DE1750347A1 - Directional control valve - Google Patents

Description

W e g e v e n t i 1 The invention relates to a three-position four-way valve .to control a hydraulic one working on both sides with the same volume Consumer, in particular a hydraulic motor, with a pump connection, a return connection, two connections leading to the consumer and a control spool, which is in the middle position closes the consumer connections and a connection between pump and return produces and in its two end positions the pump with one and the return connects to the other consumer connection or vice versa. Directional control valves of this type are used to connect the connections of a hydraulic motor, e.g. an oil motor, Apply pressure so that the motor is set in motion. When closing the Directional control valve, the hydraulic motor is moved further by the inertia of the masses, see above that in one connection an overpressure and the other connection an @ underpressure is being built. The overpressure is theoretically infinitely large and leads in practice to destroy the hydraulic motor or the hydraulic system between the directional control valve and engine.

The invention aims to eliminate this deficiency and a three-position four-way valve of the type mentioned at the beginning, in which the occurrence of impermissibly high Pressing is avoided and at the same time still occurring leakage losses on the hydraulic motor can be added. The valve should be of compact and plataoparendem construction, one enable simple manufacture and still work extremely reliably. For this the invention provides that the consumer connections in the valve housing connecting cross-connection is provided, which by a on a predetermined The safety valve responding to the absolute differential pressure is shut off.

A preferred embodiment provides that the safety valve has two closure members lying next to one another during normal operation and blocking the cross connection, of which the closure member with its side facing the consumer connection under the pressure of the medium in the connection kenal and with its annular surface under the pressure of the medium in the connection channel stands and stands with its rear side under the opposite effect of a spring exerting a storage force. The embodiment can preferably be such that the movable closure member has two effective surfaces, one of which (F 1 ) seals on the fixed closure member and the other (F2) seals towards the spring chamber. The two effective areas (F 1 or F2-F1) are of equal size, so that if the pressure set by means of the spring force is exceeded, the safety valve opens and, depending on / from which side the pressure is introduced, allows the medium to flow from one consumer connection to the other .

Preferably, the design is such that the first closure member in the Area immediately before the cross-connection and the connecting duct meet is arranged by the consumer, while the second closure member in the transverse to Connection channel from the consumer and part lying immediately in front of its confluence the cross connection and an axial extension going beyond this point of confluence this cross connection is arranged back and forth schieblch. One A particularly space-saving design is achieved in that the closure members are arranged coaxially to one another and to the cross connection.

Another embodiment provides that the spring in a room is housed, which is connected to the return path inside the valve housing communicating with a channel.

Preferably, the design is such that the safety valve on one end of the cross connection is arranged, and that the cross connection facing Closure member has the shape of a ring, while the second closure member is designed as a piston on the face facing it the first Closing member representing ring rests and opposite this surface with a annular edge area protruding on all sides.

About the leakage that may occur when the safety valve is triggered to be continuously supplemented, provides a particularly preferred embodiment of the invention before that between the return and the connection channel leading to the consumer Channel is arranged in which a suction valve is switched and which is normally is closed, but opens in the case of a negative pressure in the connection channel, so that Hydraulic medium can flow from the return to the hydraulic motor. So that the complement the leakage losses also during operation of the hydraulic motor in the opposite direction Direction is effective, the same suction valve is also on the other consumer side connected.

A particularly clear and space-saving structure connected with a simple production is achieved that the safety valve and the two suction valves are arranged in the same plane.

Another preferred embodiment provides that the control slide the cross connection and the safety valve lie in one plane.

In the drawing, an embodiment of the counter star is the Invention illustrated; They show: FIG. 1 the directional control valve in a section along a line A-A in Figure 2, Figure 2 is a section along line H-R in Figure 1, Figure 3 is a section according to line 0-C in Figure 1 and Figure 4, the basic circuit diagram for that in the figures 1 to 3 directional control valve shown.

The directional control valve shown in the drawing is contained in a housing 1 a pump connection 2 for the medium coming under pressure from the pump, two to and from the consumer, preferably a hydraulic motor 44, leading connections 3 and. 4, a return connection 5 for the return tank 5a flowing medium and one in the valve housing 1 adjustable in both directions Control slide 6, which, depending on its position, the individual connections through between These connections extending channels connects with one another or separates them from one another. This spool is at one end at? led out of the valve housing 1, to be operated by a hand lever, for example, by means of a fork attached to an eyelet 6a to become. At its other end, the spool 6 is under the action of a Spring 8 which is supported on a cover 9 attached to the housing 1. To now one to avoid excessive pressure build-up or a vacuum caused by the hydraulic motor 44 running on, is according to the invention between the terminal 3 leading to the consumer and the terminal 4 a cross connection 10 is provided, normally from a safety valve 11 is shut off, which opens when the pressure in the connection channels 3 or 12 the The sum of the spring force and pressure exceeds what will be explained below.

