DE1548932A1 - Flow rate regulator - Google Patents

Description

Flow rate regulator

The invention relates to a flow rate regulator in which several leaf springs connected to one another and assigned to a support surface lie in front of a passage opening.

In a known construction of this type, flat leaf springs are used provided, which, under the pressure of the liquid, lie against a conical support surface and are thereby dependent reduce the free flow cross-section by pressure more or less. However, such volume regulators have the disadvantage that they are only able to keep the flow rate constant within a small pressure range. Also needed you have a special regulator design for each desired flow rate, in particular with different leaf springs must be used «

The invention is based on the object of a flow rate regulator indicate that over a larger pressure range a constant Lets the amount of liquid through. In a further embodiment, easy adaptability to different flow rates should also be possible. .

909844/1048

BATH

New documents {Art. 711 para. 2 no. I sentence 3 doe Xnderunaage ·. v. 4.9.18 ""

The invention consists in that the leaf springs are so un-jterschMlioh that they come to rest on the support surface one after the other with increasing pressure. _s

In this way, the result is not a linear but a progressive spring characteristic as a function of the fluid pressure. With their help it is much easier to maintain an approximately constant amount of liquid over a large pressure range than when using flat leaf springs.

In a preferred embodiment, the different Shape achieved in that the free ends of the leaf springs are bent so that they are different distance from the Have contact surface. At low pressures, only a spring acts, which is flat, for example. At higher pressures a second spring with a slight deflection is effective «If the pressure is very strong, a third spring comes into contact with the support surface, which results in an even stiffer overall spring and so forth.

It is recommended that the leaf springs are provided with radial incisions at the end. These cuts will be with increasing pressure, increasingly closed by the support surface. and therefore act as a standard cross-section

Another adaptation to a desired dependency on the flow rate and pressure is achieved when the support surface consists of sections of different conicity.

BATHROOM OBlGINAL 909844/1048

It when the support surface is arranged on an annular insert is particularly advantageous. You can get through then Replace the insert while maintaining the progressive spring arrangement to achieve any adjustments. For example A leaf spring set can optionally be assigned one of several inserts with support surfaces of different conicity. You can also choose one of several inserts with support surfaces of different inner diameters f assign. In this way, with the help of the same volume regulator, merely by exchanging the insert keep the flow rates constant, the extreme values of which behave as 1 »4.

The invention is illustrated below with reference to one in the drawing Embodiments explained in more detail. Point Eb

Fig. 1 shows a longitudinal part through an embodiment the invention"

σ
Pig. 2 a plan view of the leaf springs used,

Pig. 3 is a view of these springs from above in FIGS. 1 and

4 different inserts to be used optionally, to 7

In a housing 1 are a bore 2 and an enlarged bore 3 provided, which form a level 4 between them. This step is located, optionally with the interposition of spacer rings 5. an annular insert 6, which has a conical Has support surface 7. A laminated core θ, df »follows with the help a snap ring 9 is held in place.

9098U / KH8

BATH

The laminated core 8 consists of three, by a square rivet 10 interconnected leaf springs 11, 12 and 13 made of stainless spring steel. The spring 11 is flat at rest, the Both ends of the spring 12 are bent against the direction of flow, the spring 13 has a uniform curvature in such a way that their ends have a greater distance from the support surface 7 than the ends of the spring 12. All Springs each have radial notches 14 at their ends.

When liquid is supplied at low pressure, only the leaf spring 11 is initially effective in terms of throttling the cross section. When the pressure is stronger, the spring also comes to rest on the support surface 7. This changes the spring / characteristic. When the pressure is even higher, the spring 13 also becomes effective by resting against the support surface 7. / Ea is therefore possible to adjust the throttle opening over a large pressure range in such a way that a constant flow rate results.

In Figs. 4-7 four different annular inserts 6a, 6, b, 6c and 6d are shown, which with the same leaf spring package 8 can interact and are intended for the flow rates 6, 10, 15 and 20 l / min. The different flow rates result from the fact that the support surfaces 7 are designed differently. How to look at the different inside diameter 15a, 15b, 150 and 15d are support surfaces different radial extent used.

909844/1048

In Pig. 4, the support surface 7 consists of three sections, a flat section 71a and an axially offset, likewise flat section Section 72a and a conical section 73a. In Pig. 5 close two conical sections 71b and 72b with different Conicity to each other. In Pig. 6, a flat section 71c is followed by a conical section 72c. In Pig. 7 are again two conical sections 71d and 72d with different conicity are provided.

It is clear that instead of the strip-shaped leaf springs also any other leaf spring shapes can be used. It is also clear that instead of the three leaf springs illustrated two or more than three leaf springs can also be combined if the circumstances so require.

909844/104

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BATH

Claims (6)

- 6 - Claims ι 1. Flow rate regulator, in which several interconnected, leaf springs assigned to a Abstütaflache a passage opening, characterized in that the leaf springs are designed so differently s ± ö, that with increasing pressure they come to rest one after the other on the support surface. 2. Flow regulator according to claim 1, characterized in that the free ends of the leaf springs are bent in such a way that they have different distances from the slit surface. 3. Quantity regulator according to claim 1 or 2, characterized in that that the leaf springs are each provided with radial incisions at the end. 4. Quantity regulator according to one of claims 1 to 3, characterized in that that the support surface consists of sections of different conicity. / 5. Quantity regulator according to one of claims 1 to 4, characterized in that that the support surface is arranged on an annular insert. 6. Quantity regulator according to claim 5, characterized in that one Leaf spring set optionally with one of your other inserts Support surfaces of different taper is assigned 7t flow regulator according to claim 5 or 6, characterized in that a leaf spring is optionally assigned one of several inserts with support surfaces of different inside diameters. 909844/1048 N0Ui documents (Art 711 Ab ». 2 No. 1 & * 3 *