KR101577709B1 - Slide Gate Valve with cooling structure - Google Patents

Abstract

The present invention relates to a slide gate valve comprising a cooling structure. The slide gate valve of the present invention comprises: a body case where an inlet flange is formed at one side and an outlet flange is formed at the other side to allow a high temperature fluid to pass through; a guide plate which is installed in the body case, and has a connection hole at a side in order for the fluid to pass between the inlet flange and the outlet flange; a cylinder which is installed at an upper side of the body case and comprises an operating rod moving up and down at an end; and a disc which moves up and down along the guide plate by being connected to the operating rod of the cylinder, and has an interruption hole with both sides penetrated to be connected to the connection hole in case of ascending and to close the connection hole in case of descending. The body case comprises a pipe type boss which is installed at an upper side and has a grease injection hole for a grease to be injected and a purge injection hole for a purge to flow in. The body case also comprises a bush which has a first through-hole cooling the operating rod by being connected to the purge injection hole in the boss. In the bush, a spiral passage groove is formed on an outer circumference and the purge is moved along the passage groove to be cooled, and a second through-hole is formed at an end of the passage groove for the purge to be discharged into the inside of the push.

Description

[0001] The present invention relates to a slide gate valve having a cooling structure,

The present invention relates to a slide gate valve having a cooling structure, and more particularly, to a slide gate valve having a cooling structure in which a cooling function is added to an operation rod of a slide gate valve for controlling a flow rate of a high- The present invention relates to a slide gate valve having a structure.

The gate valve is a valve which has a body and a cover in a cross shape and holds a fluid passage such as a pipe size when the valve is fully opened as the disk slides at a right angle to the linear passage.

Conventional gate valves have been used in a small size. However, the present invention is a slide gate valve with a cooling structure for application to fluids, especially in large installations. The slide gate valve with the cooling structure is mainly made by special order production for large equipment in steel or casting factory.

Since the slide gate valve equipped with such a large cooling structure is used in facilities in the factory, there is a lot of dust and foreign substances in the fluid, so the environment of use is harsh and frequent facility maintenance is required.

However, in the related art, in order to open and close a slide gate valve having a cooling structure, the rod frequently moves. However, the rod has a high friction due to movement and a high temperature due to the internal fluid.

Also, there has been a problem that the internal fluid flows into the outer periphery of the component gap where the internal fluid is coupled, thereby causing damage to the components (sealing).

KR 10-1488603 B1

SUMMARY OF THE INVENTION The present invention has been devised to solve the above-mentioned problems, and it is an object of the present invention to provide a slide gate valve having a cooling structure capable of cooling an operation rod and preventing a high temperature internal fluid from penetrating into an operation rod gap, I want to do that.

According to an aspect of the present invention, there is provided an air cleaner comprising: a body case having an inlet flange formed at one side thereof and an outlet flange formed at the other side thereof to allow a high-temperature fluid to pass therethrough; A cylinder mounted on the upper side of the body case and having an operating rod which is moved up and down at an end thereof, And a disc having an intermittent hole formed at a lower portion of the lower case so as to close the communication hole when the lower case is lowered when the upper case is lowered, A tubular boss provided with a grease injection hole and a purge injection hole into which purge is introduced, A bush having a first through hole communicating with the purge injection hole side to cool the operation rod, wherein the bush has a spiral flow groove formed on an outer circumferential surface thereof so that the purge is moved along the flow passage groove to be cooled, And a second through hole is formed at an end of the flow path groove to discharge the purge to the inside of the bush.

delete

The grease injection hole is formed on the upper side of the boss rather than the purge injection hole, and seals to be partitioned on both sides of the purge injection hole and the grease injection hole are respectively mounted inside the boss.

And the purge inflow pressure is set to be relatively higher than the inflow pressure of the fluid.

Wherein the coupling groove is formed on one side of the disk corresponding to a direction in which the fluid flows, and is coupled to the end of the rod of the cylinder, wherein the coupling groove is formed deeper than the thickness of the actuating rod, So that the gap is sealed.

The disk is characterized in that powder powder is sprayed on its surface to improve abrasion resistance.

According to the present invention having the above-described configuration, the following effects can be expected.

The puddle is injected into the bushing side which guides the movement of the rod to prevent the cooling effect of the operation rod and the inflow of the internal fluid (hot iron ore), thereby reducing the damage of the operation rod and the sealing, thereby improving the durability of the product.

