KR20180004995A - Butterfly valve - Google Patents

Abstract

A butterfly valve is provided. The butterfly valve comprises: a body installed in a pipeline transferring a fluid and having a fluid guiding hole; a disc rotatably installed within the body and opening and closing the fluid guiding hole; and a rotary shaft fixed to the disc through the body to rotate the disc, and formed with a coating layer made of a plastic material on an outer circumferential surface thereof. An object of the present invention is to provide a butterfly valve capable of improving durability by forming an external portion of the rotary shaft with a plastic material.

Description

Butterfly Valve {BUTTERFLY VALVE}

The following embodiments relate to butterfly valves. More specifically, the present invention relates to a butterfly valve for improving durability by forming the outside of a rotating shaft from a plastic material.

In general, a valve is a device for controlling the flow rate, flow rate, pressure, etc. of a fluid flowing through a tube. Butterfly valves are used in various industrial fields, and in particular, they open or close the flow of various kinds of fluid such as industrial water, oil or seawater.

The butterfly valve is a valve that opens and closes as the disk rotates about the disk center line. A butterfly valve is a method in which a circular disk is rotated by 90 degrees around one axis passing through a valve body. Since the opening and closing action is simple, the butterfly valve is fast in operation, and operates not only at low pressure, but also at high pressure, It is also widely used for gas. Such a butterfly valve has a smooth opening and closing operation of the valve, a simple structure and good space utilization as compared with other valves.

Korean Patent No. 10-1060577 relates to such a center shaft anti-butterfly valve, which is provided with fixing means on the bearing portion to prevent deformation of the center shaft during assembly of the valve disc and the center shaft, Preventing butterfly valve for preventing the center shaft from moving.

Embodiments describe a butterfly valve, and more specifically provide a technique for a butterfly valve that improves durability by forming the exterior of a rotating shaft with a plastic material.

Embodiments are to provide a butterfly valve capable of improving the quality of a product because the inner surface of the valve is made of a plastic material and is not corroded by the fluid and is chemically safe.

In addition, the embodiments of the present invention provide a butterfly valve capable of improving the corrosion resistance, durability and wear resistance by injection molding the outside of the rotating shaft with a plastic material.

A butterfly valve according to one embodiment, comprising: a body disposed in a conduit for transferring a fluid and having a fluid guide hole; A disk rotatably installed in the body to open and close the fluid guide hole; And a rotating shaft fixed to the disk through the body to rotate the disk and having a coating layer of a plastic material on an outer circumferential surface thereof.

And a body sheet of an elastic material formed in a ring shape and installed in the body and closely contacting the disk according to the rotation of the disk.

The rotating shaft includes an inner shaft made of a metal material; And a coating layer formed on the outside of the inner shaft and made of the plastic material, and the coating layer can be injection molded.

The covering layer of the rotating shaft may be selected from PVC, PP, C-PVC, and PVDF and injection-molded.

The body and the disk may be selected from among PVC, PP, C-PVC, and PVDF, and the cover layer of the body, the disk, and the rotating shaft may be made of the same material.

The coating layer of the rotating shaft may have a thickness of 3 to 4 mm.

Both ends of the rotary shaft are coupled to the body, one end of the rotary shaft is exposed from the body, and the exposed rotary shaft is rotated to perform an opening and closing operation in accordance with the rotation of the disk coupled with the rotary shaft.

According to the embodiments, since the material of the valve is made of a plastic material, the inner surface is not corroded by the fluid, and the valve is chemically safe, so that a butterfly valve capable of improving the quality of the product can be provided.

Also, according to the embodiments, it is possible to provide a butterfly valve capable of improving the corrosion resistance, durability and wear resistance by injection molding the outside of the rotating shaft with a plastic material.

1 is a view for explaining a conventional butterfly valve.
2 is a front view for explaining a butterfly valve according to an embodiment.
3 is a side sectional view for explaining a butterfly valve according to an embodiment.
4 is a cross-sectional view for explaining the rotation axis of the butterfly valve according to one embodiment.

Hereinafter, embodiments will be described with reference to the accompanying drawings. However, the embodiments described may be modified in various other forms, and the scope of the present invention is not limited by the embodiments described below. In addition, various embodiments are provided to more fully describe the present invention to those skilled in the art. The shape and size of elements in the drawings may be exaggerated for clarity.

