CN101583915A

CN101583915A - Flow-volume regulator

Info

Publication number: CN101583915A
Application number: CNA2007800451095A
Authority: CN
Inventors: U·措勒尔
Original assignee: Neoperl GmbH
Current assignee: Neoperl GmbH
Priority date: 2006-12-06
Filing date: 2007-11-17
Publication date: 2009-11-18
Anticipated expiration: 2027-11-17
Also published as: DE202006018577U1; ES2363820T3; CN101583915B

Abstract

The invention relates to a flow-volume regulator (1) having an elastic throttle body (5) which delimits, between itself (5) and a housing wall (6), a control gap (7) which changes under the pressure of the fluid flowing through. A characteristic of the inventive flow-volume regulator (1) is that the flow-volume regulator (1) has at least one associated bypass and/or cleaning channel (8) whose at least one channel inlet (9) is arranged before the control gap (7) in the direction of flow and whose at least one channel outlet (10) is arranged after the control gap (7) in the direction of flow, and that the bypass and/or cleaning channel (8) contains a valve (11) which can move, under the pressure of the oncoming fluid, from an open position against a restoring force into a closed position and which seals the bypass and/or cleaning channel (8) in its closed position. Since the inventive flow-volume regulator (1) lets an additional volume of the fluid through the bypass channel (8) when the oncoming fluid is at low pressure, the flow curve for the inventive flow-volume regulator (1) is significantly increased in the low pressure range, which results in an enormous increase in convenience for low-pressure applications.

Description

Flow regulator

Technical field

The present invention relates to a kind of flow regulator, comprise a flexible throttling bodies, this throttling bodies limits the control gap that changes under the pressure of a fluid that is flowing through between itself and a housing wall.

Background technology

The flow regulator that starts described pattern is known various form of implementation.Above-mentioned known flow regulator has the throttling bodies that is made of resilient material of an annular usually, and this throttling bodies limits the control gap that changes under the pressure of a fluid that is flowing through between itself and a housing wall.Along with the pressure that edges up of the fluid that flows through, throttling bodies more and more is pressed onto to be regulated in the profile, and it is arranged on the adjusting fuse at the center of constituting or constitutes on the housing wall of outer circle wall.Because control gap is along with the hydrodynamic pressure that edges up narrows down, the Fluid Volume that such flow regulator can flow through time per unit is adjusted to the maximal value of a regulation.

Though Fluid Volume can be adjusted to the maximal value of a regulation when the high pressure of incoming fluid, the control gap of known flow regulator constitutes such flow obstacle when low pressure, promptly be merely able to the less amount by through-flow fluid.

Summary of the invention

Therefore the objective of the invention is to, a kind of flow regulator is provided, it can pass through bigger Fluid Volume when the pressure of the low fluid that flows through, and therewith relatively, the Fluid Volume that time per unit should be flow through when high hydrodynamic pressure is adjusted to one near the maximal value that remains unchanged.

This purpose according to solution of the present invention the beginning described pattern flow regulator in particularly in, for flow regulator disposes at least one bypass channel around the control gap guiding, connect the feeder connection of bypass channel in the inflow side in the control gap front and connect the channel outlet of bypass channel in the outflow side in the control gap back, and be provided with one and can overcome the valve that a restoring force moves on to an off-position from an open position in bypass channel under the pressure of the fluid that flows into, this valve seals bypass channel in its off-position.

For flow regulator of the present invention disposes at least one bypass channel, connect the feeder connection of bypass channel in the inflow side in the front of control gap, and connect the channel outlet of bypass channel in the outflow side in the back of control gap.In the open position of valve, at least one additional component of volume flow can flow through this bypass channel without barrier, and needn't be by the temporary transient control gap that only plays the flow obstacle effect of flow regulator.If the pressure of the fluid that flows through raises and surpass the pressure of a regulation, then valve overcomes a restoring force from its open position and moves on to its off-position, thus the sealing bypass channel.If the bypass channel sealing, the fluid that then flows through can only pass through control gap, and it bears its regulatory function with the volume flow that time per unit improves.Compare with known flow regulator, the flow curve of flow regulator of the present invention improves in lower pressure limit significantly, and this causes the convenience of a very big raising to the application with low pressure.

