodiment, the annular convex portion 1d is brought into close contact with the groove wall of the seal mounting groove.

As a result, the invasion of fluid from the pressure chamber into the annular space on the inner diameter side of the annular convex portion 1d of the seal 1 and, by extension, the protrusion and the floating of the seal 1 are prevented.

[0041]

[Fourth Embodiment] FIG. 4 is a cross-sectional view of essential parts showing a seal which is still another embodiment of the present invention.

The seal 1 of the present embodiment has an annular seal body 1a, an annular convex portion 1e formed only on one side surface of the annular seal body 1a, and an outer diameter from the inner diameter side of the other side surface. And a plurality of fluid discharge grooves 5 formed toward the side.

As in the case of the second and third embodiments, the seal 1 is mounted in a seal mounting groove (not shown) with the surface having the annular convex portion 1e formed facing the pressurizing chamber.

According to the seal 1 of this embodiment, the annular convex portion 1e is brought into close contact with the groove wall of the seal mounting groove to prevent the inflow of fluid. In addition to this, the fluid discharge groove 5
When the seal is attached, the fluid in the annular space on the inner diameter side is discharged to the outside, so that the inner diameter side of the seal 1 is always kept in a non-pressurized state, and the seal 1 is prevented from popping out or rising. Become.

Although the invention made by the present inventor has been specifically described based on the embodiments, the present invention is not limited to the above embodiments, and various modifications can be made without departing from the scope of the invention. Needless to say.

For example, in this embodiment, the number of the annular convex portions provided on the side surface of the seal is one, but it is also possible to provide a plurality of annular convex portions, and the annular convex portions are provided. As for the shape of, the cross section can be various, for example, a semicircular shape or a wedge shape.

Further, although there are a plurality of fluid discharge grooves formed in the fourth embodiment, the number of fluid discharge grooves may be one.

Further, in the fourth embodiment, an annular convex portion is provided on one side surface of the seal, but an annular seal lip may be provided instead of the annular convex portion.

[0049]

The effects obtained by the typical ones of the inventions disclosed in the present application will be briefly described as follows.

(1) According to the seal in which the annular convex portion is formed on the side surface of the annular seal body, the annular convex portion is brought into close contact with the groove wall of the seal mounting groove, and the fluid is in the convex shape. Since it is prevented from penetrating into the annular space on the inner diameter side of the portion, the seal is prevented from rising and popping out.

(2) A seal having annular seal lips formed on both sides requires a certain amount of seal lip thickness and a narrowed portion width, which makes it difficult to obtain a seal having a small seal width. According to the seal in which the annular convex portion is formed on the side surface of the seal main body, since there is no such restriction, it is possible to obtain a seal excellent in sealing property and having a narrow seal width.

(3). According to the seal in which the annular seal lip is formed only on one side surface of the annular seal body, only the space on one specific side blocked by the seal is pressurized. When used as a spool valve, the seal is installed with the annular seal lip facing the pressurizing chamber side, which prevents fluid from entering the inner diameter side of the seal lip and prevents the seal from rising or popping out. It

(4) In addition, since an annular seal lip is formed on only one side surface, a seal lip for ensuring an appropriate seal lip thickness and a narrowed portion width and maintaining a necessary drag force is provided. Even if the effective width is secured, it is possible to obtain a seal having a small seal width.

(5) An annular seal main body is also provided with an annular convex portion only on one side surface thereof, and this is used for a spool valve of a type in which only one specific side space is pressurized. In this case, since the annular convex portion comes into close contact with the groove wall of the seal mounting groove, the fluid is prevented from entering the inner diameter side of the seal convex portion.

(6) Furthermore, since the annular convex portion is formed only on one side surface of the annular seal body, the seal itself can be made thin.

(7). According to the seal in which one or more fluid discharge grooves are formed from the inner diameter side to the outer diameter side on the other side surface of the annular seal main body, the inner diameter can be increased when the seal is attached. Since the fluid that tries to enter the side is discharged to the outside by the fluid discharge groove, the inner diameter side of the convex portion of the seal or the seal lip is always kept in a non-pressurized state, and floating is prevented.

(8). And according to such a seal,
Since it is possible to obtain a seal having excellent sealing properties and a narrow sealing width, it is possible to meet the market demand for miniaturization of spool valves.

[Brief description of drawings]

FIG. 1 is a cross-sectional view of essential parts showing a state in which a seal according to a first embodiment of the present invention is mounted in a seal mounting groove.

FIG. 2 is a cross-sectional view of relevant parts showing a state in which a seal according to a second embodiment of the present invention is mounted in a seal mounting groove.

FIG. 3 is a sectional view of an essential part showing a seal according to a third embodiment of the present invention.

FIG. 4 is a cross-sectional view of essential parts showing a seal according to a fourth embodiment of the present invention.

FIG. 5 is a cross-sectional view of an essential part showing a conventional seal.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 seal 1a annular seal body 1b annular convex portion 1c annular seal lip 1d annular convex portion 1e annular convex portion 2 spool 3 seal mounting groove 3b groove wall 4 valve body inner wall 5 fluid discharge groove 11 seal 11c Annular seal lip A Seal lip thickness B Neck width C Effective width D Seal width E Seal mounting groove width P ₁ Pressurization chamber P ₂ Atmospheric pressure chamber

 ─────────────────────────────────────────────────── ─── Continuation of front page (72) Inventor Fumiko Kitahara 3 2-3 Marunouchi, Chiyoda-ku, Tokyo Koganei Co., Ltd.

Claims (4)

[Claims] 1. A seal for a spool valve, comprising an annular seal body and annular convex portions formed on both side surfaces of the annular seal body. 2. A seal for a spool valve, which comprises an annular seal body and an annular seal lip formed only on one side surface of the annular seal body. 3. A spool valve seal, comprising: an annular seal body; and an annular convex portion formed only on one side surface of the annular seal body. 4. On the other side surface of the annular seal body,
The spool valve seal according to claim 2 or 3, wherein one or a plurality of fluid discharge grooves are formed from the inner diameter side toward the outer diameter side.