The following embodiments provide a technique relating to a butterfly valve for improving the durability by forming the outside of the rotating shaft from a plastic material.

The embodiments can improve the quality of the product because the inner surface of the valve is made of a plastic material and is not corroded by the fluid and is chemically safe. In addition, the embodiments can improve corrosion resistance, durability and abrasion resistance by injection molding the outside of the rotating shaft with a plastic material.

1 is a view for explaining a conventional butterfly valve.

Referring to FIG. 1, the butterfly valve 10 generally includes a body 11 mounted on a conduit (not shown) for transferring fluids, a cylinder 11 rotatably installed inside the body 11, And a rotating shaft 13 coupled to the disk 12 and rotating the disk 12 and having one end exposed to the outside of the body 11.

That is, by rotating the rotating shaft 13 exposed from the body 11, the opening and closing operation is performed by the rotation of the disk 12 coupled with the rotating shaft 13.

In order to rotate the rotary shaft 13, a rotation driving device is provided on the upper part of the body 11, and rotational force is transmitted to the rotary shaft 13 through power transmission means according to various power sources.

For example, the power source may be a rotational force of a handle by manual operation of an operator, a rotational force of an electric motor, or a rotational force transmitted from an actuator such as an oil pressure or a pneumatic pressure.

The power provided from the power source must be transmitted to the rotating shaft 13 through the power transmitting means by a rotational force. The power transmitting means may include various power transmitting means such as a plurality of gears, a kinematic link, and the like.

FIG. 2 is a front view for explaining a butterfly valve according to an embodiment, and FIG. 3 is a side sectional view for explaining a butterfly valve according to an embodiment.

Referring to FIGS. 2 and 3, a butterfly valve 100 according to an embodiment may include a body 110, a disk 120, and a rotation shaft 130. Also, according to the embodiment, the butterfly valve 100 may further include a body sheet.

The body 110 is installed in a channel through which the fluid moves, and a fluid guide hole of the circular passage can be formed so that the fluid can pass through the fluid. The body 110 is installed in the fluid guide hole so as to be hermetically sealed in a state where the disk 120 is inclined, so that the movement of the fluid can be opened and closed in one direction.

A plurality of holes for fastening may be formed at the edge of the body 110, and a plurality of holes may be formed in an elliptic shape as well as a circular shape. That is, a plurality of circular or elliptical holes may be formed along the edge of the body 110 for fastening with the apparatus.

The body 110 may be made of a plastic material such as PVC, PP, C-PVC or PVDF. As the material of the body 110 is made of plastic material, the inner surface of the body 110 is not corroded by the fluid and is chemically safe, so that the quality of the product can be improved.

Meanwhile, according to the embodiment, the body 110 may be made of a copper alloy, stainless steel or an alloy steel, and may be made of a material such as a cast iron (GC), a ductile steel (GCD), a cast steel (SC)

The disk 120 may have a disk shape, and may be rotatably installed inside the body 110 to open and close the fluid guide hole. Accordingly, when the fluid flowing into the fluid guiding hole collides with the disk 120, the disk 120 can be opened by water pressure.

That is, the disk 120 is rotated by the rotation shaft 130, and both ends of the rotation shaft 130 can be coupled to the body 110.

The disk 120 may be made of the same or similar material as the body 110. The material of the body 110 and the material of the disk 120 may be made the same to prevent corrosion caused by chemical components contained in the fluid passing through the valve and corrosion due to rust.

More specifically, the disc 120 may be made of a plastic material such as PVC, PP, C-PVC or PVDF. Since the material of the disk 120 is not corroded by the fluid due to the use of the plastic material, and is chemically safe, the quality of the product can be improved.

The disk 120 may be made of a copper alloy, stainless steel or an alloy steel, and may be made of a material such as a cast iron (GC), a ductile (GCD), or a cast steel (SC). When such a material is used as the material of the disk 120, there is a problem that the weight of the disk 120 is heavy and the manufacturing cost is high.

The rotating shaft 130 passes through the body 110 and is fixed to the disk 120 to rotate the disk 120. At this time, both ends of the rotating shaft 130 are coupled to the body 110, and the disc 120 can be rotated within the body 110 by the rotating shaft 130.

A coating layer 132 made of a plastic material may be formed on the outer circumferential surface of the rotating shaft 130.

The rotation shaft 130 may include an inner shaft 131 and a cover layer 132.