Advantageously, the front of flow regulator with in the front of its control gap be connected an additional screen or sieves especially, and the feeder connection of bypass channel is before the inflow side is arranged on additional screen or sieves.In order to ensure the function of the clog-free function of flow regulator of the present invention and each functional device of connecing after also in case of necessity and in order to prevent these functional devices because the obstruction of the dirt particles of taking away in the fluid stream connects an additional screen or sieves in the flow regulator front.If the feeder connection of bypass channel is arranged on before additional screen or the sieves, then bigger dirt particles also can be passed through bypass channel, and is safe from danger, and promptly this dirt particles is for example stopped up in the zone of control gap.

Particularly advantageous is that additional screen or sieves constitute funnel shaped and bell mouth constitutes feeder connection.Also guarantee in such a way bigger dirt particles only by bypass channel by flow regulator of the present invention.

Flow regulator of the present invention also can be used as unique functional device and is arranged in the fluid pipeline in the range of application of regulation.But set according to the present invention's one preferred form of implementation, flow regulator is before the inflow side is connected a jet regulator, and flow regulator preferably is arranged between an additional screen or a sieves and the jet regulator.In this preferred form of implementation, flow regulator is guaranteed, the fluid flow that time per unit flows through does not exceed the maximal value of a regulation, and the jet regulator that is provided with on water delivering orifice in the outflow side can form total jet that a beading uniform not sputter and also possible softens.

Set according to of the present invention one preferred form of implementation, the flow regulator looping and surround interlocking and surround the conduit wall that defines bypass channel.

Advantageously, in the outflow side in the jet regulator back or connect the channel outlet of bypass channel at least one jet resolver back of jet regulator.If channel outlet is connected the back of jet regulator itself in the outflow side or at least in its jet resolver back, then also can pass through bigger dirt particles, and be safe from danger, promptly because such contaminant particles stops up jet regulator or its jet resolver and hinder its function thus at least.

Set according to a form of implementation of the present invention, the valve that is provided with in bypass channel has a valve body, and this valve body overcomes a restoring force and leads movably in flow regulator.

Also possible, a part of zone with reaching water delivering orifice at least of passing through flow regulator and also may leading by the jet regulator that is connected later at it of valve body constitute handle, so that the manual manipulation valve.If valve body stretches out beyond the water delivering orifice with its subregion that is used as handle, then also can be when fluid flows through valve body be moved on to open position in contrast to the direction that flows through of fluid, the contaminant particles in the zone that falls into bypass channel can pass through bypass channel.Therefore the bypass channel of such form of implementation has an additional purification function.

Set according to another preferred form of implementation of the present invention, valve body has a guide finger that leads movably in flow regulator.What this was met purpose especially is, it is tubular that guide finger constitutes, and the pipe inside of guide finger constitutes bypass channel and in the end regions of the inflow side of guide finger at least one feeder connection is set and in the end regions of the outflow side of guide finger at least one channel outlet is set.

What meet purpose is that the outflow side of guide finger and stomidium that preferably stretch out at least up to water delivering orifice constitutes channel outlet.Can drain the dirt particles of carrying secretly in the fluid by the guide finger that constitutes bypass channel in such a way, and can not stop up flow regulator and its each functional device that is connected later where necessary, and damage its function.

Particularly advantageous is that the end regions of the outflow side of guide finger constitutes crown.If it is crown that the end regions of the outflow side of guide finger constitutes, then can be on the end regions that flows out and manually overcome restoring force with guide finger with therewith valve is raised and moved on to open position by finger presses, thus can drain and via constituting crown end regions removing by bypass channel in the dirt particles of the regional inner accumulated of bypass channel.

