JPS6330854Y2 - - Google Patents

Description

[Detailed Description of the Invention] [Field of Application of the Invention] The present invention relates to a wedge gate valve suitable for opening and closing a passage for a mixed fluid of solid particles and liquid (solid-liquid mixed fluid).

[Background of the idea]

FIG. 1 is a side sectional view of a conventional wedge gate type valve used for opening and closing a liquid passage, showing a state in which the liquid passage is closed.

The wedge gate type valve is mainly composed of a valve body 1, a valve valve 2, and a valve stem 3. A fluid passage 1a is formed in the valve box 1, and a valve seat 1b is provided in the middle of the fluid passage 1a. The valve stem 3 includes a valve stem moving means 3a formed of a threaded portion or the like;
Handle portion 3b for operating this valve stem moving means 3a
When the valve stem 3 moves to the closed position, the valve element 3c seats on the valve seat 1b and closes the fluid passage 1a, and when the valve stem 3 moves to the open position, it separates from the valve seat 1b and opens the fluid passage 1a. is provided. Also, valve box 1
A recessed portion 1c is formed as a relief just below the position where the valve body 3c is seated on the valve seat 1b.

Conventional wedge gate valves have no problem when used to open and close passages for liquids such as heavy oil or water, but they do not pose any problems when used to open and close passages for liquids such as heavy oil or water. When the passage shown in FIG. 2 is opened, almost no fluid flows through the recess 1c of the valve body 1, so the solid particles in the fluid separate from the liquid and only the solids 4 remain in the recess 1c. Precipitates and accumulates.

As a result, as shown in FIG.
When the valve stem 3 is moved to close the recess 1
The solid content 4 accumulated in the valve body 3c prevents the valve body 3c from seating on the valve seat 1b. Therefore, the fluid passage 1a cannot be completely closed, so a small amount of mixed fluid flows through the fluid passage 1a from the upstream side to the downstream side of the valve body 3c, and the wedge gate valve cannot function as an on-off valve. The problem is that there is no.

Furthermore, a gate valve as described in Japanese Patent Application Laid-Open No. 53-30033 has been proposed. This gate valve is connected to a fluid passage 51 as shown in FIG.
The valve body 52 is mainly composed of a valve body 52 and a valve body 53 for opening and closing the fluid passage 51 of the valve body 52.

A mounting plate 54, a hollow spacer 55, and a holding plate 56 are provided above the valve body 53.
A spring 57 and a piece 59 engaged with a valve stem 58 are housed within the spacer 55.

As shown in the figure, the valve body 53 is a hollow body with an upper space 60 and a lower space 61 formed through an intermediate wall 67. The valve body 53 includes an introduction hole 62 that communicates between the upstream portion of the fluid passage 51 and the upper space 60 , a communication hole 63 that communicates the upper space 60 and the lower space 61 , and a communication hole 63 that is provided in the valve body 52 . The outlet hole 6 communicates the released relief space 64 and the lower space 61.
5 are formed respectively. The tip of the valve rod 58 is disposed in the upper space 60 and has a sub-valve 66 that opens and closes the communication hole 63.

When closing the fluid passage 51 with the valve body 53, by lowering the valve stem 58, the valve body 53 is first seated and can block most of the fluid;
As shown in the figure, the auxiliary valve 66 is separated from the communication hole 63 by the elastic force of the spring 57.
Some of the fluid is introduced from the upstream side through the introduction hole 62 and the communication hole 6.
3. It flows downstream through the outlet hole 65, the relief space 64, and the relief hole 68. By further lowering the valve rod 58, the spring 57 is compressed, and the communication hole 63 is closed by the auxiliary valve 66, thereby completely blocking the fluid passage 51.

Quite the opposite is true when opening the fluid passage 51; the valve stem 5
8, the restoring force of the spring 57 causes the auxiliary valve 66 to first separate from the communication hole 63 and open the communication hole 63, and some of the fluid begins to flow. Further, by raising the valve stem 58, the valve body 53 is moved, and the fluid passage 51 is opened.

