CN218236184U - Butterfly valve - Google Patents

Abstract

The application discloses a butterfly valve, which comprises a valve body, a valve rod, a first limiting piece, a second limiting piece, an anti-rotating piece and an anti-rotating pin, wherein the first limiting piece is fixed on the valve body; the rotation preventing part is in limited connection with the valve rod along the rotation circumferential direction so as to rotate synchronously with the valve rod; prevent changeing and be equipped with and prevent changeing the hole, prevent that the round pin wears to locate and prevents changeing the hole and be fixed in the valve body, prevent changeing the rotation in-process, prevent changeing the round pin and prevent changeing the hole and rotating the relative motion in the circumference, when making prevent changeing the piece and rotate extreme position, prevent changeing the round pin and prevent the pore wall conflict of changeing the hole to the rotation stroke of restriction valve rod. This application can prevent valve rod axial float, can also restrict the rotation stroke of valve rod, and overall structure is simple moreover, configuration low cost, easy popularization and application.

Description

Butterfly valve

Technical Field

The application relates to the technical field of valve devices, in particular to a butterfly valve.

Background

The butterfly valve is a regulating valve with simple structure, mainly plays the roles of cutting off and throttling on a pipeline, and can be used for controlling the flow of various types of fluids such as air, water, steam, various corrosive media, slurry, oil products, liquid metal, radioactive media and the like.

The butterfly valve drives the valve plate to rotate around the axis of the butterfly valve body through the valve rod, so that opening and closing and opening adjustment are achieved. At present, the problem that the valve rod axial float and the valve rod rotation stroke are not limited generally exists in butterfly valves, the valve rod axial float easily causes the problems of clamping stagnation of the valve plate and abnormal sound in the working process, and the valve rod rotation stroke is not limited and can cause the opening of the butterfly valve to be not easy to control.

Therefore, there is a need for those skilled in the art to address the issue of axial stem drunkenness and unlimited stem rotational travel.

SUMMERY OF THE UTILITY MODEL

The application provides a butterfly valve, which comprises a valve body, a valve rod, a first limiting part, a second limiting part, an anti-rotating part and an anti-rotating pin, wherein the first limiting part is fixed on the valve body; the rotation preventing piece is connected with the valve rod so as to rotate synchronously with the valve rod; prevent changeing and be equipped with and prevent changeing the hole, prevent that the round pin wears to locate prevent changeing the hole and being fixed in the valve body, prevent changeing the rotation in-process, prevent the round pin with prevent changeing the hole and rotating week upward relative motion, make when changeing the piece and rotating extreme position, prevent the round pin with prevent the conflict of the pore wall in commentaries on classics hole, in order to restrict the rotation stroke of valve rod.

The valve body is provided with a first mounting groove, the top end of the first mounting groove is arranged at the surface of the valve body to form a mounting opening, the side wall of the first mounting groove is provided with a clamping groove, a first limiting part is arranged in the first mounting groove and clamped in the clamping groove, an anti-rotation part is arranged in the first mounting groove, the bottom end of the anti-rotation part is abutted against the bottom wall of the first mounting groove and the top end of a second limiting part, and the first limiting part is an elastic limiting part.

The butterfly valve further comprises a gasket, wherein the gasket is arranged between the bottom end of the anti-rotating part and the top end of the second limiting part, so that the bottom end of the anti-rotating part indirectly abuts against the top end of the second limiting part through the gasket.

An embodiment of butterfly valve, the valve body is equipped with second mounting groove and valve rod mounting hole, the top of second mounting groove is in the diapire of first mounting groove forms the installing port, the bottom of second mounting groove with the top intercommunication of valve rod mounting hole, the gasket with second locating part both sides are arranged in the second mounting groove, the bottom of second locating part with the diapire of second mounting groove is contradicted.