Set according to another preferred form of implementation of the present invention, valve body constitutes mushroom-shaped or dish-shaped.Particularly advantageously at this be, valve body in the subregion of a umbrella shape, constitute at least flexible and outer circumferential sides have one around sealing lip, and the subregion of umbrella shape can move on to an off-position from the elasticity that an open position overcomes resilient material.One such valve body only needs a less structural expense.

Particularly advantageous is that the fringe region that feeder connection is defined in the encirclement of additional screen or sieves constitutes the valve seat that matches with valve body.

For the dirt particles that will carry secretly in water may temporarily accumulate in flow regulator and before each functional device that connects thereafter, what meet purpose is, funnel shaped additional screen or sieves have the funnel shaped of convex or spill basically.Special in the funnel shaped of a spill, can the build up of dirt particle in the operating process of flow regulator of the present invention, so that when the hydrodynamic pressure that reduces and/or valve are opened, can flow out by bypass channel.In such form of implementation, also to add the additional purification function that helps flow regulator of the present invention.

Description of drawings

Draw other feature of the present invention by the following description of various embodiments of the present invention and all claims.Below also to illustrate in greater detail the present invention by each preferred embodiment.Wherein:

The longitudinal diagram of Fig. 1 one flow regulator, its streamwise are connected a jet regulator front, and wherein flow regulator has a bypass channel, and this bypass channel can be by one of volume flow additional component at its open position shown here;

Fig. 2 flow regulator in the Fig. 1 shown in the longitudinal diagram equally is in the off-position of its bypass channel;

Fig. 3 one can be in the open position of its bypass channel with the flow regulator of Fig. 1 and 2 contrast, wherein connects a jet regulator of comparing different formations with Fig. 1 and 2 in the flow regulator back;

Flow regulator among Fig. 4 Fig. 3 is in the off-position of its bypass channel;

Fig. 5 one flow regulator, this flow regulator has a valve in its bypass channel, this valve comprises that one constitutes the valve body of guide finger, wherein valve body its stretch out that subregion beyond the water delivering orifice constitutes handle in case the manual manipulation valve body and in Fig. 5 valve be in its open position;

Flow regulator among Fig. 6 Fig. 5 is in the off-position of its valve;

Fig. 7 one is in the open position of its bypass channel at the flow regulator shown in the longitudinal diagram;

Flow regulator among Fig. 8 Fig. 7 is in the off-position of its bypass channel; And

The comparison of the flow curve (solid line) of the flow regulator shown in Fig. 9 one Fig. 1 to 8 and the flow curve (dot-and-dash line) of a traditional flow regulator.

Embodiment

The different form of

implementation

1,2,3 and 4 of a flow regulator shown in Fig. 1 to 8.

Flow regulator

1,2,3 and 4 constitutes the member of an insert sleeve or an insert sleeve here, and it can embed in the discharging jet pipe of water valve of a health that does not illustrate again.Also might will be connected in the pipeline of gas or liquid in the middle of the flow regulator that can contrast.

Even

flow regulator

1,2,3 and 4 is used for also time per unit can being flow through when the pressure of increasing incoming fluid Fluid Volume is adjusted to the maximal value of a regulation for this

reason.Flow regulator

1,2,3 and 4 has the throttling bodies 5 that is made of resilient material of an annular for this reason, and this throttling bodies limits the control gap 7 that changes under the pressure of a fluid that is flowing through between itself and a housing wall 6.The one adjusting profile that is made of forming section and recess is set on housing wall 6, and this housing wall constitutes one and constituted a circumferential wall of surrounding throttling bodies 5 by the control agent of interlocking around the throttling bodies 5 in Fig. 1 to 6 in Fig. 7 and 8.Be that flexible throttling bodies 5 is deformed to the adjusting profile always under the pressure of the fluid that flows into, and control gap 7 is narrowed down by what the comparison of Fig. 1 and 2 can be found out.

