CN207145740U - Booster type valve mechanism - Google Patents

Abstract

The application is related to a kind of booster type valve mechanism, including triple-valve body, wherein being capped bonnet at a go side mouth, place is equiped with the interior valve element for cavity by elastic cup on the inside of bonnet, and elastic cup, valve element and valve cover chamber enclose cavity and form pressure chamber；Other one in threeway leads to for intake antrum, and the valve body internal cavity in addition to intake antrum and pressure chamber is water chamber；Valve element upper port is semiclosed, the inlet opening to be turned on intake antrum is offered on valve element, to the osculum turned on water chamber, the valve of osculum can be blocked by being provided with osculum, the valve is lifted by the driving mechanisms control being connected to outside valve body, and valve can lift when lifting with movable valve plug.The method of the application valve element with inlet opening and osculum using buffer spring and valve control, makes the driving power of valve significantly decline, all advantages with motor-driven valve and magnetic valve.Make it have high applying value.

Description

Booster type valve mechanism

Technical field

The application is related to a kind of booster type valve mechanism used in a kind of electrically operated valve.

Background technology

Existing pipeline valve automation uses motor-driven valve and electromagnetic valve, because electrically operated valve uses actuator substantially Direct drive valve element carrys out the technology of control valve keying, the shortcomings that control moment is big, and YE power consumption is big be present.

And magnetic valve carrys out control valve keying due to simple by hydraulic drives valve element, therefore valve crushing is very big, and The problem of can not working under low hydraulic pressure, while also easily being blocked in the presence of control runner.

Because the serious utilization that have impact on pipeline valve automation of existing problem above is, it is necessary to design a kind of work(of invention Consume valve element control structure and mode low, that driving is reliable, adaptability is high.

Following two electrically operated valves in the prior art be present accordingly：

1st, the Chinese invention patent " booster type electric regulating valve " of Patent No. 200910113225.7 discloses following knot Structure, including valve body, valve seat, valve element and bonnet are provided with valve plug in the bottom of valve element, and top is provided with annular crimp shape rubber cup, valve The mozzle that seat side is provided with UNICOM's valve water inlet is communicated in the sealed chamber that bonnet, rubber cup and valve element are formed, and is gone out Water pipe is led to outside valve body by sealed chamber, while the switch provided with electronic or electromagnetism opening-closing device control water inlet pipe and outlet pipe, So as to the switch of control valve, solve the problems, such as that valve automatically controls unlatching and closure, realize micro- power consumption and automatically control, valve Door damages in the zero-power auto-lock function of any open degree, water when reducing excessively stream, solves valve and automatically controls unlatching and closure The problem of, and the size of flow can be controlled and prevent valve private opening, it is rational in infrastructure, design science, easy to use, no But water pipe can be used in, is readily applicable to other fluid liquids or gas.But its structure and control runner are complicated, and control Runner fault rate is high, easily blocks.And directly driven using screw rod, high, water pressure fluctuations and water hammer are required to screw strength Easily leading screw is caused to damage when impacting valve element.

2nd, the Chinese invention application " pressure balance type motor-driven valve " of Application No. 201410376143.2 is disclosed by valve Body, bonnet, drive mechanism, water seal, screw rod, valve element leather cup, valve element composition, valve body have fluid intake and fluid issuing, and valve element is set There is fluid passage.Valve element, valve element leather cup, water seal, screw rod and bonnet are collectively forming the counter balance pocket of a relative closure, and counter balance pocket is only Communicated by the runner of valve element with fluid intake.Screw rod is connected with drive mechanism, and drive mechanism can be done by screw rod with movable valve plug Linear motion.Valve element can be blocked in block fluid motion between fluid intake and fluid issuing by moving downward, and reach out The effect of closing valve.Due to the presence of counter balance pocket, pressure of the fluid to valve element is balanced so that the resistance of motion of valve element diminishes. So reduce the torque and energy consumption needed for controlled valve.Simple in construction, compact, small volume of the invention, transmission efficiency, control Accurately, reliability is extremely strong.But it equally exists high to screw strength requirement, easily make when water pressure fluctuations and impact of water hammer valve element The problem of being damaged into screw rod.