An embodiment of butterfly valve, prevent changeing the piece and be equipped with the connecting hole, the valve rod have with connecting hole complex cooperation section, prevent changeing the piece and pass through the connecting hole suit is in the cooperation section periphery of valve rod, the connecting hole is the non-round hole, the radial cross-section of cooperation section is the non-disc.

In an embodiment of the butterfly valve, the second position-limiting member includes a plurality of half pads, the second position-limiting member is provided with an annular groove, and each of the half pads is clamped at different circumferential positions of the annular groove and is mutually spliced to form an annular pad.

One of the two sides of the valve seat is provided with a protrusion, and the other side of the valve seat is provided with a groove matched with the protrusion, so that the valve seat and the valve body are in concave-convex fit.

An embodiment of the butterfly valve further comprises a self-lubricating bearing mounted between the valve stem and the valve body.

The butterfly valve further comprises a valve plate, wherein the valve plate is provided with a valve rod connecting hole, and the outer peripheral surface of the valve rod is tightly matched with the hole wall surface of the valve rod connecting hole through a spline.

In one embodiment of the butterfly valve, the valve plate has two plate sides, each of the plate sides being an arcuate surface having a central area that is convex relative to an edge area in a direction away from the other plate side.

According to the valve body, the valve body can apply a limiting force to the second limiting piece towards the top side, and the limiting force is transmitted to the valve rod fixedly connected with the second limiting piece, so that the valve rod can be limited from moving downwards; meanwhile, the first limiting part can apply limiting force to the anti-rotating part towards the bottom side, the limiting force is transmitted to the second limiting part through the anti-rotating part and then transmitted to the valve rod fixedly connected with the second limiting part, and therefore the valve rod can be limited from moving upwards.

This application, because the stop pin is fixed in the valve body, prevents changeing piece and valve rod along circumference spacing connection, so when the pore wall in preventing changeing the hole contradicts with the stop pin, can restrict the valve rod and further rotate along current direction, consequently can restrict the rotation stroke of valve rod.

This application has reached and to have prevented valve rod axial float, also can restrict the technical effect of the rotation stroke of valve rod. Moreover, the anti-rotation part simultaneously plays the roles of preventing the axial movement of the valve rod and limiting the rotation stroke of the valve rod, realizes multiple purposes, ensures that the butterfly valve has simple integral structure and low configuration cost on the basis of achieving the effects, and is easier to popularize and apply.

Drawings

FIG. 1 is a front cross-sectional view of one embodiment of a butterfly valve provided herein;

FIG. 2 is an enlarged view of the circled portion in FIG. 1;

FIG. 3 is a top plan view of the encircled portion of FIG. 1;

FIG. 4 is a cross-sectional view taken along line E-E of the valve seat and valve body of FIG. 1;

FIG. 5 is a top plan view of the valve stem and valve plate of FIG. 1 mated by splines;

FIG. 6 is a left side view of the valve plate of FIG. 1.

The reference numerals are explained below:

100 valve body, 101 first mounting groove, 101a clamping groove, 102 second mounting groove, 103 valve rod mounting hole, 104 valve seat mounting hole and 104a groove

200 valve stem, 201 annular groove;

300 a first limiting member;

400 a second limiting member;

500 anti-rotation parts, 501 anti-rotation holes, 502 connecting holes,

600 anti-rotation pins;

700 a gasket;

800 valve seat, 801 annular part, 801a bulge and 802 bending part;

900 valve plate, 901 valve rod connecting hole, 902 valve plate side;

spline A and self-lubricating bearing B.

Detailed Description

In the past, the problems that a valve rod moves axially and the rotating stroke of the valve rod is not limited generally exist in butterfly valves, the problems that the valve plate is blocked easily due to the axial movement of the valve rod, abnormal sound occurs in the working process and the like, and the opening degree of the butterfly valve is not easy to control due to the fact that the rotating stroke of the valve rod is not limited.

In order to solve the above problems, the present application provides a butterfly valve, the valve rod 200 of which is not easy to axially move and the valve plate 900 can rotate within a preset range of travel.

