DE3417383A1 - Flow control valve - Google Patents

Abstract

Flow control valve with tank, consumer and system-pressure connections which are arranged in a housing and are opened and closed by a piston, the piston preferably being operable by a proportional magnet, characterised in that, to realise a three-way flow controller capable of working in both directions, the following is provided: the piston has three sections which define connection sections, the first connection section is connected to the tank and the second connection is connected to the system pressure, the third connection section is connected via an orifice to the consumer, the connection section is connected to the piston space formed at one end of the piston, the consumer is connected via a restrictor to a space formed at the other end of the piston.

Description

Flow control valve

The invention relates to a flow control valve, in particular on a three-way flow control valve.

Three-way flow control valves are already known. Let us refer to the following Reference reference: Catalog sheet RE 28862 from Mannesmanrr-Rexroth GmbH, 8770 Lohr, West Germany This well-known three-way flow control valve allows the Pump delivery only against the respective working pressure in one direction. A regulated one The consumer cannot return to the tank. There are also two movable ones Elements, a pressure compensator and an adjustable diaphragm are provided.

It is also already a two-way flow control valve - but not one Three-way flow control valve - known in which a proportional solenoid controls a control piston actuated. The pressure in front of a fixed orifice is applied to the control piston returned.

The present invention is based on the object of a three-way flow control valve to provide which both the inflow and the outflow to and from the consumer can be regulated regardless of the pressure applied. To solve this problem looks the invention provides the measures specified in the independent claims.

According to a preferred embodiment of the invention, the three-way valve designed in cartridge design, as shown in FIG. It will dispensed with a pressure balance, so that an inexpensive and easy to manufacture Three-way flow control valve results.

Further advantages, objects and details of the invention result from the description of exemplary embodiments with reference to the drawing; in the drawing 1 shows a schematic representation of an exemplary embodiment in one first operating state; FIG. 2 shows a symbolic representation of FIG. 1; Fig. 3 that Embodiment according to FIG. 1 in a second operating state; Fig. 4 the associated Circuit symbol; 5 shows a longitudinal section through a preferred embodiment the invention; and FIG. 6 shows the ideal mode of operation aimed at according to the invention of the flow control valve according to the invention.

FIGS. 1 to 4 schematically illustrate a first exemplary embodiment a three-way flow control valve 100 designed according to the invention. The second exemplary embodiment of a flow control valve shown in FIG. 5 is denoted by 200. 6 shows the control current i supplied to a proportional magnet 9 as a function of the proportional magnet 9 the required working characteristic I -II of the flow control valve 100 or 200. Same for i A maximum amount of oil should flow from P to A at zero. For i equal to i, a maximum should be flow of oil (pressure medium) from A to T max. For intermediate values of i, the Oil quantities illustrated in FIG. 6 flow from P to A or from A to T.

First of all, the exemplary embodiment according to FIGS. 1 and 3 will be discussed.

Fig. 1 shows the case that a maximum amount of pressure medium of P flows to A (point I in Fig. 6). Fig. 3 shows the case that pressure medium from A flows to T (point II in Fig. 6).

In a housing indicated at 10, 29 is in a longitudinal bore a piston 20 is arranged to be reciprocable. The piston 20 points to both of them Each end of a section 21 or 23, and one in its central part Control section 22. The control section 22 operates with two control edges 41, 42 together, which are formed in the housing 10.

A connection section is located between the two sections 21, 22 24 and between the control section 22 and the section 23 is a connection section 26th

At the outer end of the section 21, a connection section 27 is provided and at the outer end of the control section 23, a connection section 28 is provided. The piston 20 is by means of a biasing spring 16 against the plunger 19 of a proportional magnet 9 preloaded. The plunger 19 engages the section 21 via a piston head 12. The spring 16 sits in the space formed by the connection section 27. A consumer connection 33, a pump connection 31 and a tank connection 32 are provided. Consumer, The pump and tank are labeled A, P and T. The consumer connection 33 is up Via a diaphragm 13 with a connection section 25 in connection. The connecting section 25 is in turn connected to the connection section 27 via a channel 34. The consumer connection 33 is also connected to the connection section via a throttle 14 28 in connection. The pump connection 31 is connected to the connection section 26. Finally, the tank connection 32 is connected to the connection section 24.

