DE1954246U - THROTTLE-NON-RETURN VALVE. - Google Patents

Description

One-way flow control valve

The innovation refers to a one-way flow control valve for Hydraulic systems, with one loosely arranged in the flow channel between two ring-shaped inclined surfaces, through the flow movable valve disc ,, which in one direction of flow acts as a throttle.

One-way flow control valves have become known which, using a multitude of individual parts are built up. iSuch individual parts, such as precisely fitted closing bodies, compression springs, Threaded parts, sliding surfaces, etc. require a functionally reliable operation of the one-way flow control valve very precise processing and are therefore complex.

The task of the innovation is to create a safely working one-way flow control valve to create that is made up of as few as possible, easy-to-manufacture individual parts.

The object is achieved according to the innovation in that the valve disc is centered with a throttle bore and on its circumference is provided with recesses that the one located within the recesses, the throttle bore having closed The area of the valve disc is larger than the clear width of the annular stop surface of one side and that the annular The stop surface on the other side is smaller than the sum of the areas recessed from the valve disc.

200Q0 4.66 0.98791

F 360

KLÖCKNER-HUMBOLDT-DEUTZ AG ■ COLOGNE - 2 - 2 111 ofe ^ p

D 66/85 Gm

With these measures you get a one-way flow control valve that has very few, simple items that can also be easily assembled. This one-way flow control valve can also be used can also be designed as a double throttle valve, with only the recesses on the circumference of the valve disc accordingly the desired throttle properties are to be made smaller.

Jamming of the valve disc is definitely avoided by that the diagonal dimension of the rectangular central cross-section of the valve disk is smaller than the diameter of the flow channel surrounding the valve disk.

A preferred embodiment of the innovation results from that the smaller of the two annular stop surfaces is a radially resilient ring which is inserted into a groove in the flow channel intervenes. Furthermore, it can be advantageous if the valve body is designed as a screw-in stub.

The innovation is explained in more detail below using an exemplary embodiment. Show it:

Fig. 1 shows a cross section through a one-way flow control valve according to the innovation, with the valve disc on the smaller one annular stop surface rests.

Fig. 2 the one-way flow control valve according to Fig. 1 after reversing the direction of flow.

000 4. 66 0.93791 ρ 360

KLÖCKNER-HUMBOLDT-DEUTZ AG ■ COLOGNE ~ 3 ~ 2. 1 1. 1

D 66/85 Gü Fig. 3- a section along the line HI-III according to Fig. 1.

Fig. 1 shows a one-way flow control valve, its valve body 1 is designed as a screw-in socket. A shoulder 3 is provided in the flow channel 2, which has a passage opening 4 and also has a circular stop surface 5. In the iStrömungskanal 2 is also at a distance parallel to Stop surface 5 engaging in a hat 6 radially resilient Ring 7 arranged. The ring 7 has a stop surface 8 which is significantly smaller than the stop surface 5 of the shoulder 3. A valve disk 9 »which has a throttle bore 10 in the middle sits loosely between the two stop surfaces S, 8. As As can be seen from Fig. 3, the Y-valve disk 9 has four recesses 11 on its circumference, which are evenly distributed around the circumference are. The recesses 11 are dimensioned so that the remaining circular around the throttle bore 10 is closed area 12 is larger than the clear width of the passage opening in the shoulder 3. The diagonal dimension of the rectangular central cross-section the valve disc 9 is smaller than the diameter of the flow channel 2, so that the Y-valve disc 9 in this with Radial play is arranged. The radial play or the diagonal dimension is selected in such a way that the Y-valve disk is inclined between the two stop surfaces 5, 8 jamming of the disk in the flow channel 2 is excluded.

In Fig. 1, the Y-valve disc is shown in the, position, the it assumes when the print medium flows in the direction of arrow A. Here, the valve disc 9 rests on the stop

- A. -

20000 4. 66 0.98791 F.

KLÖCKNER-HUMBOLDT-DEUTZ AG ■ COLOGNE. _Λ . , *. _r

- 4 - 2.11. Τ9Φ ο

D 66/85 Gm

surface 8 of the ring 7. The print medium can thus through the Animal cutouts 11 and the throttle bore 10 can flow freely. Even with recesses 11 that are very large in terms of area, sufficient the jet deflection of the flowing medium through the valve disc 9 to move the same, so that their secure abutment on the ring 7 is achieved. Through a smaller training of the Recesses 11 can also generate a dynamic pressure in this flow direction, depending on the desired throttle properties may have different size.

When the direction of flow of the medium is reversed in the direction of arrow B according to Fig. 2, the valve disc 9 tilts about a point located on its outer circumference in the direction of the stop surface 5 of the shoulder 3 and the dynamic pressure that has occurred immediately places the valve disc flat against the stop surface The outer Recesses 11 of the valve disk 9 are covered in this position by the stop surface 5 and the pressure medium flowing in the flow channel is now strongly throttled according to the size of the throttle bore 10.

20000 4. 66 0.98791

Claims (4)

Schut. claims 1. One-way flow control valve for hydraulic systems, with a loosely in the flow channel between two ring-shaped incision surfaces arranged, by the flow "movable valve disc, which acts as a throttle in one flow direction, · characterized in that the Y-valve disk (9) is provided in the center with a throttle bore (10) and with recesses (11) on its circumference is that within the recesses (11) "located, the Throttle bore (10) having closed surface (12) of the Y-valve disc (9) is larger than the inside diameter of the annular Stop surface (5) on one side and that the annular stop surface (8) on the other side is smaller than the sum the one cut out of the yentil disc (9) laugh. 2. One-way flow control valve according to claim 1, characterized in that that the diagonal dimension of the rectangular central cross-section of the Yentilscheibe (9) is smaller than the diameter of the Y-valve disk (9) surrounding .flow channel (2). 3. One-way flow control valve according to claims 1 and 2, characterized in that the smaller of the two annular Stop surfaces (5, 8) is a radially resilient ring (7) which engages in a fut (6) in the flow channel (2). 4. One-way flow control valve according to Claims 1 to 3, characterized in that the Y-valve body (1) is designed as a screw-in socket. 20000 4.66 0.98791 F 360