KR101202464B1 - Butterfly valve with electromagnet stopper - Google Patents

Abstract

PURPOSE: A butterfly valve with an electromagnetic stopper is provided to perfectly attach a disc loosen by using for a long time to the inner periphery of a main body and to position the disc at a right position at a final sealed time by comprising an electromagnetic stopper. CONSTITUTION: A butterfly valve comprises a main body(110), a disc(120), and an electromagnetic stopper(130). A flow channel is formed inside the main body. The disc is rotatably installed in the main body to control the opening and closing of the flow channel. The electromagnetic stopper restricts the disc to no longer rotate when the disc perfectly closes the flow channel. When the disc is adjacent, the electromagnetic stopper generates magnetic force to pull the disc with the magnetic force until the disc is rotated to the end.

Description

Butterfly valve with electromagnet stopper {BUTTERFLY VALVE WITH ELECTROMAGNET STOPPER}

The present invention relates to a butterfly valve, in particular, having an electromagnet stopper that pulls the disc to the end by magnetic force while operating at the time of closing the disc so that the disc, which has been loosened for long periods of use, can be completely adhered to the inner circumferential surface of the main body without any gap. A butterfly valve having an electromagnet stopper is provided.

In general, the butterfly valve is a valve that controls the opening and closing of the fluid by using a disk-shaped disk rotating in the body, which is a cylindrical fluid passage, and is widely used in various piping facilities because of its relatively simple structure compared to other valves. It is used.

Such butterfly valves are classified into a concentric type, a single offset type, a double offset type, and a triple offset type.

As shown in FIG. 1A, the concentric butterfly valve is configured such that the center of the sealing surface of the valve and the body 10, the disk 20, and the shaft 30 are in the same line. The structure is symmetrical about the axis and is symmetrical about the central axis of the body 10. Concentric type butterfly valve as described above is the most widely used in low-temperature, low-pressure applications of the butterfly valve has the advantage of good index ratio at low pressure, the disk 20 while pressing the rubber seat 11 for indexing directly sealing As a result, the damage rate of the rubber seat 11 is high, and the friction between the disk 20 and the rubber seat 11 is severe, so that the index ratio may be sharply lowered during frequent operation.

In the single offset butterfly valve, as shown in FIG. 1B, the center of the valve body 10 and the shaft 30 are located on the same line, but the sealing surface of the disk 20 is "a" relative to the center of the valve. Eccentric to one side, it can be used as a larger sized valve than a concentric valve, has less operating torque than a concentric valve, and has a lower damage rate than the concentric valve. However, there is a relatively easy replacement, but there is a limit in realizing low torque because the disk 20 and the seat 40 friction operation when opening and closing the valve.

The double offset butterfly valve, like the single offset butterfly in FIG. 1C, has a sealing surface of the disk 20 eccentrically "a" toward the center of the valve, and at the same time the body 10 and the disk 20 of the valve. The center of the shaft 30 is eccentrically moved in one direction with respect to the outer diameter of the shaft 30, and the operating torque is significantly smaller and easier to maintain than the central type butterfly valve. Compared to the single offset type, the sealing contact surface is reduced, but this causes the shaking of the seat 40. Therefore, when selecting the seat material, there is a restriction that a Teflon-based material or a high elastic material is used, and a stopper is formed inside the valve. There are disadvantages that must be made.

In addition to the double offset butterfly valve structure, the triple offset butterfly valve is configured such that the sealing surface forms an elliptical cross section by giving an angle of “a” of one sealing surface about the shaft 30 axis as shown in FIG. 1D. , Lower operating torque than concentric valves and double offset butterfly valves can be realized, and the valve life is extended due to a significant reduction in the sealing contact surface, and there is no shaking in the sealing surface of the seat 40 when the valve is opened or closed. On the other hand, there is a disadvantage that it is difficult and very expensive to process the disk 20 having an elliptic shape.