As mentioned, the case is shown in Fig. 1, where the proportional magnet 9 is not excited. That is, the spring 16 presses the piston 20 in the Position shown, so that the pump pressure reaches consumer A and at the same time pending in connection section 26. If the proportional magnet 9 becomes larger with a current Zero, but still excited in the area to the left of the dashed line in Fig. 6, so the piston 20 moves in Fig. 1 to the right and thereby causes a certain Throttling between the control section 22 and the associated control edge 42. This As a result, a smaller amount of pressurized oil is now supplied to consumer A. will.

With further control of the proportional magnet 9 with higher currents the case is finally reached where, in the middle position of the piston 20, all connections are locked. It is useful to have the valve 100 or 200 with a lower shortfall L 'ab) to perform.

If the proportional solenoid is further activated (area right from the dashed line in Fig. 6) finally the connection P to A kept completely closed and the connection from A to T is opened (see Fig. 3). In both cases, the effect of the result on the diaphragm 13 is Flow resistance returned to the piston.

According to the invention, the dynamic pressure helps with the flow from P to A. the diaphragm 13 in the closing direction, so it acts against the compression spring 16 in the same direction as the proportional magnet 9. On the other hand, when there is flow from A to T the dynamic pressure acts on the diaphragm 13 in the same direction as the compression spring 16 in the closing direction, that is, against the proportional magnet 9.

Fluctuations in the pump pressure also change the dynamic pressure at the orifice 13. By returning the pressure difference to the two front sides of the piston 20 by changes to the opening cross-section between Control section 22 and control edge 41 and 42 flow changes at the consumer connection 33 eliminated.

It has been shown that in both directions of flow in the invention Valve gives excellent flow control, i.e. the flow behaves proportional to the electrical signal input into the proportional magnet 9 regardless of the system pressure.

Fig. 5 shows in section a further embodiment of an inventive Flow control valve 200, where largely the same reference numerals in the description thereof as in the valve 100 according to FIGS. 1, 3 can be used. During the proportional solenoid 9 is shown partially in longitudinal section, the valve housing 10, which is shown in FIG Shape of a sleeve is formed, shown in a 900 section pointing to a Level was expanded. That means the connection hole 31 for the pump and the connection hole 32 for the tank T are also exactly opposite each other corresponding holes (not shown). The diaphragm 13 together with the coaxial arranged longitudinal bore 34 up to the spring chamber 37 is also available twice. The hole forming the connection section 25 under a closure screw 5 is drilled through and closed with another screw (not shown): alternatively the hole is not drilled through, so that only one screw 5 is required. This inventive design, it is possible to use the valve 200 in cartridge or plug-in design with high performance and current control properties.

The flow control valve 200 according to the invention essentially has a elongated housing (sleeve) 10, in which the longitudinal bore 29 runs in the middle. On the housing 10 is on the side facing the magnet 9 as a magnet closure serving plate 40 is formed.

The longitudinal bore 29 widens in the area of the plate 40 to one Spring space 37, which also serves as a connection section 27 at the same time. In the longitudinal bore 29, as in the first embodiment, a piston 20 is movable to and fro arranged. The piston 20 is biased by a compression spring 16, against a plunger 19 of the proportional magnet 9. A piston head 12 is seated on the one facing the plunger 19 pointing end of the piston 20. The piston head 12 also serves as a support the spring 16, which is supported on the other hand on the bottom of the spring chamber 37.

The piston 20 has three sections 21, 22, 23. Between tax section 22 and section 23 is formed a connection section 26, and between section 22 and control section 21, a connection section 24 is formed. Adjacent to outer end of the section 23, a connection section 28 is defined. Opposite for this purpose, the already mentioned connection section 27 is adjacent to section 21.

For the connection section 24 preferably two already mentioned Connection bores 32 establish the connection, the latter being connectable to the tank T. are. To the connection section 26 also provide two in turn radially extending Connection bores 31 for connection to a pump P, for example.