In order to make those skilled in the art better understand the technical solution of the present application, the butterfly valve provided in the present application will be further described in detail with reference to the accompanying drawings and the detailed description.

As shown in fig. 1, the butterfly valve includes a valve body 100, a valve stem 200, a valve seat 800, a valve plate 900, and the like. The valve seat 800 is mounted to the valve body 100, and the valve seat 800 surrounds the flow passage hole. The valve body 100 is provided with a valve rod mounting hole 103, the valve rod 200 is inserted into the valve rod mounting hole 103, the valve rod 200 is connected with the valve plate 900, the valve plate 900 is driven to rotate when the valve rod 200 rotates around the axis of the valve rod 200, and the flow passage hole is opened and closed by the valve plate 900, so that the valve is opened and closed.

A self-lubricating bearing B may be provided between the valve stem 200 and the valve body 100 to reduce a frictional force between the valve stem 200 and the valve body 100, thereby reducing opening and closing torques. Specifically, a plurality of self-lubricating bearings B may be sequentially provided at intervals in the axial direction of the valve stem 200.

As shown in fig. 2, the butterfly valve further includes a first limiting member 300, a second limiting member 400, an anti-rotation member 500 and an anti-rotation pin 600. The first limiting member 300 is fixed to the valve body 100, the second limiting member 400 is fixed to the valve rod 200, and the first limiting member 300, the rotation preventing member 500, the second limiting member 400 and the valve body 100 are sequentially abutted from top to bottom along the axial direction of the valve rod 200.

With this arrangement, the valve body 100 can apply a top-side restriction force to the second restriction member 400, which is transmitted to the valve stem 200 fixedly connected to the second restriction member 400, thereby restricting downward play of the valve stem 200; meanwhile, the first limiting member 300 can apply a limiting force to the rotation preventing member 500 towards the bottom side, and the limiting force is transmitted to the second limiting member 400 through the rotation preventing member 500 and then transmitted to the valve rod 200 fixedly connected with the second limiting member 400, so that the upward movement of the valve rod 200 can be limited.

Referring to fig. 3, the rotation preventing member 500 of the butterfly valve is rotatably coupled to the valve stem 200 in a circumferential direction so as to be rotated in synchronization with the valve stem 200. The anti-rotation member 500 is provided with an anti-rotation hole 501, and the anti-rotation pin 600 penetrates through the anti-rotation hole 501 and is fixed to the valve body 100. During the rotation of the rotation preventing member 500, the rotation preventing pin 600 and the rotation preventing hole 501 relatively move in the rotation direction. When the anti-rotation member 500 rotates to the extreme position, the anti-rotation pin 600 abuts against the hole wall of the anti-rotation hole 501.

Set up like this, because the anti-rotation pin 600 is fixed in the valve body 100, prevent that the piece 500 is connected with the valve rod 200 along circumference is spacing, so when the pore wall of preventing the rotation hole 501 contradicts with the anti-rotation pin 600, can restrict the valve rod 200 and further rotate along current direction, consequently can restrict the rotation stroke of valve rod 200.

Above-mentioned butterfly valve has reached and to have prevented the axial float of valve rod 200, also can restrict the technical effect of valve rod 200's rotation stroke. Moreover, the anti-rotation part 500 of the butterfly valve plays the roles of preventing the axial movement of the valve rod 200 and limiting the rotation stroke of the valve rod 200 at the same time, so that the butterfly valve is multifunctional, and the butterfly valve is simple in overall structure and low in configuration cost on the basis of achieving the effects, thereby being easier to popularize and apply.

