DE3827580A1 - Pinch valve - Google Patents

Abstract

In its tubular housing (12), a pinch valve (10) has an elastically deformable hose (24). In the region (20) between the housing (10) and the central region of this hose (24) in the longitudinal direction (18), a pressure medium can be introduced, thereby squeezing the hose. This pinch valve (10) is distinguished by the fact that, in the non-loaded state, in which the free interspace (20) between the housing and the hose is not under positive pressure, the free inner surface (L) of the hose, which can be deformed inwards when the hose is squeezed, is longer in the longitudinal direction (18) of the hose than the free outer surface (1) of the hose, which can be deformed outwards when the hose is squeezed, and the means (30, 40) for exerting pressure are such that the hose wall cannot be constricted by them. <IMAGE>

Description

TECHNICAL AREA

The invention relates to a pinch valve for bulk goods, Liquids or gases.

Pinch valves are special shut-off devices in which the Shut-off function by complete local compression ken or squeezing a hose through which the medium to be conveyed is passed through, is achieved.

Pinch valves can be used wherever they are to quickly close pipe or hose lines and open to promote the substances contained therein release or stop to distribute, dose and the like. Bulk materials can be used as substances, too sticky and pasty substances, liquids of all kinds, air and other gases may be provided, e.g. B. water, oil, acid lye, lye, concrete, sand, flour, cement, grain, etc.

STATE OF THE ART

In the pinch valve known from DE-OS 26 16 045 has the profiled hose inserted into the housing and / or through clamping rings to the outside against the wall of the Pressed ends of the housing. To insert such a special, specially made hose required to insert the clamping rings into the ends of the sly ches and there against the elastic force of the Expand hose and with butt joint To bring end faces. Furthermore, the squeezing area of the Hose the inner diameter of the housing about twice big as the outside diameter of the hose. Is also in Squeeze area of the hose whose outer exposed man  tel area about the same size as the opposite inner Lateral surface. As a result, the hose has a high radial Freedom of movement, which leads to the fact that after a certain number of squeezes of the hose in this loading deformed abundantly and no longer opens fully, so that in the open state of the valve and thus the smart ches only the free cross-section for the medium is reduced. This causes the hose becomes unusable after a relatively short period of operation and needs to be replaced. To remove it must also as for installation on the front clamping rings are handled, what is shown with high on wall is connected.

PRESENTATION OF THE INVENTION

The invention is based on this prior art the task is based on a pinch valve of the beginning to specify the type that will last as long as possible sits and with the necessary expansion if necessary nes hose with as little effort as possible that can.

This invention is in the aforementioned and from the State of the art pinch valve by the features of claim 1 given. The squeeze according to the invention Accordingly, the valve is characterized in that in the un loaded state in which the free space between Housing and hose is not under pressure, the free Inner surface of the hose, which when squeezing the Hose is deformable inwards, in the longitudinal direction tion is longer than the free outer surface of the hose, which deform when the hose is squeezed outwards bar, and that the means for pressing such are that the hose wall is not turned by the same is laced.  

With such a pinch valve can be compared previously known pinch valves the one hand the full operating Maintain proficiency for much longer and also also significantly increase the life of the hose. Maintaining operational efficiency is there achieved by that the free passage cross section is essential Lich longer than with the previously known pinch valves full is maintained since the middle third of the Note the existing free outer surface of the hose Lich is shorter in the longitudinal direction than the opposite one free inner surface of the hose. When squeezing the The hose can therefore no longer be the same as with the previously known pinch valves in the same cross-sectional area deform richly both internally and externally; infol The hose can use the reduced free outer surface admittedly following the free end of the inside of it contact pressure immediately inside but not outside deform. This creates back in the hose wall Actuators who ensure that when the smart is relieved The same one additionally reinforces itself in its output position moved back. The longer life of the hose further stems from the fact that the hose ends are no longer in to be laced; the constriction is due to the flat Avoid pressing against the hose.

It turned out to be cheap if in the unloaded Condition of the hose, the free inner surface of the same is longer by twice the thickness of the hose wall than the free outer surface of the hose in the area of the Ge house. This will make the hose connection sufficiently large reshaping power that creates the free Hose cross section in the unloaded state of the same opti times fully maintained for a long time.

In an advantageous training they exist from the inside Means for pressing against each end of the hose Insertable clamping sleeves at both ends of the hose. The Wall of each adapter sleeve is preferably to the respective  The end of the hose is conically widened in this way det that the inner surface of the hose wall essentially remains aligned parallel to the longitudinal axis of the hose.

On the one hand, this means the free flow of the medium practically insignificant through the pinch valve impaired, while on the other hand by the flat plant the life of the sleeve is desired value is preserved for a long time.

For better installation of the adapter sleeves or the housing of each Because of the hose side, these system surfaces can be connected with cross grooves or elevations.

