CN104455489A - Disc valve linkage structure - Google Patents

Abstract

The invention discloses a disc valve linkage structure which comprises a valve cavity, a valve shaft arranged in a valve cavity body and a valve plate arranged on the valve shaft in a sleeving mode. The two ends of the valve shaft stretch out of the valve cavity body. One end of the valve cavity body is connected with a valve body, and the other end of the valve cavity body is connected with a valve base. The valve shaft and the valve plate are connected through an expansion device in a keyless mode. The valve base is a detachable valve base. For the problems that pin falling occurs easily in existing pin linkage, or leakage occurs due to poor linkage, or even shaft corrosion occurs, the expansion device is adopted to replace pin linkage, a disc plate and a shaft are fixed through a bidirectional expansion sleeve inside the disc plate, and thus the effect of synchronous rotating of the shaft and the disc plate is achieved. The disc valve linkage structure has the advantages of being low in machining and installation requirement, reliable in linkage, free of leakage, capable of conducting overload protection and the like, and the reliability and durability of the disc valve work can be effectively improved.

Description

A kind of dish valve connecting structure

Technical field

The present invention relates in fluid engineering, about the connection of valve, particularly relate to a kind of dish valve connecting structure.

Background technique

Butterfly valve is widely used in the transporting system of various flowing medium, because it is more accurate to the control of flow, smelt at coal gas, rock gas, liquefied petroleum gas (LPG), town gas, air, chemical industry and carry on the pipeline of various corrosivity, non-corrosive fluids medium, for regulating and block the flowing of medium in the engineering system such as generation environment-friendly, building water supply and drainage.

By a discoid valve plate during butterfly valve work, rotate around valve shaft in valve body, thus reach the object opening and closing or regulate.The rotation of valve plate and valve shaft is synchronous, and connection is therebetween generally holes drilled through on two parts, is connected by the pin of a tapering, and pin coats marine glue with the gap of orifice plate, and its structural type as shown in Figure 5,6.

Obviously, there is certain disadvantage in above-mentioned butterfly valve structure, first add man-hour pin and the cooperation in hole there are certain requirements, if a square section not rounding, will matching gap be caused, usually at gap location painting water-proof adhesive, but shaft end seal will be caused not tight.Secondly, in the process used, especially under large discharge application, along with violent water hammer around butterfly valve, corrosive action, even has the generation of cavitation erosion, to the impact of butterfly plate and corrosion function also obvious, above linkage structure is easy to marine glue is come off or dissolves, and aggravates corrosion and the cavitation effect of orifice plate thereupon, directly has influence on the working life of butterfly valve.

If fluid contact is to valve shaft, all adverse influence can be produced to valve shaft and bearing.Along with the progress of technology, also progressively producing without pin structure, carrying out transmitting torque by the fitting surface of valve shaft and valve plate being processed into square or Hexagon, this valve require in higher application significant.But also there is certain shortcoming in this connection without pin, most importantly processing request is high, because the fitting surface carrying of valve shaft and valve plate is the change moment of torsion that lasting waterpower dynamic load produces, require that this Spielpassung gap is minimum, this structure axially locating is often difficult to good enforcement simultaneously, and domestic a lot of small-sized butterfly valve manufacturing enterprise often occurs the two problem such as matching loose, axle wearing and tearing without after pin connection product work a period of time.Therefore, the two traditional linkage structure is unfavorable for sealing and operational safety.

In recent years, fluid machinery and pipeline control technique continuous advancement, also improve day by day to the high efficient and reliable characteristic requirements of valve, and traditional butterfly valve product quality also needs lifting badly.

Summary of the invention

The object of the invention is to the shortcoming and defect overcoming above-mentioned prior art, a kind of close structure, resistance to loosening, anti abrasive dish valve connecting structure are provided.Efficiently solve valve shaft in prior art to be connected the valve plate that exists and valve shaft with valve plate and to connect unreliable, the poorly sealed problem such as close, well evade the risk that medium is revealed.

The present invention is achieved through the following technical solutions:

A kind of dish valve connecting structure, comprises valve pocket body 11, the valve shaft 8 be placed in valve pocket body 11, the valve plate 2 be sleeved on valve shaft 8, and it is outside that valve pocket body 11 is stretched out in two ends of valve shaft 8; One end of valve pocket body 11 connects valve body 1, at the bottom of the other end connection valve 5;

Described valve shaft 8 realizes being connected without key by swelling device with between valve plate 2; At the bottom of described valve, 5 is at the bottom of disassembly-type valve.

Described swelling device comprises overcoat 3-1 and puts inner sleeve 3-2 in the inner, and the inwall of overcoat 3-1 coordinates with the outer wall wedge-shaped structure of inner sleeve 3-2, is connected between overcoat 3-1 and inner sleeve 3-2 by bolt 3-3;

As tightening bolt 3-3, axis relative movement between overcoat 3-1 and inner sleeve 3-2, the internal diameter of inner sleeve 3-2 diminishes gradually.Described sealing seat 9 corresponds to the bolt 3-3 axial location of swelling device, offers the pilot hole for tearing/filling bolt 3-3 open.