Be the bypass channel 8 at

flow regulator

1,2,3 and 4 configurations, one center, its longitudinal axis that is concentric with

flow regulator

1,2,3 and 4 here extends through it at the center.In the time of before feeder connection 9 streamwises of this bypass channel 8 are arranged on control gap 7, its passage goes out the back that 10 streamwises are arranged on control gap 7.In this bypass channel 8, a valve 11 here also is set in the zone of feeder connection 9, it overcomes a restoring force from an open position and moves on to an off-position under the pressure of the fluid that flows into, at off-position valve 11 sealing bypass channels 8.

Though

flow regulator

1,2,3 and 4 is in the open position that it does not load shown in Fig. 1,3,5 and 7, Fig. 2,4,6 and 8 illustrates the off-position that loads that

flow regulator

1,2,3 and 4 is in valve 11 under hydrodynamic pressure.

At the open position of valve 11, at least one additional component of volume flow can unhinderedly flow through bypass channel 8.If the pressure of the fluid that flows through raises and surpass the pressure of a regulation, then valve overcomes a restoring force from its open position and moves on to its off-position, thus sealing bypass channel 8.If bypass channel 8 is closed, the fluid that then flows through is only by

flow regulator

1,2,3,4, and it bears its regulatory function with the volume flow that time per unit improves.Compare with known flow regulator,

flow regulator

1,2,3 and 4 shown here has a flow curve, and it improves in lower pressure limit significantly, and this causes the convenience of a very big raising to the application with low pressure.

Connect a jet regulator 12 behind

flow regulator

1,2 in Fig. 1 to 6 and 3 streamwises, its water jet of planning from water valve, to flow out form a uniform not sputter with the total jet that may beading softens.Each jet regulator 12 has the jet resolver 13 of an inflow side respectively, and it becomes a large amount of one-jets with the moisture that flows into.Though jet regulator 12 has a jet resolver 13 in Fig. 1 and 2 and 5 and 6, it constitutes porous plate, and jet regulator 12 has a jet resolver 13 in Fig. 3 and 4, and it constitutes fan diffuser.Each jet regulator 12 has the fluid flow homogenizer 14 of an outflow side, and its each one-jet that may inflate is reformulated a uniformly total jet.By Fig. 1,2,5 and 6 and the comparison of Fig. 3 and 4 can find out be, jet regulator 12 in Fig. 1,2,5 and 6 has a uniforming device that is connected in the middle of between jet resolver 13 and fluid flow homogenizer 14 in addition, and its sieve or insert 15 by a plurality of grill-shaped or net form constitutes.

Be connected an additional screen or sieves 16 before

flow regulator

1,2 and 3 control gap 7, it has the funnel shaped of a spill.Can find out that in Fig. 1 to 6 bell mouth at the center of funnel shaped sieves 16 constitutes the feeder connection 9 of bypass channel 8.Therefore additional screen or sieves 16 can leach dirt particles going along with in the fluid, and dirt particles may be damaged

flow regulator

1,2 and 3 function and the function that also may damage each functional device that is connected later at it before this.When its valve 11 is shown in an open position, can and then drain the dirt particles that is filtered off via bypass channel 8.This bypass channel 8 is had a clean xsect, and it is significantly bigger that its control gap 7 with

flow regulator

1,2,3 is compared.Therefore the characteristics of bypass channel 8 also are an additional purification function in

flow regulator

1,2,3.

What can find out among Fig. 1 to 8 is,

flow regulator

1,2,3,4 loopings and surround interlocking and surround the conduit wall that defines bypass channel 8.Though the flow regulator 1 of the channel outlet 10 of bypass channel 8 in Fig. 1 to 4, streamwise is arranged on flow regulator 1 in 2, the back of the jet resolver 13 of 2 control gap and jet regulator 12, but still before the sieve 15 of the grill-shaped of fluid flow homogenizer 14 and uniforming device or net form, if channel outlet 10 streamwise in the flow regulator shown in Fig. 5 and 63 is arranged on the back of jet regulator 12, then flow through bypass channel 8 and the fluid section that may load by dirt particles not only needn't but also needn't pass through each member of jet regulator 12 by flow regulator 3.