In addition, since the spiral flow channel is formed on the outer circumference of the bush, the purge rotates the outer diameter of the bush and flows into the valve case.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of a slide gate valve having a cooling structure according to an embodiment of the present invention; FIG.
Fig. 2 is a view showing the main part of Fig. 1; Fig.
3 is a detailed view of the disk;
4 is an operational state diagram of the disc.
5 is a sectional view taken along line A-A 'in Fig.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a block diagram of a slide gate valve having a cooling structure according to an embodiment of the present invention.

Referring to FIG. 1, the present invention includes a body case 100, a guide plate 200, a cylinder 300, a disk 400, a boss 500, and a bush 600.

The body case 100 corresponds to a body portion of a slide gate valve having a cooling structure. An inlet flange 110 is formed at one side and an outlet flange 120 is opened at the other side. Flows from the inlet flange 110 into the body case 100, and is discharged to the outlet flange 120 side.

The guide plate 200 is formed in a flat plate shape capable of guiding the movement of the disc 400 and is fixedly installed in the body case 100 up and down. The inlet flange 110 and the outlet flange And a communication hole (220) is formed in the side surface portion to allow the fluid to pass therethrough.

The cylinder 300 is mounted on the upper side of the body case 100 and moves according to the pressure of the fluid flowing into the cylinder 300 at the end portion of the cylinder 300, And is coupled to the disk 400 at the end of the operation rod.

The disk 400 is capable of opening and closing the fluid flowing in the body case 100 and is connected to the cylinder 300 and is moved up and down along the guide plate 200, An intermittent hole 410 is formed which is connected to the communication hole 220 of the guide plate 200 and through which the communication hole 220 is closed when the communication hole 220 is lowered.

The basic structure of the slide gate valve having the cooling structure of the present invention has been described above, and the boss 500 and the bush 600, which are components of the present invention, will be described below.

Fig. 2 is a view showing the main part of Fig. 1. Fig.

Referring to FIG. 2, the boss 500 is a member protruding in a tubular shape above the body case 100 and capable of mounting the bush 600 capable of guiding the operation rod 320.

A grease injection hole 520 through which grease is injected and a purge injection hole 540 through which N2 purge flows are formed through the side surface of the boss 500.

The bush 600 is a member that can guide the movement of the operation rod 320 and communicates with the purge injection hole 540 side inside the boss 500 to cool the operation rod 320. [ 1 through holes 620 are formed.

The bush 600 is formed with a spiral flow passage groove 640 formed on the outer circumferential surface thereof to move the purge along the flow passage groove 640 and to cool the flow passage groove 640. A second through hole 660 And the purge is discharged to the inside of the bush 600.

Therefore, the spiral groove 640 is formed on the outer circumference of the bush 600, so that the purge flows through the inside of the valve case 100 by rotating the outer diameter of the bush 600, and the cooling effect is excellent.

The grease injection hole 520 is formed on the upper side of the boss 500 rather than the purge injection hole 540 and the purge injection hole 540 and the grease injection hole 520 are formed on both sides 560b, and 560c, respectively, which are respectively partitioned into a plurality of seals 560a, 560b, and 560c.

The inflow pressure of the purge is set to be relatively higher than the inflow pressure of the fluid. Thus, the purge flows into the bushing to prevent inflow of the internal fluid (hot iron ore) flowing in the body case, Durability can be improved.

3 is a detailed view of the disc.

A coupling groove 420 is formed in one side of the disk 400 corresponding to a direction in which the fluid flows, and is coupled to the end of the operation rod of the cylinder. The coupling groove 420 is deeper than the working rod And the disc is brought into close contact with the guide plate during the inflow of the fluid, thereby sealing the gap.

In addition, the disk 400 has powdered powder sprayed on its surface to improve wear resistance, and thus the replacement cycle can be increased.

4 is an operational state diagram of the disc.

Fig. 4 (a) shows a state in which the disc is lifted up and Fig. 4 (b) shows a state in which the disc is lifted down.

As described above with reference to FIG. 3, the coupling method of the operating rod and the disk is not fixed, but is allowed to move along the fluid inflow direction and the discharge direction by giving a dimensional clearance, 400 has a gap of about 3 mm with the guide plate and can move by a gap.

Therefore, as shown in FIG. 4 (b), when the disk 400 is lowered to a valve closed state, the disk 400 is closely contacted with the guide plate according to the fluid pressure flowing therein, .

