DE1548932B2 - Flow rate regulator - Google Patents

Description

1 2

The invention relates to a flow-through quantity, the bent-away ends of the regulator in which a leaf spring loaded by the flow pressure is at a different distance from the ring leaf spring set is supported against an annular surface that has a surface. At low pressures only works a passage opening is connected upstream and a spring, which is flat, for example, is upstream. With stronger ones preferably a funnel-shaped 5 press in the direction of flow, a second spring is narrowed slightly, bending effective. With very strong pressures comes

In a known construction of this type, a third spring to rest on the annular surface are where level Leaf springs are provided, which results in an even more rigid overall spring, etc. Pressure of the liquid against a conical support It is recommended that the leaf springs be attached create a surface and thus have radial incisions depending on the io .den free ends. Pressure the free flow cross-section ■ more or These cuts become in. With increasing pressure decrease less. Such quantity regulators have increasingly dispensed through the support surface the disadvantage that they only closed within a small area and therefore act as a standard cross-section. Pressure range to keep the flow rate constant. Furthermore, the ring surface can pray in itself capital. In addition, one needs to be designed as a conical surface for each known manner, and Desired flow rate a special regulator con - this conical surface can be divided into sections, different construction, be subdivided in particular with different leaf conicity. Achieved by this springs must be used. one further adjustment to a desired one

A flow rate regulator is also known, depending on the flow rate and pressure. in the case of a barrier 2 ° on the underside of a tube, it is particularly advantageous if the annular is permanently installed, so that a flow insert and the leaf spring set are each arranged for themselves opening remains. There is a flap in front of the barrier. This has the advantage that the characteristic pivotally suspended, which against the force of the flow regulator also still on the built-in spring from the flow pressure in the direction of the place can be changed so that one still can The flow opening can be pivoted and therefore the conditions prevailing there retrospectively caused by a throttling effect. Here can be adjusted.

the solid barrier is the shape of a bent sheet metal. The invention is described below with reference to an in

Obtained, the flap with a curved throttle of the drawing illustrated embodiment

be provided continuation and the single spring explained in more detail. It shows

Set of successively effective springs to be replaced. 3 ° F i g. 1 a longitudinal section through an embodiment

This arrangement has a complicated structure. example of the invention,

Then a construction is known in which in FIG. 2 a top view of the used sheet

a conically tapering channel a centrally springing,

held, rubber-elastic disk is provided, F i g. 3 is a top view of these springs in FIG

which under the pressure of the inflowing liquid 35 F i g. 1 and

deformed speed in the direction of the conical surface and F i g. 4 to 7 different options to be used

this reduces the flow cross-section. Also the missions.

This can only be done within a small pressure. In a housing 1 are a bore 2 and a

keep the flow rate constant. extended hole 3 provided between them

The invention is based on the object of forming a 4 ° step 4. At this stage there is a given flow rate regulator the one described above if with the interposition of spacer rings 5, a Specify type, which despite the simple structure has an annular insert 6, which has a conical ring has a constant liquid surface 7 in a larger pressure area. This is followed by a leaf spring set 8, the amount of keits, lets through and easily different- 'with the help of a snap ring 9 in place borrowed constant flow rates aripassbar. 45 is held.

According to the invention, this object is thereby achieved. The leaf spring set 8 consists of three, one by one solves that the passage opening and the annular surface are connected to each other by a square rivet 10 sheets annular insert are formed and that springs 11, 12 and 13 made of stainless spring steel, a part of the leaf springs of the leaf spring set in the un- · The spring 11 is flat in the idle state, the spring 12 loaded condition with its ends on the ring 50 is resting with its two ends against the flow surface, while the ends of the remaining leaf direction are bent, the spring 13 has a co-spring are bent away from the ring surface. moderate curvature, so that their ends form a

With this construction one obtains in a simple, even greater distance from the annular surface 7 besit-way, namely only by a different zen than the ends of the spring 12. All springs beAusgestaltung the already existing leaf springs 55 sit at their ends in each case radial incisions 14th a progressive spring characteristic, with the aid of which it is possible, when liquid is supplied at low pressure, to obtain an approximately constant amount of liquid, initially only the leaf spring 11 has to be maintained over a large pressure range. a throttling of the cross-section effective. Since the passage opening and the ring surface are used as the use of stronger pressure, the spring 12 is also formed on which, for a large number of ^6o ring surface 7, one can make contact. As a result, the different flow rates change the same spring characteristic. If the pressure is even higher, the housing and the same optimally designed leaf will finally also use the spring 13 by placing it on the spring set; the desired flow rate ring surface 7 effective. It is therefore possible to have, by choice of an insert with certain a wide pressure range (see the form of the annular surface, size of transit ⁶ 5 that a constant flow rate to opening), the throttle opening so einKenndaten be adjusted. Let this result.

There are also considerable rationalization successes in the In fig. 4 to 7 are four different ring

Achieve manufacturing. shaped inserts 6 a, 6 b, 6 c and 6d shown, the

can interact with the same leaf spring set 8 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. As can be seen from the different inner diameters 15 a, ISb, 15 c and 15 d , annular surfaces of different radial extent are used.

Claims (4)

Claims: 10 1. Flow rate regulator, in which a set of leaf springs loaded by the flow pressure supported against an annular surface which is connected upstream of a passage opening and preferably narrows in the form of a funnel in the direction of flow, characterized in that the passage opening and annular surface (7) are formed by an annular insert (6) and that a Part of the leaf springs of the leaf spring set (68) in the unloaded state with their ends on the Ring surface rests, while the ends of the remaining leaf springs are bent away from the ring surface (7) are. 2. Quantity regulator according to claim 1, characterized in that the leaf springs (11, 12, 13) have radial incisions (14) at the free ends. 3. Quantity regulator according to claim 1 or 2, characterized in that the annular surface (7) is designed in a manner known per se as a conical surface and that this conical surface in sections {lib, 72b; lld, lld) is divided into different conicity. 4. Flow regulator according to one of claims 1 to 3, characterized in that the annular insert (6) and the leaf spring set (8) each for are arranged interchangeably. 1 sheet of drawings