Described swelling device arranges and closes on the valve shaft 8 of 5 these ends at the bottom of valve.

Also swelling device is provided with at the middle part of described valve shaft 8 and/or the end of closing on valve body 1.

The two ends of described valve pocket body 11 are provided with sealing seat 9.

Seal ring 4 is provided with between 5 and sealing seat 9 at the bottom of described valve; Seal ring 4 is arranged in the annular groove of sealing seat 9.

At the bottom of the end axle of described valve shaft 8 and valve between 5, and between valve shaft 8 and valve body 1, be provided with guide bearing 6,7,10.

The present invention, relative to prior art, has following advantage and effect:

This dish valve connecting structure, cooperatively interacted by the wedge-shaped structure of the jacket and inner sleeve of swelling device, adopt swelling principle, make between valve shaft and valve plate without Relative sliding, ensure that axle surface can not be damaged, overcome in prior art, be fixedly connected with existing shortcoming and defect with perforate on valve plate by pin at valve shaft.

Connect valve plate and valve shaft by swelling device, adjusting bolt can realize said two devices and hold tightly, and the size of expansion sleeve (inner sleeve, overcoat) needs to carry out reasonable selection according to the adjust flux of valve and pressure, considers installation dimension simultaneously.

This dish valve connecting structure removes and installs conveniently, as needs maintenance and repair are carried out to dish valve time, only need oppositely, unload at the bottom of valve, back out the outer bolt put with screw-driver and can unload swelling device.

This dish valve connecting structure technological means is simple and easy to do, not only well solve valve plate and the valve shaft connectivity problem of butterfly valve in prior art, evade medium disclosure risk, and be easy to care and maintenance, simultaneously lower to the machining requirements on axle surface, effectively promote reliability and the serviceability of butterfly valve work.

In sum, this dish valve connecting structure precision is high, installation, adjustment, convenient disassembly; Intensity is high, and connective stability is reliable; Can not be damaged by proterctive equipment when overloading, being particularly useful for transmitting heavy loads.

This dish valve connecting structure not only can be used for fluid machinery and pump valve regulates.And the fields such as heavy machinery, wind-power electricity generation, package packing machine, printing machinery, numerical control machine tool, automation equipment can be widely used in.

Accompanying drawing explanation

Fig. 1 is dish valve connecting structure structural representation of the present invention.

Fig. 2 is position, the connection diagram of valve shaft, swelling device and valve plate in Fig. 1.

Fig. 3 is Fig. 1 swelling device structural representation.

Fig. 4 is that swelling device is arranged on valve shaft medium position schematic diagram.

Fig. 5 is prior art Facad structure schematic diagram.

Fig. 6 is Fig. 5 cross-sectional view.

Embodiment

Below in conjunction with specific embodiment, the present invention is more specifically described in detail.

Embodiment

As shown in Figures 1 to 4.A kind of dish valve of the present invention connecting structure, comprises valve pocket body 11, the valve shaft 8 be placed in valve pocket body 11, the valve plate 2 be sleeved on valve shaft 8, and it is outside that valve pocket body 11 is stretched out in two ends of valve shaft 8; One end of valve pocket body 11 connects valve body 1, at the bottom of the other end connection valve 5;

Described valve shaft 8 realizes being connected without key by swelling device with between valve plate 2; At the bottom of described valve, 5 is at the bottom of disassembly-type valve.

Described swelling device comprises overcoat 3-1 and puts inner sleeve 3-2 in the inner, and the inwall of overcoat 3-1 coordinates with the outer wall wedge-shaped structure of inner sleeve 3-2, is connected between overcoat 3-1 and inner sleeve 3-2 by bolt 3-3;

As tightening bolt 3-3, axis relative movement between overcoat 3-1 and inner sleeve 3-2, the internal diameter of inner sleeve 3-2 diminishes gradually.Described sealing seat 9 corresponds to the bolt 3-3 axial location of swelling device, offers the pilot hole for tearing/filling bolt 3-3 open.The effect of pilot hole is, because needing the bolt 3-3 on fastening swelling device during assembling, so need to open two pilot holes on sealing seat 9, facilitates the enforcement of fastening work, connects closely and heats sealing disassembly pilot hole, then install at the bottom of valve until bolt.

Described swelling device arranges and closes on the valve shaft 8 of 5 these ends at the bottom of valve.

Also swelling device is provided with at the middle part of described valve shaft 8 and/or the end of closing on valve body 1.

The two ends of described valve pocket body 11 are provided with sealing seat 9.

Seal ring 4 is provided with between 5 and sealing seat 9 at the bottom of described valve; Seal ring 4 is arranged in the annular groove of sealing seat 9.

At the bottom of the end axle of described valve shaft 8 and valve between 5, and be provided with guide bearing between valve shaft 8 and valve body 1 and hold 6,7,10.

As shown in Figure 1 and Figure 4, swelling device can be selected in neutral position and close valve bottom.Concrete mounting point is determined according to the size of valve in practical application.Visible, swelling device can be fixing in the middle of valve plate, also can fix by 5 ends at the bottom of valve.Actual in requiring higher product, swelling device also can select multiple pattern or the series connection of multiple swelling device to use, and realizes stable connection and overload protection.

