DE9302997U1 - check valve - Google Patents

Description

Registrant: Mr. Karl Jeromin, 8860 Nördlingen

check valve

The invention relates to a check valve of the type specified in DEU 92 07 827.

The check valve on which the DEU 92 07 827 is based is assigned to a suction nozzle provided with a suction basket. The closing spring is therefore designed as a tension spring, which acts on the suction basket on the one hand and on the check body on the other. However, arrangements of this type are not suitable for intermediate valves remote from the suction basket. The check valve on which the DEU 92 07 827 is based is therefore not universally usable.

Based on this, it is therefore the object of the present invention to design a check valve of the type mentioned while retaining the advantages derived from DEU 92 07 827 in such a way that universal usability is guaranteed.

This object is achieved by the check valve underlying claim 1.

Since the stationary, valve housing-side element of the stop device fulfills a dual function, namely a stop and spring support function, a simple design is achieved. As a result of the use of a compression spring, a compact design can also be achieved. At the same time, the use of a compression spring also ensures a high level of functional reliability. A further advantage is that the measures according to the invention also enable a flow-optimized arrangement.

In a check valve according to the invention, in which the check body has an axial slot in the area of its neck and the associated collar-shaped area of the valve housing has a detachably fixable cross pin engaging in the axial slot, a particularly simple, compact and flow-optimized arrangement can be achieved by providing the check body with an axial receiving recess for the spring, which extends from its axial slot in the closing direction and which is located on the one hand on the valve housing side

cross pin and on the other hand on a wall of the receiving recess opposite this.

A further advantageous measure can be that a pressure pin is guided in an associated guide area of the receiving recess and is provided with a collar that serves as a spring system on the cross pin fixed to the housing. These measures not only enable the pressure spring to be installed very easily, but also ensure precise and trouble-free power transmission.

In a further development of the above measures, a cylinder that can be closed at the back can be attached to the check valve, the bore of which has a diameter that matches the collar diameter of the pressure pin and is connected to the axial slot via an axial bore that has a diameter that matches the shaft diameter of the pressure pin. These measures enable existing check valves to be easily retrofitted with the measures mentioned above.

Further advantageous embodiments and appropriate further developments of the overarching measures are specified in the remaining subclaims and can be taken from the example description below.

A preferred embodiment of the invention is explained in more detail below with reference to the drawing. The only figure in the drawing contains an axial section through a check valve according to the invention.

The check valve on which the drawing is based, designated as a whole with 1, is arranged between two sections 2, 3 of a liquid line. The check valve 1 can be arranged in a standing, lying or inclined position. The drawing is based on a lying position.

The check valve 1 contains a one-piece valve housing 4, which can be manufactured as a turned cast part. The interior 5 of the valve housing 4, designed as a continuous, circumferentially stepped bore, forms a continuous flow path between the two line sections 2, 3, which are screwed to the valve housing 4. This is provided with a collar 6 facing the upstream line section 2, which, like the adjacent end of the line section 2, is provided with an external thread 7. The butt joint between the collar 6 and the line section 2 is bridged by a connecting sleeve 8 engaging in the external threads on both sides. The opposite outlet of the valve housing bore is provided with an internal thread 9, with which the valve housing 4 can be screwed onto an external thread of the line section 3. The threads 7, 9 have the same diameter, so that line sections 2, 3 of the same diameter can also be connected.

The valve housing 4, through which the flow here runs from left to right, contains a valve seat 10 which divides its interior 5 into two areas and which has a counter-flow

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This consists of a shaft-shaped carrier 12 designed as a metal part, onto which a sealing ring 13 made of sealing material such as rubber etc. is clamped, which interacts with the valve seat 10. The largest diameter of the check body, designated as a whole by 11, is smaller than the inner diameter of the housing opening provided with the internal thread 9, so that the check body 11 can be inserted into the one-piece valve housing 4 via the housing opening mentioned. To form the valve seat 10, the valve housing 4 is provided with a circumferential shoulder 14, from which the collar 6 protrudes.

The shaft-shaped carrier 12 of the non-return body 11 is provided with a neck 15 that protrudes into the bore of the housing-side collar 6 and functions as a guide element. This is equipped with radially projecting guide wings 16, the radially outer flanks of which are guided on the inner wall of the collar 6. In the example shown, two rings of guide wings 16 are provided that are spaced apart from one another in the axial direction.

The sealing ring 13 of the check body 11 is lifted off the valve seat 10 by the fluid flow and, when the flow stops, is brought into contact with the valve seat 10 by a closing spring 21 arranged coaxially to the axis of the check body 10. The stroke of the check body 11 is controlled by a stationary element arranged upstream of the valve seat 10 and by a stationary element on the valve housing side and by a

The stroke limiting device is limited by a stroke limiting device formed as a movable element. In the arrangement shown, this contains a cross pin 17 diametrically extending through the collar 6 as a stationary element and a surface on the non-return body side that interacts with it as a movable element. For this purpose, the neck 15 is provided with an axial slot 18 through which the cross pin 17 extends, the upstream end of which serves as a stop surface of the stroke limiting device. The axial slot 18 is located between the two guide vane rings spaced apart from one another. The length of the axial slot 18 in the axial direction minus the diameter of the cross pin 17 gives the maximum stroke of the non-return body 11.