1, a lower flange 130 is formed to open the lower side of the body case 100, and a lower plate 140, which is detachably coupled to the lower flange 130 to be hermetically sealed, Is formed.

Here, the lower flange 130 extends from the lower side of the body case 100, and a step protruded along the outer periphery is formed and a bolt hole penetrating the lower flange 130 is formed. The lower plate 140 is formed of a circular plate having a size corresponding to the lower flange 130, and a bolt hole is formed at an edge thereof.

The lower plate 140 is tightly fitted to the lower flange 130, and the bolt holes are aligned with each other, so that the lower plate 140 can be tightened with bolts to seal the lower portion of the body case.

The lower plate 140 can be coupled to or detached from the lower flange 130 of the body case 100 by bolting to open the lower portion of the body case 100 to facilitate maintenance There is an advantage.

An inlet tube 150 communicating with the communication hole 220 of the guide plate 200 is formed in the body case 100 to discharge fluid between the guide plate 200 and the outlet flange. A clamp 160 is fastened to the outer circumferential surface between the inlet tube 150 and the disk by a bolt.

One of the clamps 160 is formed as a pair and one of the clamps 160 is closely attached to the rear side of the guide plate 200 and the inlet tube 150 and the other is disposed on the front side of the guide plate 200 and the inlet tube 150 The engagement between the guide plate 200 and the inlet tube 150 can be sealed by mutual engagement of the clamps 160.

Particularly, since the clamps 160 are coupled to each other by bolting, the fastening state of the clamp 160 in the maintenance facility is important.

5 is a cross-sectional view taken along line A-A 'in Fig.

A side flange 170 is formed in the body case so as to be opened so that the fastening state of the clamp 160 can be checked, and the bolt fastening state of the clamp can be checked.

Further, an auxiliary plate 180 which can be opened and closed is installed on the side flange.

The auxiliary plate 180 can be coupled to and detached from the side flange by bolting so that the coupling state of the inner clamp 160 can be visually recognized and the time and cost for disassembling the entire body case 100 can be reduced can do.

Although the present invention has been described in detail with reference to the above drawings, the scope of the scope of the present invention is not limited to the above-described drawings and description.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

100: Body case 110: Inlet flange
120: Outlet flange 130: Lower flange
140: lower plate 150: inlet tube
160: Clamp 170: Side flange
180: auxiliary plate 200: guide plate
300: cylinder 400: disk
500: Boss 520: Grease Injection Ball
540: purge injection hole 600: bush
620: first through hole 640: flow groove
660: second through hole

Claims (6)

A body case 100 in which an inlet flange 110 is formed on one side and an outlet flange 120 is formed on the other side,
A guide plate (200) installed in the body case and having a communication hole (220) formed on a side thereof so that the fluid passes between the inlet flange and the outlet flange;
A cylinder 300 mounted on the upper side of the body case and having an operating rod 320 which is moved up and down at an end thereof;
A disk (410) connected to the operating rod of the cylinder and moved upward and downward along the guide plate, connected to the communication hole at the time of rising, and having an intermittent hole (410) through which the communication hole 400,
The body case 100 is provided with a grease injection hole 520 for injecting grease and a tubular boss 500 having a purge injection hole 540 through which purge is introduced,
A bush 600 having a first through hole 620 formed therein to communicate with the purge injection hole side to cool the operation rod,
The bush 600 is formed with a spiral flow passage groove 640 on the outer circumferential surface thereof so that the purge is moved along the flow passage groove to be cooled and a second through hole 660 is formed at the end of the flow passage groove, And wherein the slide gate valve has a cooling structure. delete The method according to claim 1,
The grease injection hole 520 is formed on the upper side of the boss rather than the purge injection hole,
And a seal is formed on both sides of the purge injection hole and the grease injection hole on the inner side of the boss, respectively. The method according to claim 1,
Wherein the purge inflow pressure is set to be relatively higher than the inflow pressure of the fluid. The method according to claim 1,
A coupling groove 420 is formed in one side of the disk 400 corresponding to a direction in which the fluid flows, and is engaged with the end of the operation rod of the cylinder.
Wherein the engaging groove (420) is formed to be deeper than the thickness of the actuating rod so that the disk is closely attached to the guide plate when the fluid is introduced, thereby sealing the gap. The method according to claim 1,
The disk 400 is a disk-
And a powdered powder is sprayed on the surface to improve wear resistance.

Images