The content of the invention

The purpose of the application is to provide that a kind of valveless pressure loss, valve opening and closing are reliable, control is low in energy consumption, can flow A kind of booster type valve mechanism of regulation.

What the purpose of the application was realized in：A kind of booster type valve mechanism includes triple-valve body, wherein a go side mouth Place's capping bonnet, place is equiped with the interior valve element for cavity, elastic cup, valve element and valve cover chamber by elastic cup on the inside of bonnet Enclosed cavity forms pressure chamber；Other one in threeway leads to for intake antrum, and the valve body internal cavity in addition to intake antrum and pressure chamber is Water chamber；Valve element upper port is semiclosed, and the inlet opening to be turned on intake antrum is offered on valve element, to be led with water chamber Logical osculum, is provided with the valve that can block osculum at osculum, and the valve passes through the driving that is connected to outside valve body Mechanism controls lift, and valve can lift when lifting with movable valve plug.

Stroke gap is left between osculum and the valve element upper port, the valve is arranged in the trip gap.

The clutch end of drive mechanism is connected with stretching into the screw mandrel of pressure chamber, and being spun on screw mandrel is fixed with pressing plate, pressure Plate lower end is equiped with buffer spring, and buffer spring lower end is connected with valve.

The clutch end of drive mechanism is connected with stretching into pressure chamber C screw mandrel, and screw mandrel is through valve and is arranged on valve The pressing plate of lower section is spun fixation, and buffer spring is provided with the screw mandrel between pressing plate and valve.

The valve has the valve body of closure osculum, and the valve body is flat thin plate.

Filter screen is provided with the inlet opening and osculum.

Due to carrying out above-mentioned technical proposal, the application is using buffer spring and valve control with inlet opening and osculum The special construction of valve element, the driving power of valve is set significantly to decline, in all advantages with motor-driven valve and magnetic valve Meanwhile the function of valve opening regulation is also achieved, make it have high applying value.

Brief description of the drawings：The technical scheme of the application is provided by following drawings and examples：

Fig. 1 is the structural representation of the application；

Fig. 2 is the structural representation that pressing plate is placed in the application when below valve.

Legend：A, water chamber, B, intake antrum, C, pressure chamber, 1, valve body, 2, bonnet, 3, valve element, 4, valve, 5, screw mandrel, 6, Pressing plate, 7, buffer spring, 8, elastic cup, 9, drive mechanism, 10, inlet opening, 11, osculum, 12, sealing ring, 13, sealing dress Put, 14, filter screen.

Embodiment：

The application is not limited by following embodiments, can be determined specifically with actual conditions according to the technical scheme of the application Embodiment.

Embodiment：As shown in figure 1, a kind of booster type valve mechanism includes triple-valve body 1, wherein being capped valve at a go side mouth Lid 2, the interior valve element 3 for cavity is equiped with by elastic cup 8 at the inner side of bonnet 2, between elastic cup 8, valve element 3 and bonnet 2 Enclosed cavity forms pressure chamber C；Other one in threeway leads to for intake antrum B, empty in the valve body 1 in addition to intake antrum B and pressure chamber C Chamber is water chamber A；The upper port of valve element 3 is semiclosed, the inlet opening 10 for offering to turn on intake antrum B on valve element 3, to The osculum 11 turned on water chamber A, is provided with the valve 4 that can block osculum 11 at osculum 11, and the valve 4 passes through The control lifting of drive mechanism 9 being connected to outside valve body 1, valve 4 can lift when lifting with movable valve plug 3.

Stroke gap is left between osculum 11 and valve element 3 upper port, the valve 4 is arranged in the trip gap.

