DE2001465A1 - Two-sided flow-through valve to generate various flow resistances - Google Patents

Description

Subject: valve through which flow can flow on both sides to generate various Flow resistance The invention relates to a bilateral flow Valve for generating different flow resistances in both directions of flow, which consists of a hollow drilled pin, on which a piston tightly between two stops is movable relative to the pin, which piston is also tight is inserted into a bore corresponding to its outer circumference and from one itself loaded on the pin or a stop connected to the pin supporting spring the piston pressed by the spring against the other stop has a transverse bore covers between the hole in the pin and the outside of the pin.

A similar valve is already described in US Pat. No. 3,358,313 known. In the application shown there, it serves as a check valve for a door closer.

Moving the pin in one direction shifts the Piston against the force of the spring and releases the cross hole in the pin, so that depending on the strength of the spring, a more or less strongly throttled flow occurs. When the pin moves in the opposite direction, the piston blocks the transverse bore and Liquid is displaced via throttle elements arranged at another point. Disadvantageous at this arrangement is the relatively large overall length of the coil spring used. aside from that the arrangement of the throttle elements at a remote location requires additional structural elements and spatial expenditure, since the conduit means outside the piston receiving means Hole must be made.

It is the object of the invention to provide such a valve without using further To make components functional in two flow systems and also one to achieve a smaller size.

This object is achieved according to the invention in that the Spring is a disc spring that is pushed onto the pin and screwed there through @ ine Nut or the like sealing and essentially free of play against a paragraph is pressed and whose outer diameter is smaller than that of the piston, which is displaceable with a certain play between the disc spring and the stop and Has passage openings that are within a by the outer diameter of the Disc spring of the given diameter lie.

On the basis of an exemplary embodiment shown in the figures the invention is explained in more detail.

FIG. 1 shows the position of the piston when the disc spring is not tensioned shown.

In Figure 2, the piston is moved against the spring washer.

A piston rod 1 or the like tapers to form a serving as a stop paragraph 2 to a pin 3, which has a cylindrical part 4 has, to which a threaded part 6 is connected to form a shoulder 5. The pin 3 has, starting from its end face 7, a blind hole 8 which in the area of paragraph 2 with the outside of pin B through transverse bores 9 connected is.

On the cylindrical part 4 a piston lo slides tightly on the other hand slides tightly in a bore or cylinder 11. A plate spring 12 is pressed tightly against paragraph 5 by a nut 13.

Passage openings 14 penetrate the piston lo within one given by the plate spring 12 diameter. The one with the piston so in contact The coming edge of the plate spring 12 is denoted by 15.

The effective control edge of the piston 3 has the reference number 16.

When the piston rod 1 moves in the direction of the arrow FIG. 1 creates a dynamic pressure in front of the piston lo, which presses it against the shoulder 2. The transverse bores 9 are closed by the piston lo, so that liquid only through the gap between plate spring 12 and piston lo and the passage openings 14 can get to the other side of the piston. The height of the pressure drop is depending on the size of the gap and the speed of movement. Will the piston lo moves according to Figure 2, it is due to the dynamic pressure against the edge 15 of the plate spring 12 pressed, so that a metallic seal arises. The piston lo is now against the spreading plate spring 12 as long as moved relative to the pin until the control edge 16 exposes the transverse bores 9 and a flow can occur.

The invention is not limited to the illustrated embodiment. In particular, it has no effect on the function whether the piston rod 1 is relatively moved to the liquid and a stationary cylinder 11 or whether cylinder 11 and Piston rod 1 is stationary and only the liquid flows. It goes without saying it is also possible to have the arrangement with only one piston and two oppositely acting Execute disc springs, but then also with two separate bores the associated cross bores in the pin are necessary.

Claims (1)

Claim: Valve with flow through on both sides to create different flow resistances in both directions of flow, which consists of a hollow pin, on which a piston can be moved tightly between two stops relative to the pin, which piston also tightly fits into a bore corresponding to its outer circumference is inserted and connected by one on the pin or one with the pin Stop supporting spring is loaded, with the spring against the other Connection- pressed piston a transverse hole between the hole in the pin and the The outside of the pin is covered, indicating that the spring is a plate spring - (12), which is pushed onto the pin (3) and there by a screwed nut (13) or the like sealingly and essentially is pressed without play against a shoulder (5) and its outer diameter is smaller than that - of the piston (10), which with a certain play between the disc spring (12) and stop (paragraph 2) is displaceable and has passage openings (14), within a given diameter by the outer diameter of the disc spring (12) lie. L e r s e i t e