However, when such a structure is used as a gate valve for a solid-liquid mixed fluid, solid particles in the fluid settle and accumulate in the upper space 60 and the lower space 61, and especially when they accumulate in the upper space 60. This prevents the auxiliary valve 66 from blocking the flow path, making it unable to function as a gate valve.

In addition, the valve body 53 includes an upper space part 60, a lower space part 61,
Intermediate wall 67 having communication hole 63 and communication hole 6
2 and 65, manufacturing the valve body 53 is very complicated. In addition, a mounting plate 54, a spacer 55, a holding plate 56, a spring 54, a top 6
6 and an auxiliary valve 66 are required, which increases the number of parts and increases the weight, resulting in higher costs and lower productivity.

Furthermore, a gate valve for slurry as described in Japanese Utility Model Application Laid-Open No. 51-9323 has been proposed in order to remove the solid content accumulated in the slurry reservoir when the valve body is closed.

This gate valve has the following structure.
That is, a valve body having an inclined portion at its lower end is arranged so as to be movable up and down with respect to the transport pipe, and on the other hand, an inclined portion is formed at a position opposite to the inclined portion of the valve body of the transport pipe, and the slope A slurry reservoir part is formed on the downstream side in the transport direction, and a slurry reservoir part is provided above the slurry part, and a sink weir is provided on the upper side of the reservoir part, with which the inclined part of the valve body comes into contact.

When the slurry gate valve with this structure is about to close with the valve body, the slurry that passes through the gap between the inclined part of the valve body and the inclined part of the transport pipe moves the solids precipitated in the slurry reservoir to the downstream side. It's starting to wash away.

However, this slurry gate valve has the following problems. First of all, since the lower end of the valve body is designed to directly contact the transport pipe, even if the contact parts are inclined to each other,
The solid portion of the slurry settles and adheres to the inclined portion of the transport pipe, making it difficult to completely block the flow path. In practice, therefore, it is necessary to provide a lining such as a rubber lining to the transport pipe, particularly near the seating position of the valve body, which increases the number of manufacturing steps and increases costs.

Second, the valve body and the inclined portion of the transport pipe are located upstream of the slurry reservoir. Therefore, when the valve element is closed, the slurry that passes between the inclined part of the valve element and the inclined part of the transport pipe flows downstream over the solid content precipitated in the slurry reservoir. Since the solid content that has settled at the bottom of the slurry reservoir is in a slightly solidified state, the solid content cannot be removed effectively if the slurry flows over it. There is.

[Purpose of invention]

The purpose of the present invention is to eliminate the drawbacks of the prior art described above, and to provide a wedge gate type valve that has a simple structure and can completely close the passage even when used to open and close a solid-liquid mixed fluid passage. It is in.

[Summary of the idea]

In order to achieve this purpose, the present invention includes a valve box having a fluid passage formed inside thereof through which a mixed fluid of solid particles and liquid flows, a valve seat provided in the middle of the fluid passage of this valve box, and a valve seat provided in the middle of the fluid passage of this valve box. a valve body that closes and opens a fluid passage by seating on and leaving the seat;
The present invention is directed to a wedge gate type valve for a solid-liquid mixed fluid, which is provided with a recess that is formed directly below the valve body seating position of the valve body and into which the tip of the valve body enters when the valve body is seated.

The mixed fluid flows between the state where the valve body is separated from the valve seat and the state where the valve body is seated on the valve seat. The valve body is provided with a fluid guide part that collides the fluid toward the bottom of the recess, and a final seal part that comes into close contact with the valve seat above the fluid guide part, and directs the mixed fluid in the recess to the downstream side of the valve seat. A discharge channel for discharging is formed in the valve box, and the fluid introduced by the guide part directly collides with the bottom of the recess to float solids accumulated at the bottom and discharge from the discharge channel. The valve seat is characterized in that the final seal portion is brought into close contact with the valve seat to block fluid introduction from the guide portion to the recessed portion.

〔Example〕

Next, embodiments of the present invention will be described with reference to the drawings.
As shown in FIG. 4, at the lower end of the upstream side of the valve body 3c, there is a notch-shaped guide vane _3c1 extending toward the recessed part 1c side, and a valve seat 1b on the upstream side in the seating position.
A final seal portion 3d is provided which is in close contact with the final seal portion 3d. Further, a recessed portion 1c is formed in the valve body 1 directly below the seating position of the valve body 3c, and further this recessed portion 1c
A communication hole 1d is provided that communicates with the downstream fluid passage 1a of the valve body 3c.