Valve 4 can be with the osculum 11 on clogging valve element 3, when 4 clogging valve of valve when being located at the lower end in stroke gap During osculum 11 on core 3, water chamber A is blocked with connecting for pressure chamber C；Valve 4 can be pressed when continuing downward valve element 3 to Lower motion, until valve element 3 blocks intake antrum B and water chamber A connection, valve is closed.

When valve 4 is located at the upper end in stroke gap, the osculum 11 on valve element 3 is opened, and water chamber A and pressure chamber C connect It is logical；Valve 4 can pull valve element to move upwards when continuing up, and intake antrum B connects with water chamber A, valve opening.

As shown in figure 1, the drive mechanism 9 is prior art, it can be motor, the power output of drive mechanism 9 Hold and be connected with stretching into pressure chamber C screw mandrel 5, rotation set has pressing plate 6 on screw mandrel 5, and the lower end of pressing plate 6 is equiped with buffer spring 7, buffering The lower end of spring 7 is connected with valve 4.

As shown in Fig. 2 the clutch end of drive mechanism 9 is connected with stretching into pressure chamber C screw mandrel 5, screw mandrel 5 passes through valve 4 are spun with being arranged on the pressing plate 6 of the lower section of valve 4, and buffer spring 7 is provided with the screw mandrel 5 between pressing plate 6 and valve 4.

By way of above two screw mandrel 5 drives valve, it can effectively be reduced and be acted on valve 4 by buffer spring 7 Power, screw mandrel 5 is played a very good protection.

The valve 4 has the valve body of closure osculum 11, and the valve body is flat thin plate.

Filter screen 14 is provided with the inlet opening 10 and osculum 11.

Sealing ring 12 is provided with the inner port of osculum 11, sealing ring 12 can be with the fitted seal of valve 4.

Screw mandrel 5 and the junction of valve body 1 are provided with sealing device 13, the sealing device 13 can be sealing ring.

The course of work and principle of the application is as follows：During valve-closed state, row that valve 4 blocks on core assembly 3 Water hole 11, it is downward pressure that pressure chamber C and intake antrum B, which puts on the pressure differential of core assembly 3,；Between intake antrum B and water chamber A Blocked by core assembly 3, valve is closed.

Valve enters opening process from closing：First, the drive screw 5 of drive mechanism 9 is rotated, and pressing plate 6 is done directly upwards therewith Line moves；Pressing plate 6 stretches buffer spring 7, the lower end of buffer spring 7 pulls valve 4 to move upwardly together；Due to valve 4 and valve element The presence in the stroke gap of component 3, valve 4 open the osculum 11 on core assembly 3 in advance, and pressure chamber C liquid passes through row Water hole 11 is released to water chamber A；Pressure chamber C pressure declines, pressure chamber C and intake antrum B put on the pressure differential of core assembly 3 to Under pressure start to be converted to and upward pressure；Valve 4 continues up pulling core assembly 3 and moved upwards, and valve is opened.

Valve is from turning on into closing process：First, the drive screw 5 of drive mechanism 9 is rotated, and pressing plate 6 is done downwards directly therewith Line moves；Pressing plate 6 extrudes buffer spring 7, buffer spring 7 promotes valve 4 to move downwardly together；Due to valve 4 and core assembly 3 Stroke gap presence, the lower end of buffer spring 7 promotes valve 4 to block osculum 11 on core assembly 3, pressure chamber in advance C pressure raises；Pressure chamber C and intake antrum B puts on the pressure differential of core assembly 3 by being converted to downward pressure upwarding pressure Power；Valve 4, which continues traveling downwardly, promotes core assembly 3 to move downward, and valve is closed.