The butterfly valves of the various types described above have a common advantage of having a simple structure of opening and closing a flow path by rotation of a disk, but this has also caused a difficulty in realizing complete blocking of the fluid. That is, the conventional butterfly valve should be rotated until the disc is completely in contact with the inner circumferential surface of the body during the closing operation, but the disc loosened due to long-term use in the field does not rotate completely at the time of sealing, and has a gap between the inner circumferential surface of the body. Was to allow.

However, in this closed operation, the disc that is loosened at the time of closing does not rotate completely, so that the proper measures for solving the problem of not allowing close contact with the inner circumferential surface of the body and allowing a gap are not provided.

Accordingly, the present invention has been proposed to solve the conventional problems as described above, and an object of the present invention is to provide an electromagnet stopper that pulls the disc to the end by magnetic force while operating at the time of closing the disc, and thus, for reasons such as long-term use. It is to provide a butterfly valve with an electromagnet stopper that allows the loosened disk to be completely in contact with the inner circumferential surface of the main body.

In order to achieve the above object, a butterfly valve having an electromagnet stopper according to the technical idea of the present invention includes: a butterfly valve, comprising: a cylindrical main body for forming a flow path therein; A disk which is rotatably installed in the main body and controls opening and closing of a flow path; The main body is protruded on the inner circumferential surface to restrain the disk from rotating further when the disk completely blocks the flow path. When the disk is adjacent to the disk, the magnetic force is generated until the disk rotates to the end. It is characterized by its technical construction that comprises an electromagnet stopper which is attracted to it.

Here, the electromagnet stopper is a magnetic force is generated when the disc is adjacent to the disc closing operation during the closing operation of the disc, the power is cut off so that the disc can rotate in the opening direction during the disc opening operation It can be characterized in that it does not occur.

In addition, the disk may be characterized in that the mounting groove is formed so that the electromagnet stopper is correspondingly seated.

In addition, the electromagnet stopper may be characterized in that it is made of a cylindrical shape so as to be coupled in position without shifting the seating groove.

The electromagnet stopper may include a stopper cap having a cylindrical electromagnet having a male thread formed on an outer circumferential surface thereof and a screw hole formed with a female thread on an inner circumferential surface thereof so as to be screwed with the electromagnet.

In addition, the surface of the electromagnet stopper may be characterized by being coated with Teflon to reduce the surface friction with the seating groove.

In addition, the surface of the seating groove may be characterized in that the rubber sheet is coated for sealing between the electromagnet stopper.

In addition, the electromagnet stopper may be provided in two pairs on the inner circumferential surface of the main body.

The butterfly valve provided with the electromagnet stopper according to the present invention has an electromagnet stopper which pulls the disc to the end by magnetic force while operating at the time of closing the disc, so that the disc, which has been loosened for long periods of use, has no gap in the inner circumference of the main body. Fully adhered

In addition, the present invention, even if the disc is shifted due to the interaction of the electromagnet stopper of the cylindrical form and the semi-circular mounting groove corresponding thereto is positioned in the final position at the final closing time.

In addition, the present invention is the Teflon is coated on the surface of the electromagnet stopper and the rubber sheet is coated on the seating groove surface, it is possible to prevent damage due to frictional contact with each other while ensuring a sealing between the electromagnet stopper and the seating groove.

In addition, the present invention, if the electromagnet stopper is made of a cylindrical electromagnet and the stopper cap, when the outside is damaged due to prolonged contact with the disk, it is possible to simply replace the stopper cap with a consumable type without replacing the entire electromagnet stopper.

1A to 1C are reference views for explaining a butterfly valve according to the prior art.
2 and 3 are perspective views for explaining the configuration of the butterfly valve according to an embodiment of the present invention.
4 is a cross-sectional view according to II of FIG. 3.
5 is an exploded perspective view for explaining the structure of the electromagnet stopper according to the embodiment of the present invention.
Figure 6 is a block diagram for explaining a drive system of the butterfly valve according to an embodiment of the present invention.
7 to 10 are a series of reference diagrams for explaining the operation of the butterfly valve according to an embodiment of the present invention.