Referring to fig. 2, in the illustrated embodiment, the valve body 100 is provided with a first mounting groove 101, a mounting opening is formed at the top end of the first mounting groove 101 on the surface of the valve body 100, and a locking groove 101a is formed on the side wall of the first mounting groove 101. The first limiting member 300 is disposed in the first mounting groove 101 and is clamped in the clamping groove 101a, so that the first limiting member 300 is fixed to the valve body 100. The anti-rotation member 500 is disposed in the first mounting groove 101, and a bottom end of the anti-rotation member 500 abuts against a bottom wall of the first mounting groove 101 and also abuts against a top end of the second limiting member 400 (in the figure, the bottom end of the anti-rotation member 500 indirectly abuts against the top end of the second limiting member 400 through the spacer 700). By adopting the structure, the first limiting part 300 and the anti-rotating part 500 can be conveniently assembled, and the assembled butterfly valve is compact and small in size.

In the illustrated embodiment, a spacer 700 is disposed between the bottom end of the anti-rotation member 500 and the top end of the second limiting member 400, and the bottom end of the anti-rotation member 500 indirectly abuts against the top end of the second limiting member 400 through the spacer 700. The spacer 700 is provided to reduce the wear of the second position-limiting member 400 when the rotation-preventing member 500 rotates. Of course, in practical implementation, the bottom end of the rotation-preventing member 500 may directly abut against the top end of the second limiting member 400 without the spacer 700.

In the illustrated embodiment, the valve body 100 is further provided with a second mounting groove 102 and a stem mounting hole 103. The valve stem 200 is inserted into the valve stem installation hole 103. The top end of the second mounting groove 102 forms a mounting opening in the bottom wall of the first mounting groove 101, and the bottom end of the second mounting groove 102 communicates with the top end of the valve stem mounting hole 103. The spacer 700 and the second limiting member 400 are both disposed in the second mounting groove 102, and the bottom end of the second limiting member 400 abuts against the bottom wall of the second mounting groove 102. By adopting the structure, the second limiting part 400 and the gasket 700 can be conveniently assembled, and the assembled butterfly valve is compact and small in size.

Specifically, the first limiting member 300 may be an elastic limiting member, such as a snap spring, so that after the assembly is completed, the first limiting member 300 can tightly abut against the rotation preventing member 500 under the elastic action of the first limiting member 300, and the rotation preventing member 500 can not be affected to rotate along with the valve rod 200, so that the rotation preventing member 500 can be ensured to simultaneously play a role in preventing the axial movement of the valve rod 200 and limiting the rotation stroke of the valve rod 200.

Specifically, the second limiting member 400 may be an annular pad formed by splicing a plurality of half pads. The annular groove 201 can be arranged on the periphery of the valve rod 200, the half gaskets are respectively inserted into different positions of the annular groove 201 in the circumferential direction, and after the half gaskets are inserted, the half gaskets are spliced to form the annular gasket, so that the second limiting part 400 is fixed to the valve rod 200. With this structure, the assembly of the second limiting member 400 and the valve stem 200 is facilitated. Of course, in practical implementation, the second limiting member 400 is not limited to this structure, for example, the second limiting member 400 may also be a convex circular structure that is integrally provided with the valve stem 200 and protrudes outward from the outer circumferential surface of the valve stem 200 in the radial direction of the valve stem 200.

Referring to fig. 3, in the embodiment shown in the figure, the anti-rotation member 500 is provided with two anti-rotation holes 501, wherein both the two anti-rotation holes 501 are arc-shaped holes, and the two anti-rotation holes 501 are circumferentially spaced. Each anti-rotation hole 501 is penetrated with an anti-rotation pin 600, when the anti-rotation piece 500 rotates clockwise to the limit position, the hole walls of one end of each of the two anti-rotation holes 501 are respectively abutted against the corresponding anti-rotation pins 600 so as to limit the valve rod 200 to further rotate clockwise; when the anti-rotation member 500 rotates counterclockwise to the limit position, the hole walls of the other ends of the two anti-rotation portions respectively abut against the corresponding anti-rotation pins 600 to limit the valve rod 200 from further rotating counterclockwise. Certainly, in actual implementation, the number of the anti-rotation holes 501 is not limited to two, and only one anti-rotation hole 501 may be provided or more than two anti-rotation holes 501 may be provided, and in addition, the anti-rotation holes 501 are not limited to arc-shaped holes, so that it is ensured that the anti-rotation holes 501 and the anti-rotation pins 600 can relatively move along the rotation circumferential direction when the anti-rotation part 500 rotates.

