CN201909078U - Multifunctional dynamic flow rate balance valve - Google Patents

Abstract

The utility model discloses a multifunctional dynamic flow rate balance valve, which is characterized in that a valve body is provided a water inlet cavity, a water outlet cavity and a middle cavity, wherein a separation wall is arranged between the water inlet cavity and the water outlet cavity, a valve seat is arranged in the middle of the separation wall, a cylinder tube is arranged in the middle cavity, a valve core shaft matched with the cylinder tube is arranged in an inner hole of the cylinder tube, a spring is arranged on the valve core shaft, a sleeve tube is arranged above the cylinder tube, the cylinder tube is connected with the sleeve tube through screw threads, a hand wheel is arranged outside the sleeve tube, the hand wheel is fixedly connected with the sleeve tube through a first key, a valve cover is connected outside the cylinder tube, the cylinder tube is glidingly matched with the valve cover, a pair of guide grooves are arranged in the diameter direction of the lower end of the inner hole of the valve cover, and a second key matched with the guide grooves is arranged on the cylinder tube. The multifunctional dynamic flow rate balance valve has the advantages that the flow rate can be set in a wider range, the applicable pressure difference range is wide, and the multifunctional dynamic flow rate balance valve has a stop function.

Description

Multi-functional dynamic flow balance valve

Technical field

The utility model relates to a kind of valve, relates in particular to a kind of multi-functional dynamic flow balance valve.

Background technique

In order to guarantee the stable of water output, eliminate the flowed fluctuation that causes owing to water consumption phase mutual interference between inlet and outlet pressure fluctuation or user, generally on intake pipe that enters the user or return pipe, dynamic flow balance valve is installed.The limitation of the dynamic flow balance valve that uses is at present: range of flow and pressure differential range that a kind of valve of specification is suitable for are very limited.

Summary of the invention

The utility model mainly is to solve the existing in prior technology deficiency, thereby develops a kind of multi-functional dynamic flow balance valve that can set flow in a big way.

Above-mentioned technical problem of the present utility model is mainly solved by following technical proposals: a kind of multi-functional dynamic flow balance valve, has valve body, it is characterized in that: described valve body has into water oral cavity, water outlet oral cavity and intermediate cavity, described water inlet oral cavity is connected with intermediate cavity, and the pressure of medium equals the into pressure P 1 of water oral cavity medium in the intermediate cavity; The center line in described water inlet oral cavity and water outlet oral cavity is provided with the next door between two chambeies point-blank, and the centre in next door is provided with valve seat, and the center line of valve seat is vertical with water-in and water-out oral cavity center line, with intermediate cavity be same center line; Respective aperture on valve seat and the next door is a drive fit, and its material is a teflon, is provided with ring-type sword limit around the top, and the bus of its center contracted flow mouth opening portion is a curve by Flow characteristics requirement design; Be provided with cylinder barrel in the described intermediate cavity, the cylindrical of cylinder barrel and the cooperation place of valve body are provided with O-ring seals, in case medium leaks.Be provided with the poppet shaft that is mated in the endoporus of cylinder barrel, the valve rod cunning in poppet shaft stage casing fits in the hole of guide sleeve, and under free state, poppet shaft 7 can move along the center line easy on and off of cylinder barrel 5, and described poppet shaft is provided with spring; The cylinder barrel top is provided with sleeve, and described cylinder barrel is connected with bush whorl, and there is handwheel the sleeve outside, and handwheel is fixed together with key one and sleeve; The outside of described cylinder barrel is connected with valve gap, and cylinder barrel and valve gap are for being slidingly matched, and the diametric(al) in valve gap endoporus lower end has a pair of guiding groove, and cylinder barrel is provided with the key two that cooperates with guiding groove.Because the effect of two feather keys can only move up and down cylinder barrel along the center line of intermediate cavity, thereby change the size of the throttling annular aperture between spool and the valve seat contracted flow mouth, reach the effect of setting flow, the flow size can be read from flow indicator 1.

The technical solution of the utility model can also be further perfect:

As preferably, described poppet shaft is by piston, is connected the valve rod below the piston, and the spool that links to each other with the valve rod lower end fuses, and described piston matches with internal diameter of cylinder, and described spool matches with valve seat; Described cylinder barrel lower end is provided with guide sleeve, and the valve rod of described poppet shaft passes guide sleeve.