The inner shaft 131 is made of a metal material and may be made of a copper alloy or stainless steel or an alloy steel and may be made of a material such as cast iron (GC), ductile iron (GCD), cast steel (SC)

The cover layer 132 is formed outside the inner shaft 131 and may be made of a plastic material. At this time, the coating layer 132 may be injection molded.

The cover layer 132 may be made of a plastic material such as PVC, PP, C-PVC, or PVDF. As the plastic material is used, the inner surface is not corroded by the fluid, and the chemical resistance, corrosion resistance, and durability are good. The cover layer 132 may be formed using the same material as the body 110 and the disc 120.

That is, the rotating shaft 130 may have a structure in which an inner shaft 131 of a metal material and a coating layer 132 of a plastic material having a proof strength against the chemical component of the fluid are formed to a predetermined thickness outside the inner shaft 131 have. Here, the thickness of the coating layer 132 is preferably about 3 to 4 mm, but its thickness can vary as a design problem.

One end of the rotation shaft 130 may be exposed to the outside of the body 110. The rotary shaft 130 exposed to the outside of the body 110 is provided with a rotation driving device and can transmit rotational force to the rotary shaft 130 through power transmission means in accordance with various power sources.

For example, the power source may be a rotational force of the handle 150 by manual operation of the operator, a rotational force of the electric motor, or a rotational force transmitted from an actuator such as other hydraulic or pneumatic pressures.

The power provided from the power source may be transmitted to the rotating shaft 130 through the power transmitting means by rotational force. The power transmitting means may include various power transmitting means such as a plurality of gears, a kinematic link, and the like.

That is, by rotating the rotating shaft 130 exposed from the body 110, the opening and closing operation can be performed by the rotation of the disk 120 coupled with the rotating shaft 130.

A handle 150 coupled to the body 110 to control opening and closing operations of the disk 120 and a gear box 150 coupled to the body 110 to transmit rotational force of the knob 150 to the rotational shaft 130. [ 140).

Meanwhile, a pair of insert nuts may be integrally coupled to both sides of the upper portion of the body 110 to prevent damage to the body 110 during transportation. The insert nut is for providing space for inserting a wire or inserting a delivery hook when carrying the body 110. [ At this time, the insert nut may be formed integrally with the body 110 during injection molding.

According to the embodiment, the butterfly valve 100 may further include a body sheet.

The body sheet may be formed in a ring shape and installed inside the body 110 and formed on the outer circumference of the disk 120. That is, the body sheet may be formed between the body 110 and the disk 120. The body sheet is made of an elastic material and can be closely attached to the disc 120 according to the rotation of the disc 120.

For example, a fluororesin sheet excellent in corrosion resistance and chemical resistance can be used for the body sheet.

More specifically, the body sheet is made of a soft synthetic rubber such as nitrile rubber (NBR), ethylene propylene rubber (EPDM), Hypalon, silicone rubber, fluorine rubber, chloroprene rubber (CR), urethane rubber and the like excellent in abrasion resistance and airtightness. A material may be used to maintain airtightness with the body 110.

At this time, it is also possible to form a concave groove in the outer periphery of the disk 120 to closely contact the body sheet.

The reason for using a body sheet made of an elastic material is that the valve 110 can be operated by using a material having elasticity for one of the sheets of the body 110 or the disc 120 . At this time, the body sheet and the disk 120 need to be compressed by a predetermined amount so that the fluid can be interrupted.

The butterfly valve 100 is preferably made of a material having high strength and hardness without rusting due to resistance to corrosion due to chemical components.

According to one embodiment of the present invention, the inner surface is not corroded by ejecting the body 110, the disk 120, the covering layer 132 of the rotating shaft 130, etc. with a plastic material (PP or PVC or C-PVC or PVDF) , And can be chemically safe to improve the quality of the product.

4 is a cross-sectional view for explaining the rotation axis of the butterfly valve according to one embodiment.

The rotation shaft 130 of the butterfly valve 100 according to an embodiment may be fixed to the disk 120 through the body 110 to rotate the disk 120. At this time, both ends 131a and 131b of the rotating shaft 130 are rotatably coupled to the body 110 through bearings, so that the disk 120 can be rotated within the body 110 by the rotating shaft 130.