The cross pin 17 is provided at both ends with threaded pins 19, which are screwed into associated, diametrically opposed, radial threaded holes 20 of the collar 6 to such an extent that the end faces of the cross pin 17 are within the base diameter of the thread 7, so that the connecting sleeve 8 can be screwed on without interference. When assembling the check valve 1, the check body 11 is first inserted into the valve housing 4 and then the cross pin 17 is mounted. Since this can be inserted from the outside, assembly is simple despite the one-piece design of the valve housing 4.

The closing spring 21 is designed as a compression spring, which is fixed on the one hand to the valve housing 4, here to the cross pin 17 of the stroke limiting device, and on the other hand to the check body 11, here to the rear end of the neck 15.

is supported. In the example shown, the neck 15 is provided with a receiving recess 22 for the closing spring 21, which extends from the axial slot 18 in the closing direction. This interacts with a pressure pin 23 which is also inserted into the receiving recess 22 and whose end remote from the closing spring rests on the cross pin 17. The end of the pressure pin 23 close to the closing spring is provided with a circumferential collar 24 to form a spring contact surface. The collar 24 is protruded by a guide pin 25 which engages in the closing spring 21, which is designed as a cylindrical spring. The end of the spring facing away from the collar 24 rests on the rear boundary of the receiving recess 22, which is formed here by a grub screw 26. The grub screw enables easy assembly of the pressure pin 23 and the closing spring 21.

The receiving recess 22 has the configuration of a stepped bore, the area 22a of which extending from the axial slot 18 has a diameter corresponding to the shaft of the pressure pin 23. The further area of the receiving recess 22 adjoining this has a diameter corresponding to the collar 24 of the pressure pin 23. The pressure pin 23 is therefore reliably guided on both sides, which eliminates the risk of jamming, etc.

In the example shown, the rear area of the neck 15 of the check body 11 is designed as an attached cylinder 27, the bore of which has a diameter adapted to the diameter of the closing spring 21 and the collar 24 and has a smaller,

the axial bore having a diameter adapted to the shaft diameter of the pressure pin 23 is connected to the axial slot 18. The cylinder 27 can be molded or attached. In the example shown, the cylinder 27 is provided with a threaded pin 28 through which the shaft of the pressure pin 23 passes.

Claims (9)

Expectations 1. Check valve, in particular for use as an intermediate valve in lines, with a preferably one-piece valve housing (4) containing a flow path and a non-return body (11) guided therein coaxially to the flow path and cooperating with a valve seat (10) arranged in the region of the flow path, which can be brought into contact with the associated valve seat (10) by means of a closing spring (21) and whose stroke can be limited by a stroke limiting device which has a stationary stop element provided in the region of a collar-shaped region of the valve housing (4) which preferably runs upstream of the valve seat (10) and a stop element cooperating with this, provided in the region of a neck (15) of the non-return body (11) engaging in the collar-shaped housing region, wherein the closing spring designed as a compression spring (21) is supported on the one hand on the stop element on the valve housing side (pressure pin 17) and on the other hand on a surface (grub screw 26) of the check body (11) opposite this stop element side. 2. Check valve according to claim 1, wherein the check body (11) has an axial slot (18) in the region of its neck (15) and the associated collar-shaped region of the valve housing (4) has a releasably fixable cross pin (17) engaging in the axial slot (18), and wherein the check body (11) is provided with an axial receiving recess for the closing spring (21) extending from the axial slot (18) in the closing direction, which is supported on the one hand on the cross pin (17) and on the other hand on the wall of the receiving recess opposite the latter. 3. Check valve according to claim 2, characterized in that a pressure pin (23) guided in an associated guide region of the receiving recess (22) rests on the transverse pin (17) and is provided with a collar (24) serving as a spring support. 4. Check valve according to claim 2 or 3, characterized in that the receiving recess (22) is designed as a stepped bore which can be closed at the rear by means of a stop which is preferably designed as a grub screw (26). 5. Check valve according to claim 4, characterized in that the check body (11) has an attached, rear-closable cylinder (27), the bore of which receives the closing spring (21) and is connected to the axial slot (18) via a region (22a) which is narrowed relative to the latter. 6. Check valve according to one of the preceding claims, characterized in that the neck of the check body (11) has guide wings (16) cooperating with the inner wall of the associated collar (6), preferably two rings of guide wings (18) arranged in the region of the ends of the axial slot (18). 7. Check valve according to claim 6, characterized in that the guide wings (16) project in the radial direction beyond the neck (15) and the cylinder (27) provided in its extension. 8. Check valve according to one of the preceding claims, characterized in that the valve seat (10) is arranged at the downstream end of the collar (6). 9. Check valve according to one of the preceding claims, characterized in that the valve housing (4) is provided on the collar side with an external thread (7) and opposite with an internal thread (9), preferably of the same diameter.