In the illustrated embodiment, the anti-rotation member 500 is provided with a connection hole 502, the valve rod 200 is provided with a matching section matching with the connection hole 502, the anti-rotation member 500 is sleeved on the periphery of the matching section of the valve rod 200 through the connection hole 502, the connection hole 502 is a non-circular hole (a square hole in the figure), and correspondingly, the radial cross section of the matching section of the valve rod 200 is a non-circular surface (a square surface in the figure). Set up like this, connecting hole 502 and the cooperation section cooperation back of valve rod 200 can realize valve rod 200 and prevent changeing 500 spacing each other in circumference for prevent changeing 500 and can rotate along with valve rod 200 is synchronous, moreover, prevent changeing 500 and can very conveniently dismantle from valve rod 200, in case prevent changeing 500 serious wearing and tearing, can change very conveniently and prevent changeing 500. Of course, in practical implementation, the connecting structure of the valve stem 200 and the anti-rotation member 500 is not limited to this, and for example, the valve stem 200 and the anti-rotation member 500 may be provided as an integral structure.

Further, as shown in fig. 4, the valve body 100 is provided with a valve seat mounting hole 104, the valve seat 800 has an annular portion 801, the annular portion 801 of the valve seat 800 is mounted in the valve seat mounting hole 104, two ends of the annular portion 801 of the valve seat 800 are provided with bending portions 802, and the bending portions 802 at the two ends are respectively clamped against two ends of the valve body 100. The outer peripheral surface of the annular portion 801 of the valve seat 800 is provided with a protrusion 801a, and the hole wall surface of the valve seat mounting hole 104 is provided with a groove 104a matched with the protrusion 801a, so that the valve seat 800 and the valve body 100 are in concave-convex fit, and the firmness of connection between the valve seat 800 and the valve body 100 can be improved. The positions of the projections and the grooves can be reversed. The projections and the grooves may be formed over the entire circumference of the annular portion 801 of the valve seat 800 or the hole wall surface of the valve seat mounting hole 104.

Further, as shown in fig. 5, the valve plate 900 is provided with a valve rod connection hole 901, the valve rod 200 is inserted into the valve rod connection hole 901, and the hole wall surface of the valve rod connection hole 901 and the outer peripheral surface of the valve rod 200 are tightly matched through a spline a, so that the fit clearance between the valve rod 200 and the valve plate 900 can be reduced, and the smaller the fit clearance between the valve rod 200 and the valve plate 900 is, the better the control accuracy of the valve plate 900 is improved.

Further, as shown in fig. 5 and 6, the valve plate 900 has two plate side surfaces 902, and each plate side surface 902 is an arc-shaped surface with a central area protruding in a direction away from the other plate side surface 902 relative to the edge area, so that the fluid is subjected to a small resistance when flowing through the flow passage hole of the butterfly valve, and an impact force on the valve plate 900 is small, which is more beneficial to stabilizing the valve plate 900 at a target position.

The foregoing has been a description of the principles and implementations of the present application using specific examples, which are provided solely to aid in understanding the methods and their core concepts of the present application. It should be noted that, for those skilled in the art, without departing from the principle of the present application, the present application can also make several improvements and modifications, and those improvements and modifications also fall into the protection scope of the claims of the present application.