Connect valve plate and valve shaft by swelling device, adjusting bolt can realize said two devices and hold tightly, and the size of expansion sleeve (inner sleeve, overcoat) needs to carry out reasonable selection according to the adjust flux of valve and pressure, considers installation dimension simultaneously.For the valve that throttle-flow is comparatively large or pressure-bearing is larger, can select at the expansion sleeve of valve plate neutral position installation shaft to longer dimension, otherwise settle the expansion sleeve of stock size near the position at the bottom of valve.

Consider after installing swelling device additional, the wall thickness of original valve plate 2 cylindrical central sleeve is less, for ensureing intensity and the reliability requirement of part, slightly increases the thickness of cylindrical central sleeve at the beginning of design.

This dish valve connecting structure, swelling device is adopted to achieve being connected without key of valve shaft 8 and valve plate 2, between inner sleeve 3-2 and valve shaft 8, between the outer wall of inner sleeve 3-2 and the inwall of overcoat 3-1, produce huge enclasping force, to realize being connected without key of valve shaft 8 and valve plate 2, its structural type as shown in Figure 3.When bearing load, by swelling device and valve shaft 8, valve plate 2 in conjunction with pressure and the frictional force transmitting torque, axial force or the combined load of the two that produce together.

This dish valve connecting structure precision is high, installation, adjustment, convenient disassembly; Intensity is high, and connective stability is reliable; Can not be damaged by proterctive equipment when overloading, being particularly useful for transmitting heavy loads.

This dish valve connecting structure not only can be used for fluid machinery and pump valve regulates.And the fields such as heavy machinery, wind-power electricity generation, package packing machine, printing machinery, numerical control machine tool, automation equipment can be widely used in.

This dish valve connecting structure installation step: first swelling device is put into valve plate 2 cylindrical central sleeve position to be installed, the valve shaft 85 top tappings at the bottom of valve being connected with bearing are stretched simultaneously, valve shaft 8 is made to penetrate valve plate 2 cylindrical central sleeve, then at the bottom of valve, 5 end sealing seat 9 pilot holes carry out the fastening work of bolt, after fastening work completes, add gum cement heated sealant pilot hole, cover upper sealing ring 4, installation valve at the bottom of 5, at the bottom of valve, 5 are connected with valve 1 by bottom thread, and the fastening nut 12 on regulation valve body 1 top can at the bottom of modulating valve 5 and the connection tightness of valve body 1, guide bearing 10 and fastening nut 12 play axially locating simultaneously.

As mentioned above, just the present invention can be realized preferably.

Embodiments of the present invention are not restricted to the described embodiments; other are any do not deviate from Spirit Essence of the present invention and principle under do change, modification, substitute, combine, simplify; all should be the substitute mode of equivalence, be included within protection scope of the present invention.

Claims (8)

1. a dish valve connecting structure, comprise valve pocket body (11), the valve shaft (8) be placed in valve pocket body (11), the valve plate (2) be sleeved on valve shaft (8), it is outside that valve pocket body (11) is stretched out in two ends of valve shaft (8); It is characterized in that: one end of valve pocket body (11) connects valve body (1), (5) at the bottom of the other end connection valve;

Realize being connected without key by swelling device between described valve shaft (8) with valve plate (2); (5) at the bottom of described valve are disassembly-type valve seat.

2. dish valve connecting structure according to claim 1, it is characterized in that: described swelling device comprises overcoat (3-1) and puts inner sleeve (3-2) in the inner, the inwall of overcoat (3-1) coordinates with the outer wall wedge-shaped structure of inner sleeve (3-2), is connected between overcoat (3-1) and inner sleeve (3-2) by bolt (3-3);

As tightening bolt (3-3), axis relative movement between overcoat (3-1) and inner sleeve (3-2), the internal diameter of inner sleeve (3-2) diminishes gradually.

3. dish valve connecting structure according to claim 1, is characterized in that: described swelling device arranges and closes on the valve shaft (8) of (5) this end at the bottom of valve.

4. dish valve connecting structure according to claim 3, is characterized in that: be also provided with swelling device at the middle part of described valve shaft (8) and/or the end of closing on valve body (1).

5. dish valve connecting structure according to any one of claim 1 to 4, is characterized in that: the two ends of described valve pocket body (11) are provided with sealing seat (9).

6. dish valve connecting structure according to claim 5, is characterized in that: (5) at the bottom of described valve and be provided with seal ring (4) between sealing seat (9); Seal ring (4) is arranged in the annular groove of sealing seat (9).

7. dish valve connecting structure according to claim 2, is characterized in that: described sealing seat (9), corresponding to bolt (3-3) axial location of swelling device, offers the pilot hole for tearing/filling bolt (3-3) open.

8. dish valve connecting structure according to claim 5, it is characterized in that: at the bottom of the end axle of described valve shaft (8) and valve between (5), and between valve shaft (8) and valve body (1), be provided with guide bearing (6,7,10).