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

2 and 3 are perspective views for explaining the configuration of the butterfly valve according to an embodiment of the present invention, Figure 4 is a cross-sectional view according to II of Figure 3, Figure 5 is an electromagnet stopper according to an embodiment of the present invention An exploded perspective view for explaining the structure. 6 is a configuration diagram for explaining a driving system of a butterfly valve according to an embodiment of the present invention.

As shown, the butterfly valve according to an embodiment of the present invention comprises a main body 110, a disk 120, an electromagnet stopper 130, the electromagnet stopper 130 is closed By pulling the disk 120 to the end, even if the disk 120 is in a loose state, the main body 110 is configured to be in close contact with the inner circumferential surface without any gap.

Hereinafter, the configuration of the butterfly valve according to the embodiment of the present invention with respect to each of the above components will be described in more detail.

The main body 110 is combined with the transfer pipe serves to form a flow path. To this end, the main body 110 is formed in a cylindrical shape having a hollow that becomes a flow path.

The disk 120 serves to control the opening and closing of the flow path formed in the main body 110. To this end, the disk 120 is installed to be rotatable by a rotating shaft inside the main body 110. Here, the rotating shaft of the disk 120 is connected to the handle 115 by a gear or a lever so that when the user rotates the handle 115, the disk 120 rotates to open and close the flow path of the main body 110. do.

In addition, a seating groove 125 is formed in the disk 120 such that the electromagnet stopper 130 is correspondingly seated. The seating groove 125 is formed as a semicircular groove so that the electromagnet stopper 130 formed in a cylindrical shape may be seated correspondingly. The surface of the seating groove 125 is coated with a rubber sheet 126 to prevent the fluid from leaking between the electromagnet stopper 130. However, the overall material of the rubber sheet 126 is provided with a surface treatment to reduce the surface friction upon contact with the electromagnet stopper 130 while having elasticity to achieve a stable sealing while stretching.

The electromagnet stopper 130 is installed on the inner circumferential surface of the main body 110 to serve as a stopper to prevent the disk 120 from rotating and at the same time generates a magnetic force when the disk 120 is adjacent to the disk ( 120 to rotate to the end serves to ensure that the main body 110, the inner circumferential surface is completely in contact with no gaps. To this end, the electromagnet stopper 130 protrudes at a position (upper and lower side in the drawing) orthogonal to a portion of the inner circumferential surface of the main body 110 to which the rotating shaft of the disk 120 is coupled (left and right in the drawing). It is installed in the form. In addition, the electromagnet stopper 130 is provided with an electromagnet capable of generating a magnetic force when the power is applied so that the disk 120 is attracted to the adjacent time. As such, when the disc 120 is close to the electromagnet stopper 130, that is, when the disc 120 is closed, the disc 120 is adjacent to the electromagnet stopper 130 so that power is applied to the electromagnet stopper 130. It should be provided with a sensor 140 that can. The sensor 140 is provided with a rotation angle sensor for detecting the rotation angle of the rotating shaft of the disk 120 or a magnetic sensor for detecting that the magnetic stopper 130 and the disk 120 adjacent by magnetic force Can be installed, and various known techniques can be used. Here, although the electromagnet stopper 130 is installed on only one of the upper and lower inner circumferential surfaces of the main body 110, there is no problem in performing the function, but is preferably installed on both sides. This means that when the electromagnet stoppers 130 are installed in pairs of two, the disk 120 can be stably pulled with a stronger force from both sides.

In addition, the electromagnet stopper 130 is formed in a cylindrical shape corresponding to the mounting groove 125 of the disk 120 formed in a semicircular shape. As such, when the electromagnet stopper 130 is formed in a cylindrical shape, the electromagnet stopper 130 is coupled to the seat groove 125 of the disc 120 by an interaction between the electromagnet stopper 130 and the disc 120, but the disc 120 is biased. At the moment of final closure, it is possible to be in close contact without being displaced and being in position. Furthermore, since the outer circumferential surface of the electromagnet stopper 130 is coated with Teflon 131, the above-described in-situ coupling is smoothly performed while reducing surface friction with the mounting groove 125 of the disc 120.