As preferably, center, described piston upper end is drilled with aperture one, is drilled with the some apertures two that are communicated with aperture one on the valve rod of piston lower end, with the epicoele and the cavity of resorption of connection piston.

As preferably, described spring comprises spring one and spring two; Spring is held in the groove that is located in the piston below one by one, and the other end is located on the guide sleeve, and its rigidity is less, and certain pre compressed magnitude is arranged after the assembling, so it has the thrust that spool is lifted off a seat all the time; Spring two is enclosed within the endoporus of cylinder barrel, and its lower end is located on the guide sleeve, and there is certain distance the lower end surface that piston is left in the upper end, that is to say, only poppet shaft move a certain distance be in contact with it after, it just plays a role, its ratio of rigidity spring one is much bigger.

As preferably, above sleeve, be provided with the flow indicator that links to each other with cylinder barrel; Be installed with locking nut on the sleeve outside thread on handwheel.

As preferably, center, piston upper end is drilled with aperture one, and be drilled with four apertures two on the valve rod of piston lower end and be communicated with hole one,

As preferably, described next door is a S shape, and there is valve seat orifice the centre, and described valve seat is installed in the valve seat orifice.

As preferably, link to each other by nut between described valve gap and the valve body.

As preferably, described valve body lower end is installed with bottom, between described bottom and the valve body seal washer is arranged.

The utility model compared with prior art has following characteristics:

1. can in a big way, set flow, when the user changes to some extent to flow requirements, only need reset flow and get final product, need not change Flow valve.

2. it is wide to adapt to pressure differential deltap P scope, when the change of valve two end pressure reduction is big, can adapt to automatically, and the control water output need not changed Flow valve in setting value.

3. open and close flowing of medium, have the stop valve function.

Description of drawings

Accompanying drawing 1 is a kind of structural representation of the present utility model.

Description of reference numerals: flow indicator 1, locking nut 2, key 1, sleeve 4, cylinder barrel 5, handwheel 6, poppet shaft 7, valve gap 8, key 29, nut 10, pressure spring 1, pressure spring 2 12, O-ring seals 13, guide sleeve 14, retaining Figure 15, spool 16, valve seat 17, valve body 18, seal washer 19, bottom 20, aperture one a, aperture two b, water intake hydraulic pressure P1, water outlet hydraulic pressure P2.

Embodiment

Below by embodiment also in conjunction with the accompanying drawings, the technical solution of the utility model is further described in detail.

Embodiment:

Multi-functional dynamic flow balance valve as shown in Figure 1, the water inlet oral cavity center line of valve body 18 and water outlet oral cavity center line are point-blank, there is a next door centre in water inlet oral cavity and water outlet oral cavity, next door central authorities are provided with valve seat 17, respective aperture on valve seat 17 and the next door is a drive fit, its material is a teflon, is provided with ring-type sword limit around the top, and the bus of its center contracted flow mouth opening portion is a curve by Flow characteristics requirement design; The superjacent air space of valve seat 17 is intermediate cavity, and intermediate cavity communicates with the water inlet oral cavity, and the pressure of medium equals the into pressure P 1 of water oral cavity medium in the intermediate cavity.The center line of intermediate cavity is consistent with the center line of valve seat 17 contracted flow mouths, and is vertical with the center line in water inlet oral cavity and water outlet oral cavity.Cylinder barrel 5 is installed in the intermediate cavity, and its center line is consistent with the intermediate cavity center line.Be provided with poppet shaft 7 in the endoporus of cylinder barrel 5, the upper end of poppet shaft 7 cooperates with the endoporus of cylinder barrel 5 just as a piston.The stage casing valve rod cunning of poppet shaft 7 fits in the hole of guide sleeve 14, and under free state, poppet shaft 7 can move along the center line easy on and off of cylinder barrel 5.Guide sleeve 14 usefulness back-up rings 15 location.The lower end snail of poppet shaft 7 is followed the spool 16 of circular cone shape, the contracted flow interruption-forming throttling annular aperture of spool 16 and valve seat 17, and with the size of control flow rate, the size of throttling annular aperture changes with the change of pressure reduction.Center, piston upper end in poppet shaft 7 is drilled with aperture one a, is drilled with four aperture two b on the valve rod of piston lower end and is communicated with hole one a, to be communicated with the epicoele and the cavity of resorption of piston.In cylinder barrel 5, between the piston below of poppet shaft 7 and the guide sleeve 14 two springs are installed, spring 1 is enclosed within on the valve rod of poppet shaft 7, one end is located in the groove of piston below, the other end is located on the guide sleeve 14, its rigidity is less, and certain pre compressed magnitude is arranged after the assembling, so it has one to make lift off a seat 17 thrust of spool 16 all the time.Spring 2 12 is enclosed within the endoporus of cylinder barrel 5, and its lower end is located on the guide sleeve 14, and there is certain distance the lower end surface that piston is left in the upper end, that is to say, only poppet shaft 7 move a certain distance be in contact with it after, it just plays a role, its ratio of rigidity spring 1 is much bigger.The superstructure of cylinder barrel 5 is a screw rod, spins together with the internal thread of sleeve 4, and handwheel 6 usefulness keys 1 are fixed together with sleeve 4.The outer slyness of cylinder barrel 5 fits in the endoporus of valve gap 8, and the diametric(al) in valve gap 8 endoporus lower ends has a pair of guiding groove, and cylinder barrel 5 is provided with the key 29 that cooperates with guiding groove.Rotation hand wheel 6 can drive sleeve 4 rotations, because the effect of two feather keys, cylinder barrel 5 can only be moved up and down along the center line of intermediate cavity, thereby change the size of the throttling annular aperture between spool 16 and the valve seat 17 contracted flow mouths, reach the effect of setting flow, the flow size can be read from flow indicator 1.