The valve 11 of the flow regulator 3 shown in Fig. 5 and 6 has a valve body 17 for this reason, and it has a guide finger 18 that leads movably in flow regulator 3.This guide finger 18 constitutes tubular, the pipe inside of wherein tubular guide finger 18 constitutes bypass channel 8, when in the end regions in the inflow side of guide finger 18 at least one feeder connection 9 being set, in the end regions of the outflow side of guide finger 18, at least one channel outlet 10 is set.The subregion of the outflow side of valve body 17 is stretched out up to water delivering orifice and is constituted handle, so that also manual manipulation valve 11.Can in the zone of flow regulator 3, drain the dirt particles that additional screen or sieves 16, may gather at any time by manually pushing stretching out in of guide finger 18 end regions water delivering orifice and that be used as channel outlet 10.Because valve 11 is automatically opened by restoring force when the pressure of the reduction of incoming fluid, purification process also is possible automatically.For this reason by no longer sealing the end regions that is used as channel outlet 10 of guide finger 18 with manual the exerting pressure of a finger tip, constitute the end regions of the outflow side of guide finger 18 crown.

As seen from Figure 6 be, the fringe region 19 that feeder connection 9 is defined in the encirclement of additional screen or sieves 16 constitutes valve seat, it matches with end regions with becoming cap shape or mushroom-shaped to constitute here of the inflow side of valve body 17.Below the end regions of the inflow side of valve body 17, on circumference, be set at the cinclides of feeder connection 9.

Valve 11 shown in Fig. 5 and 6 has a back-moving spring 20, and it applies restoring force.Therewith relatively, Fig. 1,2,3,4,7 with the inflow side of the valve 11 shown in 8 with become cap to form the valve body 21 that mushroom-shaped constitutes here equally in the subregion of a umbrella shape, to constitute sealing lip 22 flexible and that have an outer circumferential sides at least, wherein the subregion of umbrella shape can move on to an off-position from the elasticity that an open position overcomes resilient material.

As for example being, for the jet regulator 12 of flow regulator 1 configuration constitutes self-clearing by what Fig. 1 and 2 can find out.The flow regulator that is provided with below additional screen 16 1 is shown in Figure 1 to be in almost stress-free state, but therewith relatively, flow regulator 1 shown in Figure 2 in the flowing pressure of being close to, wherein be in the center, the end regions of its inflow side become that mushroom-shaped or cap shape constitute and on jet resolver 13 fixing valve body 21 and be in additional screen or sieves 16 below throttling bodies 5 be out of shape.In Fig. 3 and 4, flow regulator 2 can contrast with jet regulator 12 formations that are connected later at it, but jet regulator 12 replaces a porous plate to have a fan diffuser as jet resolver 13, and between jet resolver 13 and fluid flow homogenizer 14 uniforming device is set, this uniforming device comprises other sieve or insert 15.The installation unit that is made of flow regulator 3 and jet regulator 12 constitutes " heavy duty " form of implementation in Fig. 5 and 6, dirt was led jet regulator 12 by the guide finger 18 that is used as washpipe therein.Fig. 7 be not connected in the back of flow regulator 4 in 8 other health functional device and particularly do not connect jet regulator, thereby its function is only limited to the influence by means of 8 pairs of flow curves of bypass channel.

The flow curve a of a flow regulator that constitutes by prior art shown in Fig. 9.Therewith relatively, curve b illustrates the performance of jet regulator that a flow regulator of the present invention or comprises the flow regulation of a bypass channel 8, as describing by Fig. 1 to 8.The form of implementation shown in Fig. 1 to 8 common be, the flow curve of

flow regulator

1,2,3,4 improves in lower pressure limit significantly, this causes the convenience of very big raising for the application with low pressure.