Claims (10)

1. The butterfly valve comprises a valve body (100) and a valve rod (200), and is characterized by further comprising a first limiting part (300), a second limiting part (400), an anti-rotating part (500) and an anti-rotating pin (600), wherein the first limiting part (300) is fixed on the valve body (100), the second limiting part (400) is fixed on the valve rod (200), and the first limiting part (300), the anti-rotating part (500), the second limiting part (400) and the valve body (100) are sequentially abutted from top to bottom along the axial direction of the valve rod (200) so as to limit the axial movement of the valve rod (200); the anti-rotation piece (500) is in limit connection with the valve rod (200) along the rotation circumferential direction so as to rotate synchronously with the valve rod (200); prevent changeing (500) and be equipped with and prevent changeing hole (501), prevent that round pin (600) wears to locate prevent changeing hole (501) and being fixed in valve body (100), prevent changeing (500) and rotate the in-process, prevent changeing round pin (600) with prevent changeing hole (501) and rotating week upward relative motion, make prevent changeing (500) when rotating extreme position, prevent changeing round pin (600) with prevent the pore wall conflict of changeing hole (501), in order to restrict the rotation stroke of valve rod (200).

2. The butterfly valve according to claim 1, wherein the valve body (100) is provided with a first mounting groove (101), a mounting opening is formed at a top end of the first mounting groove (101) on a surface of the valve body (100), a clamping groove (101 a) is formed on a side wall of the first mounting groove (101), the first retaining member (300) is arranged in the first mounting groove (101) and clamped in the clamping groove (101 a), the anti-rotation member (500) is arranged in the first mounting groove (101), a bottom end of the anti-rotation member (500) is abutted against a bottom wall of the first mounting groove (101) and a top end of the second retaining member (400), and the first retaining member (300) is an elastic retaining member.

3. The butterfly valve according to claim 2, further comprising a spacer (700), wherein the spacer (700) is disposed between a bottom end of the rotation-preventing member (500) and a top end of the second retainer (400) such that the bottom end of the rotation-preventing member (500) indirectly abuts against the top end of the second retainer (400) through the spacer (700).

4. The butterfly valve according to claim 3, wherein the valve body (100) is provided with a second mounting groove (102) and a valve rod mounting hole (103), the top end of the second mounting groove (102) forms a mounting opening at the bottom wall of the first mounting groove (101), the bottom end of the second mounting groove (102) is communicated with the top end of the valve rod mounting hole (103), the gasket (700) and the second retaining member (400) are both arranged in the second mounting groove (102), and the bottom end of the second retaining member (400) is abutted against the bottom wall of the second mounting groove (102).

5. The butterfly valve according to claim 1, wherein the rotation-proof member (500) is provided with a connecting hole (502), the valve stem (200) has a fitting section fitted with the connecting hole (502), the rotation-proof member (500) is fitted around the fitting section of the valve stem (200) through the connecting hole (502), the connecting hole (502) is a non-circular hole, and the radial cross section of the fitting section is a non-circular surface.

6. The butterfly valve according to claim 1, wherein the second retaining member (400) comprises a plurality of half-pads, the second retaining member (400) is provided with an annular groove (201), and the half-pads are clamped at different circumferential positions of the annular groove (201) and mutually spliced to form the annular pad.

7. The butterfly valve according to any of claims 1 to 6, further comprising a valve seat (800), wherein the valve body (100) is provided with a seat mounting hole (104), the valve seat (800) is mounted to the seat mounting hole (104), an outer circumferential surface of the valve seat (800) and a hole wall surface of the seat mounting hole (104) are provided with a protrusion (801 a) and a groove (104 a) adapted to the protrusion (801 a), so that the valve seat (800) and the valve body (100) are engaged with each other.

8. The butterfly valve according to claim 7, further comprising a self-lubricating bearing (B) mounted between the valve stem (200) and the valve body (100).

9. The butterfly valve according to claim 7, further comprising a valve plate (900), wherein the valve plate (900) is provided with a stem attachment hole (901), and an outer circumferential surface of the stem (200) is tightly fitted to a hole wall surface of the stem attachment hole (901) by a spline (A).

10. The butterfly valve of claim 9, wherein the valve plate (900) has two plate sides (902), each of the plate sides (902) being an arcuate surface having a central region that is convex away from the other plate side (902) relative to an edge region.

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