During valve opening or closing, first pass through drive mechanism 9 and drive valve 4 to rise or fall to osculum 11 Open or obstruction, the pressure in pressure chamber C first adjusted by the connection with water chamber A or obstruction, after driven by drive mechanism 9 Valve 4, and risen or fallen with movable valve plug 3, while pass through the pressure differential auxiliary adjustment valve element 3 between intake antrum B and pressure chamber C The present position in valve body 1, is finally completed and is turned on and off valve.

In valve opening or closing process, by drive mechanism 9 control the swing of screw mandrel 5, the rising of governor valve 4 or Dropping distance, and then the distance that core assembly 3 rises or falls is limited by valve 4, so as to complete the overall aperture of valve Control.When valve 4 is spacing to core assembly 3, core assembly 3 is acted on by the pressure of water in valve body 1, is reached in valve body 1 certainly Balance.Regulation to valve opening, it is the critical function that the application is different from prior art, it realizes low power consumption flow rate The purpose of regulation.

Above technical characteristic constitutes the most preferred embodiment of the application, and there is stronger adaptability and optimal implementation to imitate for it Fruit, can be according to the inessential technical characteristic of increase and decrease be actually needed, to meet the needs of different situations.

Claims (10)

1. a kind of booster type valve mechanism, including triple-valve body, wherein being capped bonnet at a go side mouth, place passes through on the inside of bonnet Elastic cup is equiped with the interior valve element for cavity, and elastic cup, valve element and valve cover chamber enclose cavity and form pressure chamber；In threeway Other one leads to for intake antrum, and the valve body internal cavity in addition to intake antrum and pressure chamber is water chamber, it is characterised in that：Valve element upper port It is semiclosed, the inlet opening to be turned on intake antrum is offered on valve element, to the osculum turned on water chamber, in draining The valve of osculum can be blocked by being provided with hole, and the valve is lifted by the driving mechanisms control being connected to outside valve body, valve It can be lifted during lifting with movable valve plug.

2. booster type valve mechanism as claimed in claim 1, it is characterised in that：Left between osculum and the valve element upper port Stroke gap, the valve are arranged in the trip gap.

3. booster type valve mechanism as claimed in claim 1 or 2, it is characterised in that：The valve has closure osculum Valve body, the valve body are flat thin plate.

4. booster type valve mechanism as claimed in claim 1 or 2, it is characterised in that：The clutch end of drive mechanism is with stretching The screw mandrel for entering pressure chamber is connected, and rotation set has pressing plate on screw mandrel, and pressing plate lower end is equiped with buffer spring, buffer spring lower end and work Door is connected.

5. booster type valve mechanism as claimed in claim 3, it is characterised in that：The clutch end of drive mechanism is with stretching into pressure The screw mandrel of power chamber is connected, and is spun on screw mandrel and is fixed with pressing plate, and pressing plate lower end is equiped with buffer spring, buffer spring lower end and work Door is connected.

6. booster type valve mechanism as claimed in claim 1 or 2, it is characterised in that：The clutch end of drive mechanism is with stretching The screw mandrel for entering pressure chamber C is connected, and screw mandrel is through valve and is arranged on below valve, and the pressing plate in valve element spins, in pressing plate Buffer spring is provided with screw mandrel between valve.

7. booster type valve mechanism as claimed in claim 3, it is characterised in that：The clutch end of drive mechanism is with stretching into pressure Power chamber C screw mandrel is connected, and screw mandrel is through valve and is arranged on below valve, and the pressing plate in valve element spins, in pressing plate and work Buffer spring is provided with screw mandrel between door.

8. the booster type valve mechanism as described in claim 1 or 2 or 5 or 7, it is characterised in that：The inlet opening and osculum Inside it is provided with filter screen.

9. the booster type valve mechanism as described in claim 1 or 2 or 5 or 7, it is characterised in that：Set at osculum inner port Sealing ring is equipped with, sealing ring can be with valve fitted seal.

10. the booster type valve mechanism as described in claim 1 or 2 or 5 or 7, it is characterised in that：In screw mandrel and valve body junction It is provided with sealing device.