4, the rotation shaft 130 of the butterfly valve 100 may include an inner shaft 131 and a cover layer 132. [

The inner shaft 131 is made of a metal material and may be made of a copper alloy or stainless steel or an alloy steel and may be made of a material such as cast iron (GC), ductile iron (GCD), cast steel (SC)

The coating layer 132 is formed on the outer side of the inner shaft 131 and may be made of a plastic material to prevent corrosion due to chemical components contained in the fluid passing through the valve and corrosion caused by rust. At this time, the coating layer 132 may be injection molded.

The cover layer 132 may be made of a plastic material such as PVC, PP, C-PVC, or PVDF. As the plastic material is used, the inner surface is not corroded by the fluid, and the chemical resistance, corrosion resistance, and durability are good. The cover layer 132 may be formed using the same material as the body 110 and the disc 120.

That is, the rotating shaft 130 may have a structure in which an inner shaft 131 of a metal material and a coating layer 132 of a plastic material having a proof strength against the chemical component of the fluid are formed to a predetermined thickness outside the inner shaft 131 have. Here, the thickness of the coating layer 132 is preferably about 3 to 4 mm, but its thickness can vary as a design problem.

In addition, one end 131b of the rotary shaft 130 may be exposed to the outside of the body 110. The rotary shaft 130 exposed to the outside of the body 110 is provided with a rotation driving device and can transmit rotational force to the rotary shaft 130 through power transmission means in accordance with various power sources.

Accordingly, the opening and closing operation can be performed by rotating the rotating shaft 130 exposed from the body 110, by rotating the disk 120 coupled with the rotating shaft 130.

In other words, both ends 131a and 131b of the rotary shaft 130 are rotatably coupled to the body, one end 131b of the rotary shaft 130 is exposed from the body 110, and the exposed rotary shaft 130 is rotated, The opening and closing operation can be performed according to the rotation of the disc 120 coupled with the disc 130.

As described above, according to the embodiments, since the material of the valve is made of a plastic material and the inner surface is not corroded by the fluid, it is chemically safe, so that the quality of the product can be improved.

In addition, according to the embodiments, the outer portion of the rotating shaft 130 may be injection-molded using a plastic material to improve corrosion resistance, durability, and abrasion resistance.

When the disc 120 is injection-molded from a plastic material such as PVC, PP, C-PVC, or PVDF having excellent corrosion resistance and chemical resistance, the rotary shaft 130 is inserted into the disc 120, 120 and the rotating shaft 130 can be improved.

The fluid pressure transmitted to the disk 120 and the rotary shaft 130 and the torsional pressure of the knob 150 are dispersed throughout the disk 120 so that cracks may be generated in the disk 120 due to fluid pressure, It is possible to prevent the occurrence of warpage of the film.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

10, 100: Butterfly valve
11, 110: Body
12, 120: disk
13, 130:
140: Gear box
150: Handle

Claims (7)

In butterfly valves,
A body installed in a conduit for transferring the fluid and having a fluid guide hole;
A disk rotatably installed in the body to open and close the fluid guide hole; And
A rotating shaft which is fixed to the disk through the body to rotate the disk and has a covering layer of a plastic material formed on an outer circumferential surface thereof,
The butterfly valve comprising: The method according to claim 1,
A body sheet of an elastic material which is formed in a ring shape and installed inside the body and which is in close contact with the disk in accordance with rotation of the disk,
Further comprising a butterfly valve. The method according to claim 1,
The rotation shaft
An inner shaft made of a metal material; And
A coating layer formed on the outside of the inner shaft and made of the plastic material;
/ RTI >
Wherein said coating layer is injection molded. The method according to claim 1,
The covering layer of the rotating shaft
Molded by injection molding of PVC, PP, C-PVC, and PVDF
A butterfly valve. 5. The method of claim 4,
Wherein the body and the disk are made of metal,
Wherein said injection molding is selected from among PVC, PP, C-PVC, and PVDF,
The cover layer of the body, the disk, and the rotating shaft may be made of the same material
A butterfly valve. The method according to claim 1,
The covering layer of the rotating shaft
And a thickness of 3 to 4 mm. The method according to claim 1,
Wherein both ends of the rotating shaft are coupled to the body, one end of the rotating shaft is exposed from the body, and the opened and closed operation is performed according to the rotation of the disk coupled to the rotating shaft by rotating the exposed rotating shaft
A butterfly valve.

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