In addition, as shown in FIGS. 4 and 5, the electromagnet stopper 130 has a cylindrical electromagnet 130a having a male screw 135 formed on an outer circumferential surface thereof, and a female screw 136 on an inner circumferential surface of the electromagnet 130a so as to be screwed with the electromagnet 130a. ) And a stopper cap 130b having a threaded hole formed therein. When the electromagnet stopper 130 is made of a cylindrical electromagnet 130a and the stopper cap 130b as described above, when the outside is damaged due to prolonged contact with the disc 120, the electromagnet stopper 130 is not replaced. Simply replace the stopper cap (130b) in the form of consumables.

The operation of the butterfly valve having the electromagnet stopper according to the embodiment of the present invention configured as described above will be described in detail with reference to FIGS. 7 to 10 and the accompanying drawings. 7 to 10 are a series of reference diagrams for explaining the operation of the butterfly valve according to the embodiment of the present invention.

First, FIG. 7 illustrates a state in which the disk 120 completely opens the flow path of the main body 110. In such a state, when the user rotates the handle 115 in the closing direction, the disk 120 is gradually rotated in the closing direction, and closes close to the electromagnet stopper 130 as shown in FIG. 9 through an intermediate step shown in FIG. 8. To the point in time.

As such, when the disk 120 reaches the closing time adjacent to the electromagnet stopper 130, the detection sensor 140 detects this and notifies the controller 150. Then, the controller 150 controls the power supply unit 160 to apply power to the electromagnet stopper 130.

Thus, when the electromagnet stopper 130 is applied with power and generates a magnetic force, the disc 120 is attracted to the electromagnet stopper 130 by the generated magnetic force, and the disc 120 rotates to the end thereof. The main body 110 is completely in contact with the inner circumferential surface without a gap. In this process, while the diaphragm 120 is biased by the interaction between the electromagnet stopper 130 and the seating groove 125 of the disc 120, even if the disc 120 is biased to one side, it is naturally at the final closing moment as shown in FIG. It is possible to be in close contact with the complete position.

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. It is clear that the present invention can be suitably modified and applied in the same manner. Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

110: main body 120: disk
125: seating groove 130: electromagnet stopper
130a: Electromagnet 130b: Stopper Cap
135: handle 140: detection sensor
150 controller 160 power unit

Claims (8)

In the butterfly valve,
A cylindrical main body forming a flow path therein;
A disk which is rotatably installed in the main body and controls opening and closing of a flow path;
The main body is protruded on the inner circumferential surface to restrain the disk from rotating further when the disk completely blocks the flow path. When the disk is adjacent to the disk, the magnetic force is generated until the disk rotates to the end. It has an electromagnet stopper configured to include an electromagnet stopper for pulling in,
And a pair of electromagnet stoppers provided on the opposite inner circumferential surface of the main body in pairs. The method of claim 1,
The electromagnet stopper generates power by applying power when the disc is adjacent to the disc closing operation, but generates power by cutting off the power so that the disc can rotate in the opening direction during the disc opening operation. Butterfly valve with electromagnet stopper. The method of claim 1,
And a seating groove formed in the disk to allow the electromagnet stopper to be seated correspondingly. The method of claim 3,
The electromagnetic stopper is a butterfly valve having an electromagnet stopper, characterized in that formed in a cylindrical shape so as to be coupled in position without deviating from the seating groove. 5. The method of claim 4,
The electromagnet stopper is a butterfly valve comprising a stopper cap having a cylindrical electromagnet formed on the outer circumferential surface and a screw hole formed on the inner circumferential surface to be screwed with the electromagnet. 5. The method of claim 4,
Butterfly valves equipped with an electromagnet stopper, characterized in that the surface of the electromagnet stopper is coated with Teflon to reduce the surface friction with the seating groove. 5. The method of claim 4,
Butterfly valve having an electromagnet stopper, characterized in that the rubber sheet is coated on the surface of the seating groove for sealing between the electromagnet stopper. delete

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