In the outwardly facing end of the longitudinal bore 29 is a screw plug 4, which forms a throttle 14. To the outside of the screw plug 4 then a connection 33, in particular for consumer A, is provided.

Parallel but offset radially outwards to the centrally arranged longitudinal bore 29 runs at least one longitudinal bore 34 - but, as already mentioned, preferably two longitudinal holes 34 - for the purpose of connecting the Spring space 37 or the connection section 27 with the consumer connection 33 below Interposition of a diaphragm 13 formed in a screw plug 3 is. The screw plug 3 is screwed into the outer end of the longitudinal bore 34.

As already mentioned, two longitudinal bores 34 are expediently and also two locking screws 3 each with a cover 13 is provided.

A bore 39 in the wall of the housing 1 is provided with a screw plug 5 locked. The bore 39 is used to form a connecting bore between the longitudinal bore 34 and the longitudinal bore 29. The bore 39 defines control edges for cooperation with the corresponding control edges of the control section 22.

The operation of the embodiment according to FIG. 5 is similar that of FIGS. 1, 2 and 3, so that a more detailed description is dispensed with here can.

The three-way current regulator 100 or 200 according to the invention therefore does not see only a regulated inflow to consumer A, but also its regulated outflow from A to T forward. This function is not available with conventional three-way current regulators realizable.

According to the invention, this is achieved by the two control edges 41, 42, which cooperate with a corresponding piston section (piston section 22). The piston 20 is thereby caused by the differential pressure at orifice 13, which acts on the piston 20 is returned, regulated.

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Claims (12)

Claims 1. Flow control valve arranged in a housing Tank, consumer and system pressure connections (T or A or P), which are opened and closed by a piston, the Piston is preferably actuatable by a proportional magnet, thereby g e k e n n n z e i n e t that for the realization of a work in both directions Three-way flow regulator, the following is provided: the piston (20) has three sections (21, 22, 23) defining terminal sections (24, 25, 26), the first terminal section (24) is in communication with the tank T and the second connection section (26) is in communication with the system pressure P in connection, the third connection section (25) protrudes a diaphragm (13) with the consumer A in connection, the connection section (25) is in communication with the piston space formed at one end of the piston (20), consumer A is connected to a throttle (14) with one at the other end of the piston (20) formed space in connection. 2. Flow control valve according to claim 1, characterized in that g e k e n n -z e i c h n e t that a proportional magnet with its plunger (19) on the piston end in the Terminal space (27) acts. 3. Flow control valve according to one or more of the preceding claims, as a result, there is a preload spring (16) for the preload of the piston (20) engages against the plunger (19) on a piston head (12). 4. Flow control valve according to claim 3, characterized in that g e -k e n n z e i c h n e t that the biasing spring (16) for the biasing of the piston (20) against the plunger (19) at the opposite end of the piston in the space (28) on the piston (20) attacks. 5. Flow control valve according to one or more of the preceding claims, in that the spring (16) between the housing (10) of the valve and the piston head (12) engages. 6. Flow control valve according to one or more of the preceding claims, in that the throttle (14) is formed in a screw (4) which is seated in the piston end connection (28). 7. Flow control valve according to one or more of the preceding claims, in that the diaphragm (13) is formed in a screw (3) is, which sits at the end of the coaxial longitudinal bore (34). 8. Flow control valve according to one or more of the preceding claims, in that it is designed as a screw-in or plug-in valve and all orifices and connecting lines run within the valve body. (Fig. 5). 9. Flow control valve according to one or more of the preceding claims, in that two control edges (41, 42) are provided. 10. Flow control valve according to claim 9, characterized in that g e k e n n z e i c h n e t that the shape of the control edges (41, 42) is adapted so that proportionality between the electrical signal and the flow current. 11. Flow control valve according to one or more of the preceding claims, as a result, the control edges (41, 42) are shown in a simplified manner Shape can be formed by control bores. 12. Three-way flow control valve, g e k e n n n z e i c h n e t by a Electromagnetically adjustable three-way measuring orifice that is controlled by differential pressure feedback a fixed diaphragm is corrected in such a way that the inflow and outflow of a consumer A largely proportional to an electrical input signal from the proportional solenoid (9), regardless of the pressure applied to consumer A.