When the valve body 3c goes from being separated from the valve body 1b to being seated on the valve seat 1b, a gap is formed between the valve seat 1b and the guide vane _3c1 , as shown by the arrow in FIG. The vane _3c1 causes the fluid on the upstream side of the valve seat 1b to collide directly with the bottom of the recessed part 1c, destroys the solids accumulated in the recessed part 1c, lifts it up, and guides it to scoop it up. The rising solid content passes through the communication hole 1d together with the fluid and is swept downstream. In particular, just before the valve body 3c is seated, the gap between the valve seat 1b and the guide vane _3c1 is narrow, so the flow rate of the fluid becomes faster, and solids can therefore be removed more reliably. In this way, the valve body 3 is placed in the recessed portion 1c.
A space is secured for the valve body 3c to enter, and the valve body 3c can be completely seated on the valve seat 1b, and as shown in FIG. is automatically shut off, the fluid passage 1a can be reliably closed, and the valve body 3c
The lower end portion of is inserted into the recessed portion 1c.

[Effect of idea]

As explained above, according to the present invention, even if solid matter accumulates in the recess formed at the valve seat position of the valve body,
In the process of seating the valve body, the accumulated solids can be stripped from the bottom by the fluid colliding toward the bottom of the recess and flow out downstream of the valve seat. Therefore, the valve body is seated on the valve seat and the fluid passage can be reliably closed, and even when the wedge gate type valve is used to open and close the solid-liquid mixed fluid passage, the opening and closing function can be reliably performed.

In addition, as previously proposed, the valve body may be made hollow, or the valve body may be equipped with a mounting plate, a spacer, a holding plate, an auxiliary valve, etc.
There is no need to attach springs, links, etc., the number of parts is small, and the structure is simple. Therefore, it is possible to reduce the weight of the valve, reduce costs, and improve productivity.

[Brief explanation of the drawing]

FIG. 1 is a side cross-sectional view of a conventional wedge gate valve, FIG. 2 is a diagram showing the valve's fluid passage in an open state, FIG. 3 is a diagram showing the valve's fluid passage in a closed state, and FIGS. FIG. 5 is a cross-sectional view of the main part of the wedge gate valve according to the embodiment of the present invention for explaining the solid content discharge state and a cross-sectional view of the main part showing the valve in the closed state. FIG. 3 is a cross-sectional view of the valve. 1... Valve box, 1a... Fluid passage, 1b... Valve seat, 1c... Recess, 1d... Communication hole, 3... Valve stem, 3c... Valve body, 3c ₁ ... Guide vane, 3c ₂ ...
Guide hole, 3d...final sealing part.

Claims (1)

[Claims for Utility Model Registration] A valve box having a liquid passage formed therein through which a mixed fluid of solid particles and liquid flows, a valve seat provided in the middle of the fluid passage of this valve box, and a valve seat provided in the middle of the fluid passage of this valve box. A solid liquid comprising: a valve body that closes or opens a fluid passage when seated and removed; and a recess formed directly below the valve body seating position of the valve box into which the tip of the valve body enters when the valve body is seated. A wedge gate type valve for a mixed fluid includes a fluid guiding section that causes the mixed fluid to collide with the bottom of the recess between the state where the valve body is removed from the valve seat and the state where the valve body is seated on the valve seat; A final seal part is provided on each valve body above the guide part and comes into close contact with the valve seat, and a discharge flow path is formed in the valve box for discharging the mixed fluid in the recessed part to the downstream side of the valve seat. The fluid introduced through the recess directly collides with the bottom of the recess, causing the fixed amount accumulated at the bottom to float and be discharged from the discharge channel, and by bringing the final seal into close contact with the valve seat, the fluid is released from the guide part. 1. A wedge gate type valve for a solid-liquid mixed fluid, characterized in that the wedge gate valve is configured to block introduction of fluid into a recessed portion of the valve.