It turned out to be particularly favorable if the Means for pressing a collar protruding outwards sit in the installed state on the front of the Hose wall is pressed. When installing the clamping sleeve the collar is pressed against the face of the hose, the tube being slightly compressed in the longitudinal direction becomes. The resulting widening of the cross-section works is also beneficial to the life of the hose out; through the upsetting, however, the Hose when squeezing together and thus when deforming in its closed position was less subject to tensile stresses fen, which is also beneficial for its life.

The arrangement of the clamping sleeves will work together with screw nuts that can be screwed onto the housing or Flange the hose end in question not only to tech nisch simple way effective in its installation position kept but also a very simple and quick possibility to change the hose. This increases the economy of the fiction pinch valve considerably.

The economy can also be increased like that the annulus in the unloaded state in hose  lengthwise only about half the length of the between the Means for pressing free inner surface of the hose be wearing. As a result, the annular space surrounding the hose is ge compared to the annular spaces known from the prior art much smaller, which means a correspondingly lower air consumption required to close the pinch valve makes.

Further advantageous embodiments of the invention result themselves through those listed in the subclaims Characteristics.

BRIEF DESCRIPTION OF THE DRAWING

The invention is based on the in the drawing illustrated embodiment described and he purifies. Show it:

Fig. 1 shows a longitudinal section through a pinch valve according to the invention, in the undeformed condition of Sly ches,

Fig. 2 is a half longitudinal sectional view of the pinch valve of Fig. 1, showing the Zusammenquet when the tube's outwardly deformed tubular sheath,

Fig. 3 is a longitudinal sectional view of the pinch valve of Fig. 1 showing the deformed in the pinched state inside the hose,

Fig. 4 is a section along line 4-4 of Fig. 2 and

Fig. 5 shows a section along line 5-5 of FIG. 3.

WAYS OF CARRYING OUT THE INVENTION

A pinch valve 10 has an approximately hollow cylindrical Ge housing 12th At its two ends, hollow cylindrical pieces 14 are integrally connected to the housing 12 , which connect flush to the inside of the housing 12 .

On the outside of the connectors 14 , a Ge thread 16 is available. Housing 12 and connector 14 are constructed radially symmetrical with respect to their longitudinal axis 18 . In the central region of the housing 12 with respect to the longitudinal axis 18 , an outwardly widening annular space 20 is provided which bulges into the housing 12 from the inside. This annulus is approximately concave. A circumferential groove 22 is formed in the area of its largest diameter.

On the inside of the housing 12 and the connecting pieces 14 - with the exception of the area of the annular space 20 - there is a hose 24 . At the two ends of the hose 24 , connection means are provided for connecting the incoming and outgoing lines. Depending on the type of lines, the connection means are designed accordingly. On the lower side in the drawing, an adapter sleeve 30 is inserted into the hose 24 , which lies sealingly on the hose. The outer contact surface of the clamping sleeve 30 resting against the hose is inclined out with respect to the longitudinal axis 18 , the conical extension being aligned with the front end of the pinch valve. The inner surface of the clamping sleeve 30 is aligned substantially parallel to the longitudinal axis 18 . In order to increase the sealing effect, circumferential elevations 32 may still be present on the outer surface of the clamping sleeve 30 .

The adapter sleeve 30 is held axially by a screwed onto the thread 16 flange 34 in its sealing position.

The upper side of the pinch valve 10 in FIG. 1 has an annular sleeve 40 which, with its end projecting into the pinch valve, is also designed like the annular sleeve 16 . This ring sleeve 40 is also conically widening towards the front side of the pinch valve 10 and alternatively equipped with circumferential elevations 32 . For further connection to the pinch valve 10 is used on this side of the same to an outwardly projecting at 42 , which is integrally connected to the ring sleeve 40 , and on which, for example, a hose can be pushed. This ring sleeve 40 and the connector 42 is held by a screwed onto the thread 16 of the connector 14 on the housing 10 Ge union nut 43rd

A radial bore 44 opens into the center of the annular space 20 , into which a connecting piece 46 for a pressure medium, in particular compressed air, is screwed. It can be seen that the hose 24 is squeezed inward in the region L with line of pressure medium, as is dash-dotted in FIG. 1 and is shown in more detail in FIG. 3. The passage in the longitudinal direction 18 is closed by the pinch valve. The annular space 20 serves for the rapid distribution of the pressure medium along the entire circumference of the hose 24 . It extends approximately over a third of the length of the housing 12 and is not significantly larger in diameter than the outer diameter of the hose. In an extreme case, it can even correspond to the outside diameter of the hose, so that the groove 22 is used only for pressure medium distribution.

When the hose 24 is compressed into its closed position ( FIGS. 1, 3), the same deforms at right angles to the outside, as is shown in FIGS . 2, 4 and 5. This deformation can only take place in area 1 , which is 2 times smaller than dimension L. This builds up in the area x of the hose 24 in addition to the existing restoring forces of the elastic hose 24 , further restoring forces that ensure that the hose from its closed position is always safe in its undeformed, shown in Fig. 1, open position regresses.

