JPS5828065A - Multiposition valve unit - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention provides a multi-purpose valve having a closing body movable between two spaced apart valve seats and each having a closing body configured to alternately close one valve seat. Regarding a position valve unit. A valve unit of this type is known from German Patent Application No. 1.43069 Saimei #1 Tatami. This type of valve unit is designed to be completely integrated into the housing; however, it does not require any pre-adjustment. This is because the distance between both valve seats does not matter. The spherical closure automatically reciprocates between both valve seats. In this case, the length of the valve stroke is not taken into account.

If adjustment is required in this type of valve, the adjustment can only be made by adjusting each part separately. This is expensive. This also applies if the valve part is adjusted by one actuating member.

Furthermore, if valve units of this type are constructed small, for example as so-called miniature valves, these valve units become extremely sensitive to dirt. In this case a filter is usually installed in the supply conduit to the valve unit.

However, the 2-j router cannot prevent so-called floating dust from interfering with the valve function.

In contrast, the multi-position valve unit of the present invention having the features set forth in claim 1 has the following advantages. That is, assembly, adjustment, and inspection are limited to the valve unit. All important functions of the valve, especially the valve stroke, can be taken into account during assembly. Additionally, it is important to inspect this valve. In the case of testing, all functional data of the valve can be tested, such as, for example, the sealing properties of the valve seat or the flow rate.

The small design of this valve allows filters to be placed both at the inlet and at the outlet to the connecting conduit. These two types have the advantage that the volume fraction containing floating dirt is extremely small. Finally, the attachment to the connecting member is extremely inexpensive.

Moreover, such small valve units are also suitable for transport.

Several embodiments of the invention will now be described in detail with reference to the drawings. The valve unit) 1 has two valve seats 2゜3, one valve seat 2 is provided inside the hat-shaped casing 4, and the other valve seat 3 is provided inside the hat-shaped casing 4 downward. It is provided in the bottom part 5 which closes with.

The casing 4 has an internal chamber 6 in which a spherical closing body 7, a spring receiver 8 engaging the bottom (5) of this closing body 7, and a spring acting on this closing body 7 are arranged. 9
and a sleeve-shaped filter cylinder 1o are arranged.

The second valve seat 3 is likewise located within the interior chamber 6. The valve seat 3 is formed at the inner end of the hollow pin 11. This hollow pin 11 is integrally molded with the bottom part 5. This bottom part 5 has an edge 12 with which it is inserted into a hole extension 13 of the interior chamber 6 . This bottom 5
is fixed to the casing 4 by three ears 14 cut out from the wall of the edge 12 and distributed at regular intervals around the outer circumference. A cylindrical filter 16 is inserted into a notch 15 provided on the lower side of the casing 4. The housing 4 is cylindrical on the outside and has a further ring-shaped recess 17 on the outside. This notch 7 is connected to the interior chamber 6 via a radial hole 1B. By means of this cutout 17, two guiding regions 19,20 having the same diameter are formed in the outer wall of the housing 4. These guide nodes (6) surrounds 19,20 form a mating surface that seals and holds the casing 4 when it is installed in the bore.

Via a radial bore 18 the interior chamber 6 is connected to a consumable conduit 21 . The lower side of the casing 4 is the conduit 2 from the pump.
2 and the upper side is connected to a load reduction conduit 23.

When the valve unit 1 is assembled, all important functional parameters such as the configuration of the valve seat, the design of the closure body, the valve stroke are adjusted and checked. After the valve unit is installed, the sealing properties and flow rate must be checked above all. The filter 16 and the filter tube 10 provided at the inlet and outlet can be easily used, especially because of the small dimensions of the valve unit 1. This is because the proportion of floating dirt is extremely small.

In the embodiment of the invention according to FIG. 1, the individual parts are connected by ears 14. In the embodiment of the invention according to FIG.

In the valve unit 24 of the embodiment according to FIG.
27 at each end. In this embodiment, the metal valve casing consists of three parts: a lid 28, a middle part 29 and a bottom part 30. The lid 28 and the bottom 30 hold the valve seat 2 or 3. The rest of the structure and mode of operation substantially correspond to those of the embodiment according to FIG.

In the valve unit 3 shown in FIG.
is fixed to the intermediate part 34 by a ring-shaped gripping edge 33;
The intermediate part 34 is fixed to the bottom part 36 with a ring-shaped gripping edge 35 . The rest of the structure and mode of operation substantially correspond to those of the embodiment according to FIGS. 1 and 2. Filter tube 10 and filter 16 are mounted in the same way as in the embodiment according to FIG.

All three valve units 1, 24 and 31 are provided for use as three-point and two-position directional control valves. It is clear that these valve units can also be used as 2-point, 2-position directional control valves or 3-point, 3-position directional control valves.

A push rod 37 is provided for manipulating the spherical closure body 7 between the two valve seats 2 and 3.

This push rod 37 passes through the valve seat 2 from the outside and into the valve unit) 1
, 24.31 and there a spherical closure 7
It acts on

The valve units 1, 24 and 31 are applied to a skid control device. This is because skid control systems particularly require precisely switched valve systems.

[Brief explanation of the drawing]

FIG. 1 shows a first embodiment of the present invention in which the multi-position valve unit has a metal casing and two filters, and FIG. 2 shows a second embodiment in which the multi-position valve unit has a filter casing. FIG. 3 shows a third embodiment having a metal casing made of three members. 1, 24, 31... Valve unit, 2, 3... Valve seat, (
9) 4...Casing, 5, 30.36...Bottom, 6...
Inner chamber, 7...Closing body, 8...Spring receiver, 9...Spring, 10...Filter tube, 1]...Hollow pin, 12...
...Edge, 13... Foramen expansion part, 14... Ear-like piece, 1
5.17 Notch, 16 Filter, 18 Radial hole, 19.20 Guide range, 21 Consumption conduit, 22 Conduit, 23 Load reduction conduit, 2
5...Exhaust filter, 26.27.33.35...
Ring-shaped gripping edge, 28.32...lid, 29.34
...Middle part, 37...Pushing rod. (10)

Claims (1)

[Claims] 1. Multi-position with a closing body movable between two valve seats arranged at a distance from each other and each configured to alternately close one valve seat. Valve unit, separate component (4, 12; 28, 30: 32
, 36) is adjusted before assembling the valve unit (1, 24, 31), and the closing body (7) is involved in this adjustment. A multi-position valve unit characterized by: 2. Multi-position valve unit according to claim 1, wherein the closing body (7) is a ball. 3. Multiposition valve unit according to claim 1 or 2, in which at least one filter (10, 16, 25) is integrated into these valve units (1, 24, 31). 4 Casing part of this valve unit (4, 12; 28
．． 30; 32, 36) are connected with a frictional or form-fitting connection. 5. Multi-position valve unit according to claim 4, wherein the filter (25) is constructed as a casing part and is fully connected to the valve unit parts. 6. The valve unit is used as a two-point two-position directional control valve, and one conduit (23, 22) is connected to each valve seat (2, 3). The multi-position valve unit according to any one of items 1 to 5. 7. This valve unit is used as a 3-point 2-position directional control valve, and one conduit is connected to each valve seat (2, 3) and the valve inner chamber (6), A multi-position valve unit according to any one of claims 1 to 5. 8 This valve unit is used as a 3-point 3-position directional control valve, and one conduit is connected to each valve seat (2'+3) and the valve inner chamber (6), Multi-position valve according to any one of claims 1 to 5, wherein the body (7) can assume an intermediate position between its two valve seats (2, 3). unit.