CN207080618U - A kind of non-maintaining hermetically sealed cut-out butterfly valve - Google Patents

Abstract

The utility model discloses a kind of non-maintaining hermetically sealed cut-out butterfly valve, it is related to valve technology field.The cut-out butterfly valve, first sealing gland area is set by the region between the outer of the inwall of annular construction member and dish plate, region between the endoporus and valve rod at valve body both ends sets the second sealing gland area, and form hyperbar in the first sealing gland area and the second sealing gland area, the principle flowed using gas from higher-pressure region to low-pressure area, it can be flowed positioned at the high pressure gas in the first sealing gland area and the second sealing gland area to the low-pressure area (dish plate two side areas) of the sealing gland area both sides, leaked so as to avoid gas from flowing to opposite side from dish plate side, realize the sealing of valve, in addition, due to not contacted directly between dish plate and annular construction member inwall, the abrasion of the parts such as dish plate will not be caused, so, these parts need not be changed, so as to reach non-maintaining effect.

Description

A kind of non-maintaining hermetically sealed cut-out butterfly valve

Technical field

It the utility model is related to valve technology field, more particularly to a kind of non-maintaining hermetically sealed cut-out butterfly valve.

Background technology

With economic development, industrial automatic control level is constantly improving, thus to regulating valve in process control The requirement of reliability, economy is also constantly improving.This just it is also proposed higher requirement to valve body structure.

At present, the cut-out butterfly valve used includes the valve rod installed on valve body and valve body, is fixedly connected with valve rod and around valve rod The dish plate rotated in valve body valve pocket, for the area between the seal area between dish plate and valve body and valve rod and valve body inner bore Domain, broken through although also having in some structures, improve the sealing effectiveness in the region, such as following patent：Flange form is double eccentric soft Sealed butterfly valve (CN204114171U) proposes double eccentric structures and the sealing ring of oblique cone structure, using between butterfly plate and valve body Extruding realize sealing effectiveness, bias design alleviates the wear rate of sealing ring；A kind of three eccentricity hard seal butterfly valve (CN206309964U) the main design for solving three eccentricity structure breaks through, using hard seal form；Bidirectional high-performance soft seal Butterfly valve (CN202032102U), it is proposed that the Seal Design of medium two-way flow, realized and sealed using sealing ring.But close Envelope area employs soft seal or hard seal form, still, either using soft seal form, or hard seal form, deposits Contact between physical components, cause dish plate constantly to be contacted during rotation between seal so that its by Abrasion, service life decline, and disclosure risk improves.

Utility model content

The purpose of this utility model is to provide a kind of non-maintaining hermetically sealed cut-out butterfly valve, so as to solve to deposit in the prior art Foregoing problems.

To achieve these goals, the technical solution adopted in the utility model is as follows：

A kind of non-maintaining hermetically sealed cut-out butterfly valve, including valve body, valve rod, dish plate and annular construction member, the valve body is interior to be set There is the valve pocket of insertion valve body, the valve rod is arranged on the valve body, and described valve body one end is fixed in one end of the valve rod In endoporus, the other end of the valve rod connects through the endoporus of the valve body other end and the rotating shaft of drive device, the dish plate It is fixedly connected and can be rotated around the valve rod in the valve pocket with the valve rod；

The annular construction member is arranged on the inwall of the valve body, and the axle of the axis of the annular construction member and the valve body Line overlaps, and the annular construction member is the hollow-core construction surrounded by inwall, outer wall and two side walls, and the external world is offered on the outer wall Gas connection ports, multiple spileholes are provided with the inwall；

Region between the outer of the inwall of the annular construction member and the dish plate is arranged to the first sealing gland area, the valve body Region between the endoporus at both ends and the valve rod is arranged to the second sealing gland area.

Preferably, the spilehole diameter on the annular construction member is 4-6mm, and all spileholes are evenly arranged in institute State on the inwall of annular construction member, and the distance between two adjacent described spileholes are 35-40mm.

Preferably, the thickness in the first sealing gland area is less than 2mm.

Preferably, width × thickness of the annular construction member is：80×50mm.

Preferably, the width of the dish plate outer is identical with the width of the annular construction member.

The beneficial effects of the utility model are：A kind of non-maintaining hermetically sealed cut-out butterfly that the utility model embodiment provides Valve, the first sealing gland area, the valve body both ends are set by the region between the outer of the inwall of annular construction member and the dish plate Endoporus and the valve rod between region the second sealing gland area is set, and form high gas in the first sealing gland area and the second sealing gland area Pressure, the principle flowed using gas from higher-pressure region to low-pressure area can be to positioned at the high pressure gas in the first sealing gland area and the second sealing gland area Low-pressure area (the dish plate two side areas) flowing of the sealing gland area both sides, lets out so as to avoid gas from flowing to opposite side from dish plate side Leakage, realizes the sealing of valve, further, since not contacted directly between dish plate and annular construction member inwall, will not cause dish plate etc. The abrasion of part, so, these parts need not be changed, so as to reach non-maintaining effect.