Working principle of the present utility model is:

One, flow set

Rotate handwheel 6, sleeve 4 drive cylinder barrels 5 move up and down along the center line of valve seat 17 contracted flow mouths, and poppet shaft 7 and spool 16 also move up and down thereupon, thereby change the gap between spool 16 and the valve seat 17 contracted flow mouths.Gap greatly then throttling ring-type hole area is just big, and it is just big to set flow value; Otherwise it is just little to set flow value.Because the regulation range in gap is bigger, therefore can in a big way, set flow.Shown position is the position of flow maximum.Above handwheel 6, be provided with flow indicator 1, regulate the numerical value of indicator, can set required flow.Lock with locking nut 2 behind the flow set.

Two, the transient equiliblium of flow

Under the state of not water flowing, spool 16 makes valve be in fully open position under the effect of spring 1; After the water flowing, when water intake hydraulic pressure P1 was lower than startup hydraulic pressure, medium flowed to water outlet through intermediate cavity and throttling annular aperture from water intake; When water intake hydraulic pressure P1 when starting hydraulic pressure, the most of medium in the intermediate cavity by throttling ring-type orifice flow to water outlet, therefore generation pressure differential deltap P between entery and delivery port.Sub-fraction medium in the intermediate cavity enters the piston cavity of resorption by the several pod apertures on the guide sleeve 14, enter piston upper chamber by four aperture two b and aperture one a then, because the stressed area difference in the upper and lower chamber of piston, pressure differential deltap P overcomes the resistance of spring 1 and back pressure, the spool 16 that promotes poppet shaft 7 belows moves to the contracted flow mouth direction of valve seat 17, when the pressure of suffered thrust of poppet shaft 7 inlet end and spring 1 and back pressure sum balance, poppet shaft 7 stop motions rest on the equilibrium position.Though this moment, the pressure differential deltap P increase at valve two ends can cause the increase of flow, thereupon because the reducing of throttling annular aperture, flow again moment reduce, therefore control water output in setting value.If import hydraulic pressure P1 raises suddenly in the water flowing process, or outlet hydraulic pressure P2 reduces suddenly, be that pressure differential deltap P raises, poppet shaft 7 is again with further pressure spring 1 so, and spool 16 is further moved to the contracted flow mouth direction of valve seat 17, rest on the new equilibrium position until poppet shaft 7, in like manner, can control water output in setting value; Otherwise, if import hydraulic pressure P1 reduces suddenly, or outlet hydraulic pressure P2 raises suddenly, and promptly pressure differential deltap P reduces, and poppet shaft 7 is under the promotion of spring 1 so, make lift off a seat 17 contracted flow mouth of spool 16, until resting on the new equilibrium position, though the reduction of valve two ends pressure reduction at this moment can cause the reduction of flow, thereupon because the increase of throttling annular aperture, flow is the moment increase again, therefore controls water output in setting value.