Claims

1. flow regulator (1,2,3,4) comprises a flexible throttling bodies (5), and this throttling bodies is limiting the control gap (7) that changes under the pressure of a fluid that is flowing through between a throttling bodies (5) and the housing wall (6); It is characterized in that, be flow regulator (1,2,3,4) dispose at least one bypass channel and/or purification channel (8), at least one feeder connection (9) streamwise of described bypass channel and/or purification channel is arranged on control gap (7) before, and at least one channel outlet (10) streamwise of described bypass channel and/or purification channel is arranged on the back of control gap (7), and be provided with one and can overcome the valve (11) that a restoring force moves on to an off-position from an open position in bypass channel and/or purification channel (8) under the pressure of the fluid that flows into, described valve seals described bypass channel and/or purification channel (8) in its off-position.

2. according to the described flow regulator of claim 1, it is characterized in that, be connected an additional screen or sieves (16) before at its control gap (7) before with particularly at flow regulator (1,2,3), and the feeder connection (9) of bypass channel and/or purification channel (8) is arranged on additional screen or sieves (16) before in the inflow side.

3. according to claim 1 or 2 described flow regulators, it is characterized in that additional screen or sieves (16) constitute funnel shaped and bell mouth constitutes feeder connection (9).

4. according to one of claim 1 to 3 described flow regulator, it is characterized in that, described flow regulator (1,2,3) is connected a jet regulator (12) before in the inflow side, and flow regulator (1,2,3) preferably is arranged between an additional screen or a sieves (16) and the jet regulator (12).

5. according to one of claim 1 to 4 described flow regulator, it is characterized in that, flow regulator (1,2,3,4) looping and surround interlocking and surround the conduit wall that defines bypass channel and/or purification channel (8).

6. according to one of claim 1 to 5 described flow regulator, it is characterized in that, in the outflow side in jet regulator (12) back or connect the channel outlet (10) of described bypass channel and/or purification channel (8) at least one jet resolver (13) back of jet regulator (12).

7. according to one of claim 1 to 6 described flow regulator, it is characterized in that valve (11) has a valve body (17), this valve body overcomes a restoring force and leads movably in flow regulator (3).

8. according to one of claim 1 to 7 described flow regulator, it is characterized in that, the guiding of valve body (17) is passed flow regulator (3) and also may be guided jet regulator (12) and the subregion that reach water delivering orifice at least that is passed in flow regulator and is connected later and constitute handle, so that manual operation valve (11).

9. according to one of claim 1 to 8 described flow regulator, it is characterized in that valve body (17) has a guide finger (18) of guiding movably in flow regulator (3).

10. according to one of claim 1 to 9 described flow regulator, it is characterized in that, guide finger (18) constitutes tubular, the pipe inside of guide finger (18) constitutes bypass channel and/or purification channel (8), and at least one feeder connection (9) is set the end regions in the inflow side of guide finger (18) and end regions in the outflow side of guide finger (18) is provided with at least one channel outlet (10).

11., it is characterized in that the outflow side and stomidium that preferably reach the guide finger (18) of water delivering orifice at least constitutes channel outlet (10) according to one of claim 1 to 10 described flow regulator.

12., it is characterized in that the end regions of the outflow side of guide finger (18) constitutes crown according to one of claim 1 to 11 described flow regulator.

13., it is characterized in that valve body (17,21) constitutes mushroom-shaped or dish-shaped according to one of claim 1 to 12 described flow regulator.

14. according to one of claim 1 to 13 described flow regulator, it is characterized in that, valve body (21) constitutes flexible in the subregion of a umbrella shape at least, and outer circumferential sides have one around sealing lip (22), and the subregion of umbrella shape can move on to an off-position from the elasticity that an open position overcomes resilient material.

15., it is characterized in that the fringe region (19) that feeder connection (9) are defined in the encirclement of additional screen or sieves (16) constitutes the valve seat that matches with valve body (17) according to one of claim 1 to 14 described flow regulator.

16., it is characterized in that funnel shaped additional screen or sieves (16) have the funnel shaped of convex or spill basically according to one of claim 1 to 15 described flow regulator.