Brief description of the drawings

Fig. 1 be it is provided by the utility model it is non-maintaining it is hermetically sealed cut-out butterfly valve in off position when sectional view；

Fig. 2 is the partial enlarged drawing at Fig. 1 location of C；

Fig. 3 is Fig. 1 A to sectional view；

Fig. 4 is the partial enlarged drawing of Fig. 3 D opening positions；

Fig. 5 is Fig. 3 B to sectional view；

Fig. 6 is sectional view of the non-maintaining hermetically sealed cut-out butterfly valve provided by the utility model in opening.

In figure, the implication of each symbol is as follows：

1 valve body, 2 valve rods, 3 dish plates, 4 valve pockets, 5 drive devices, 6 annular construction members, 7 ambient atmos connectors, 8 spileholes, 9 First sealing gland area, 10 second sealing gland areas.

Embodiment

In order that the purpose of this utility model, technical scheme and advantage are more clearly understood, below in conjunction with accompanying drawing, to this reality It is further elaborated with new.It should be appreciated that embodiment described herein is only explaining this practicality It is new, it is not used to limit the utility model.

As shown in figures 1 to 6, the utility model embodiment provides a kind of non-maintaining hermetically sealed cut-out butterfly valve, including valve, 1, Valve rod 2, dish plate 3 and annular construction member 6, the valve pocket 4 of insertion valve body is provided with valve body 1, valve rod 2 is arranged on valve body 1, valve rod 2 One end be fixed in the endoporus of the one end of valve body 1, the endoporus and drive device 5 of the other end of valve rod 2 through the other end of valve body 1 Rotating shaft connects, and dish plate 3 is fixedly connected with valve rod 2 and can rotated around valve rod 2 in valve pocket 4；

Annular construction member 6 is arranged on the inwall of valve body 1, and the axis of annular construction member 6 overlaps with the axis of valve body 1, annular Component 6 is the hollow-core construction surrounded by inwall, outer wall and two side walls, and ambient atmos connector 7, institute are offered on the outer wall State and multiple spileholes 8 are provided with inwall；

Region between the inwall of annular construction member 6 and the outer of dish plate 3 is arranged to the first sealing gland area 9, the both ends of valve body 1 it is interior Region between hole and valve rod 2 is arranged to the second sealing gland area 10.

The cut-out butterfly valve of said structure, its operation principle are：

Valve rod is rotated under the drive of drive device rotating shaft, and the rotation of valve rod drives dish plate to rotate, and dish plate is rotating During, realize and open and close, when dish plate is turned to valve body parallel position, butterfly valve is closed, when dish plate When turning to valve body upright position, butterfly valve is in opening.

When butterfly valve is closed, in order to ensure that interior leakage will not occur for the gas of dish plate both sides, it is necessary to be leaned on to dish plate The circumference line position of nearly valve body is sealed.

In the utility model embodiment, in order to realize the sealing in the first sealing gland area and the second sealing gland area, ensure that butterfly valve is in During closed mode, interior leakage does not occur for the gas of dish plate both sides, is connected at the ambient atmos connector of annular construction member outer wall extraneous Gas passage, ambient atmos are made to enter in annular construction member, the ambient atmos into annular construction member pass through on annular construction member inwall Spilehole enters the first sealing gland area and the second sealing gland area, and because the stomata on inwall is smaller, so, enter the from spilehole The gas pressure in one sealing gland area and the second sealing gland area is very high, high pressure gas is formed, such as the filled arrows in figure；

And the gas phase inside valve pocket is low pressure gas for the high pressure gas in the first sealing gland area, such as the hollow arrow in figure Head；

The principle flowed according to gas from higher-pressure region to low-pressure area, the high pressure gas positioned at the first sealing gland area and the second sealing gland area It can be flowed to the low-pressure area (dish plate two side areas) of the sealing gland area both sides, such as the flow direction of the filled arrows in figure；And it is located at The gas of first sealing gland area and the second sealing gland area both sides low-pressure area (dish plate two side areas) will not be to the first sealing gland area and the second gas The higher-pressure region flowing in area is sealed, so as to would not also cause low-pressure area gas to pass through the first sealing gland area and the second sealing gland area, Jin Ercong Dish plate side flows to opposite side, such as the flow direction of the hollow arrow in figure, gas leakage occurs, ensures that butterfly valve is in Being fully sealed during closed mode.

So the cut-out butterfly valve for the said structure that the utility model embodiment provides, due to the first sealing gland area and the second gas The pressure for sealing area is more than pressure in valve pocket, the principle spread according to gas from high pressure to low pressure, and the gas in high pressure gas area can be to Spread in valve pocket, and the absolutely not possible crossing high-pressure gas zone of low-pressure area gas, so that dish plate both sides gas obstructs completely, have Effect prevents gas that interior leakage occurs, and realizes the effect that cut-out butterfly valve is fully sealed.