These additionally activated restoring forces allow the hose to be dipped together parallel to the longitudinal axis 18 during its installation, which can be achieved by the ring-like shoulder 48 projecting outwards from the clamping sleeve 30 or ring sleeve 40 . When inserting this clamping sleeve 30 or the ring sleeve 40 , the conical outer surface in cooperation with this shoulder 48, the tube 24 is somewhat compressed. As a result, the cross section expands accordingly, which has a favorable effect with regard to the stress on the hose in its clamping area and in its deformation area due to the lower load.

To replace the hose 24 , the flange 34 or the union nut 43 is unscrewed from the corresponding connecting pieces 14 and the clamping sleeve 30 or ring sleeve 40 is pulled out of the housing 12 parallel to the longitudinal axis 18 . Then the hose can also be easily pulled out of the housing 12 . If the hose 24 should be slightly compressed during installation, the hose 24 will relax when the above, hold the built-in parts in the longitudinal direction, whereby its outer diameter becomes smaller and it can be pulled out of the housing 12 even more easily.

The pinch valve is assembled in the reverse, likewise simple manner, by inserting the hose 24 into the housing 12 and by inserting the clamping sleeve 30 bzu. the ring sleeve 40 and fastening the same by means of the flange 34 or the union nut 43 . With the help of a rubber hammer or a simple press, the clamping sleeve 30 and the ring sleeve 40 may also be knocked or pressed into their respective construction position. The flange 34 or the union nut 43 only need to be tightened slightly to firmly hold the hose 24 in the above construction. By possibly knocking or pressing axially, the tube 24 is compressed in practice by about eight to ten millimeters, which - as explained above - facilitates radial expansion in both directions ( FIGS. 2, 3) and increases the service life of the same.

Claims (10)

1. Pinch valve ( 10 ) for bulk goods, liquids or gases, with

• an approximately tubular housing ( 12 ) with a connection ( 44 , 46 ) for a pressure medium,
• - An existing in the housing ( 10 ) elastic hose ( 24 ), which rests with its two end regions on the inside of the housing ( 10 ), and
• - From the inside of each hose end adjacent means ( 30 , 40 ) for pressing the two ends of the hose wall against the housing for positionally immovable holding of the two hose ends in the housing, wherein in the area ( 20 ) between the housing ( 10 ) and in In the longitudinal direction ( 18 ) central region of the hose ( 24 ) the pressure medium can be introduced and the hose can thereby be squeezed together, characterized in that
• - In the unloaded state, in which the free space ( 20 ) between the housing and the hose is not under pressure, the free inner surface ( L ) of the hose, which is deformable when the hose is squeezed inwards, is longer in the longitudinal direction ( 18 ) of the hose free outer surface ( 1 ) of the hose, which is deformable when squeezing the hose outwards, and
• - The means ( 30 , 40 ) for pressing are such that the hose wall can not be constricted by the same.

2. Pinch valve according to claim 1, characterized in that in the unloaded state, the free inner surface ( L ) of the Schlau ches ( 24 ) is at least twice the thickness of the Rohrwan extension longer than the free outer surface ( 1 ) of the hose ( 24 ) in the area of the housing. 3. pinch valve according to claim 1, characterized in that from the inside at each end of the hose for pressing from each inserted in both ends of the hose clamping sleeves ( 30 , 40 ). 4. pinch valve according to claim 3, characterized in that the wall of each clamping sleeve ( 30 , 40 ) is designed to widen conically towards the end of the hose such that the inner surface of the hose wall remains aligned substantially parallel to the longitudinal axis of the hose ( 18 ). 5. Pinch valve according to claim 1, characterized in that the bearing surfaces of the housing ( 14 ) and / or the pressing means ( 30 , 40 ), which press against the hose ( 24 ), are formed with elevations ( 32 ). 6. pinch valve according to claim 1, characterized in that the means ( 30 , 40 ) for pressing a protruding outward have the collar ( 48 ) which can be pressed against the end of the tube wall. 7. Pinch valve according to claim 1, characterized in that a circumferential and connected to the connection for the pressure medium groove ( 22 ) is present in the central region of the hose in the longitudinal direction of the hose ( 18 ). 8. pinch valve according to claim 7, characterized in that the groove ( 22 ) is arranged in an annular space ( 20 ), the diameter of which is larger than that of the hose ( 24 ). 9. pinch valve according to claim 1, characterized in that the means ( 30 , 40 ) for pressing by on the housing on screwable union nuts ( 43 ) or flanges ( 34 ) are stable in their position. 10. pinch valve according to claim 8, characterized in that the annular space ( 20 ) in the unloaded state in the longitudinal direction of the hose ( 18 ) carries about half the length ( L ) of the free inner surface of the hose between the means for pressing.