In the less occasion of pressure differential deltap P, poppet shaft 7 only is subjected to the effect of spring 1, makes spool 16 be toward or away from the contracted flow mouth of valve seat 17; In the bigger occasion of pressure differential deltap P, poppet shaft 7 is subjected to the acting in conjunction of spring 1 and spring 2 12.In the bigger occasion of pressure differential deltap P change, in the lower zone of Δ P, poppet shaft 7 only is subjected to the effect of spring 1, and in the higher zone of Δ P, poppet shaft 7 is subjected to the acting in conjunction of spring 1 and spring 2 12.

From above analysis as can be known, the present invention can carry out flow equilibrium in bigger pressure differential deltap P scope, no matter where poppet shaft 7 rests on, can both control water output in setting value.

Three, by function.Rotate handwheel 6 to closing direction, the lower end surface of cylinder barrel 5 is pressed on the annular sword limit of valve seat 17 upper ends, this moment, intermediate cavity and water outlet cut off, and medium stops to flow.Because the material of valve seat 17 is a teflon, hardness is lower, and is more yielding, so sealing is good.

Claims (8)

1. multi-functional dynamic flow balance valve, it is characterized in that: have valve body (18), described valve body (18) has into water oral cavity, water outlet oral cavity and intermediate cavity, and described water inlet oral cavity is connected with intermediate cavity; The center line in described water inlet oral cavity and water outlet oral cavity is provided with the next door between two chambeies point-blank, and the centre in next door is provided with valve seat (17), and the center line of valve seat is vertical with water-in and water-out oral cavity center line, with intermediate cavity be same center line; Be provided with cylinder barrel (5) in the described intermediate cavity, be provided with the poppet shaft (7) that is mated in the endoporus of cylinder barrel, described poppet shaft is provided with spring; The cylinder barrel top is provided with sleeve (4), and described cylinder barrel is connected with bush whorl, and there is handwheel (6) sleeve (4) outside, and handwheel is fixed together with key one (3) and sleeve (4); The outside of described cylinder barrel (5) is connected with valve gap (8), and cylinder barrel and valve gap are for being slidingly matched, and the diametric(al) in valve gap (8) endoporus lower end has a pair of guiding groove, and cylinder barrel is provided with the key two (9) that cooperates with guiding groove.

2. multi-functional dynamic flow balance valve according to claim 1, it is characterized in that: described poppet shaft (7) by piston, be connected the valve rod below the piston, the spool (16) that links to each other with the valve rod end fuses, described piston matches with internal diameter of cylinder, and described spool (16) matches with valve seat (17); Described cylinder barrel (5) lower end is provided with guide sleeve (14), and the valve rod of described poppet shaft passes guide sleeve (14).

3. multi-functional dynamic flow balance valve according to claim 2 is characterized in that: center, described piston upper end is drilled with aperture one (a), is drilled with the some apertures two (b) that are connected with aperture one (a) on the valve rod of piston lower end.

4. multi-functional dynamic flow balance valve according to claim 1 and 2 is characterized in that: described spring comprises spring one (11) and spring two (12); Spring is held in the groove that is located in the piston below one by one, and the other end is located on the guide sleeve (14), and its rigidity is less, and certain pre compressed magnitude is arranged after the assembling; Spring two is enclosed within the outside of spring one, and its lower end is located on the guide sleeve (14), and there is certain distance the lower end surface that piston is left in the upper end.

5. multi-functional dynamic flow balance valve according to claim 1 is characterized in that: be provided with the flow indicator (1) that links to each other with cylinder barrel in sleeve (4) top; Be installed with locking nut (2) on the outside thread of the sleeve (4) above handwheel (6).

6. multi-functional dynamic flow balance valve according to claim 1 is characterized in that: described next door is a S shape, and there is valve seat orifice the centre, and described valve seat (17) is installed in the valve seat orifice.

7. multi-functional dynamic flow balance valve according to claim 1 is characterized in that: described valve gap (8) is pressed on the upper end of valve body (18) by nut (10) with it.

8. multi-functional dynamic flow balance valve according to claim 1 is characterized in that: described valve body (18) lower end is installed with bottom (20), and seal washer (19) is arranged between described bottom and the valve body.

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