Further, since not contacted directly between dish plate and annular construction member inwall, the abrasion of the parts such as dish plate will not be caused, So these parts need not be changed, so as to reach non-maintaining effect.

If the service life of cylinder is 3,000,000 times, act once (24 continuous throughout the twenty-four hour24) within every 2 minutes, every year by 7200 Hour calculates, and can be used more than 10 years.

In the present embodiment, 8 a diameter of 4-6mm of spilehole on annular construction member 6, all spileholes 8 are evenly arranged in ring On the inwall of shape component 6, and the distance between two adjacent spileholes 8 are 35-40mm.

In the present embodiment, the thickness in the first sealing gland area 9 is less than 2mm.

The thickness control in the first sealing gland area 9 can effectively reduce the area of passage in the first sealing gland area 9, protect within 2mm On the premise of card high pressure gas flows to low-pressure area all the time, the flow of high pressure gas is reduced.

In the utility model embodiment, width × thickness of annular construction member 6 is：80×50mm.

The effect of annular construction member 6 is by high pressure draught, is evenly supplied to all spileholes 8, and its area of section must be big In the summation of all areas of spilehole 8, it so just can guarantee that the pressure in the first sealing gland area 9 and the second sealing gland area 10 is consistently higher than The both sides of dish plate 3.

In the utility model embodiment, the width of the outer of dish plate 3 is identical with the width of annular construction member 6.

In the utility model, the outer of dish plate 3 must have certain width, and this directly determines the close of the first sealing gland area 9 Envelope ability, also just determine the sealing effectiveness of the both sides of dish plate 3.The width of the outer of dish plate 3 and annular construction member 6 in the utility model Width is identical, so that the region in the first sealing gland area 9 is maximum so that the sealability in the first sealing gland area 9 is most strong so that The sealing effectiveness of the both sides of dish plate 3 is optimal.

By using above-mentioned technical proposal disclosed in the utility model, following beneficial effect has been obtained：The utility model A kind of non-maintaining hermetically sealed cut-out butterfly valve that embodiment provides, by between the outer of the inwall of annular construction member and the dish plate Region the first sealing gland area is set, region between the endoporus and the valve rod at the valve body both ends sets the second sealing gland area, and Form hyperbar in the first sealing gland area and the second sealing gland area, the principle flowed using gas from higher-pressure region to low-pressure area, positioned at the The high pressure gas in one sealing gland area and the second sealing gland area can flow to the low-pressure area (dish plate two side areas) of the sealing gland area both sides, so as to keep away Exempt from gas and flow to opposite side from dish plate side to leak, the sealing of valve is realized, further, since dish plate and annular construction member inwall Between do not contact directly, the abrasion of the parts such as dish plate will not be caused, so, these parts need not be changed, and reach so as to change Non-maintaining effect.

Described above is only preferred embodiment of the present utility model, it is noted that for the common skill of the art For art personnel, on the premise of the utility model principle is not departed from, some improvements and modifications can also be made, these improve and Retouching should also regard the scope of protection of the utility model.

Claims (5)

1. a kind of non-maintaining hermetically sealed cut-out butterfly valve, it is characterised in that including valve body, valve rod, dish plate and annular construction member, the valve The valve pocket of insertion valve body is provided with vivo, and the valve rod is arranged on the valve body, and the valve is fixed in one end of the valve rod In the endoporus of body one end, the other end of the valve rod connects through the endoporus of the valve body other end and the rotating shaft of drive device, The dish plate is fixedly connected with the valve rod and can rotated around the valve rod in the valve pocket；

The annular construction member is arranged on the inwall of the valve body, and the axis weight of the axis of the annular construction member and the valve body Close, the annular construction member is the hollow-core construction surrounded by inwall, outer wall and two side walls, and ambient atmos are offered on the outer wall Connector, multiple spileholes are provided with the inwall；

Region between the outer of the inwall of the annular construction member and the dish plate is arranged to the first sealing gland area, the valve body both ends Endoporus and the valve rod between region be arranged to the second sealing gland area.

2. non-maintaining hermetically sealed cut-out butterfly valve according to claim 1, it is characterised in that stingy on the annular construction member Bore dia is 4-6mm, and all spileholes are evenly arranged on the inwall of the annular construction member, and two adjacent described The distance between spilehole is 35-40mm.

3. non-maintaining hermetically sealed cut-out butterfly valve according to claim 1, it is characterised in that the thickness in the first sealing gland area Less than 2mm.

4. non-maintaining hermetically sealed cut-out butterfly valve according to claim 1, it is characterised in that the width of the annular construction member × Thickness is：80×50mm.

5. non-maintaining hermetically sealed cut-out butterfly valve according to claim 1, it is characterised in that the width of the dish plate outer with The width of the annular construction member is identical.