The safety valve 11 is constructed in such a way that at the point where the cross-connection 10 joins the channel 12, two closure members 14, 15 are provided in normal operation and thereby shut off the passage from the connection channel 12 to the cross-connection 10. The first closure member 14 is arranged in the area immediately before the cross connection 10 meets the connection channel 12 from the consumer, while the second closure member 15 is displaceable back and forth across the connection channel 12 in an axial extension 17 '' (Fig. 2) extending beyond this junction point is arranged. Both closure members 14, 15 are coaxial with one another and with the cross connection 10. The spring 16 is accommodated in a space 56 which is in communication with the return path within the valve housing, as can be seen at 18.

Of the two closure members 14, 1 5 of the safety valve 11, which faces the interconnect closure member 14 has the shape of a ring, while the second closure member 15 is formed as a piston which on the side facing end face of the first closure member 14 dar-.stellenden ring rests and protrudes from this surface with an annular edge area on all sides. The safety valve 11 is double-acting, ie it only speaks to the absolute differential pressure. It therefore opens both when there is overpressure at connection 3 and when there is an overpressure of the same magnitude at connection 4. In FIG. 1, the control slide 6 of the valve is in the middle i @. or starting position shown, lder the hydraulic medium from 2 to 34, 35 to 5 rotates without pressure.

When the hydraulic motor 44 connected at 3 and 4 is to start, will E.g. the control slide moved to the left until the newspaper section 33 with the connection channel 13 is connected to the consumer while the connection between the circulation line sections 34, 35 is interrupted. In addition, through this movement of the control slide 6 of the exclusion channel 12 from the consumer with the Return line section 18, 36 brought into connection.

In this slide position, the hydraulic medium flows from the pump connection 2 via a check valve 37 into the line section 33, from which it reaches the connection channel 13 and connection 3 via the control slide path. On the return side, the hydraulic medium flows from connection 4 via channel 12 and the control slide path to return line section 36, and from here via a channel (not shown) to return connection 5 and into return tank 5a. When the control slide 6 is shifted to the right, the reverse applies, that is, the connection 4 is under pressure, while the connection 3 is on the return 5. If now the control slide 6 from one of its end positions returned to the starting position shown in FIG is, the two circulation line sections 34, -35 are again connected, so that the hydraulic pump from the pump 2 medium can flow directly to the return connection 5. As a result Due to the inertia, however, the piston or rotor moves of the hydraulic motor a bit in the previous direction further what. in the connection channel 'i3 a negative pressure and in the Anzchlußkanal 'f2 an overpressure is generated because the pump in the channel 13 can not deliver. Now that speaks Safety valve 1.1 on, so that through. the contrast of the two closure members 14 and 15 hydraulic medium from Connection channel 12 through the cross connection 10 to the connection channel 13 can flow. The valve according to the invention: has to compensate for Zeck- Losses: also.a channel 40, which connects the connection channel 13 connects to the consumer with the return 5. The passage however, this channel 40 is normally from one to the other Connection line to opening post-suction valve 41 shut off, that the: transfer of hydraulic fluid from the return 5 in the connection to the consumer to the. Compensation of the rear Losses allowed. The Anachlußka. 12 from the consumer is also with the return tank 5a -over a channel 42 ud a post-eye valve 43 in connection, which is used for connection channel can open and allows the passage of hydraulic medium from the return tank 5a into the connection channel 12 from the consumer to compensate for the leakage losses.

The pressure chamber 57, into which the pump connection 2 opens directly, stands with the return tank 5a via a pressure relief valve for pump protection serving pressure relief valve 59 in connection, which opens towards the return 5. To the drawing are the safety valve 11, the suction valves 41, 42 and the Cross connection 10 in the plane of FIG. 2. The valves 37 and 59 are also located in one plane. namely in that of FIG. 3.

The particularly useful assignment of the individual parts t7 .es according to the invention The valve according to FIGS. 1 to 3 is particularly useful for solving the object of the invention expedient, because this makes it space-saving, functionally reliable and, nevertheless, economical manufacturable structure is achieved.

The one through the Yig. 1 to 3 illustrated special allocation of the individual elements of the valve according to the invention therefore has a special significance.

Claims (1)

Patent claims 1. Three-position four-way valve to control an open both sides with the same volume of hydraulic electrical consumer, in particular a hydraulic motor, with a pump connection, a return connection, two connections leading to the consumer and a control slide, "which in the middle position the consumer connections shut off and a connection between pump and return and in its two end positions the pump with one and the return with the other consumer connection or vice versa, thereby g'e - ke -, m - n indicates that in the valve housing (1) a cross connecting the consumer connections (3, 4) connection (10) is provided, which by an on respond to a predetermined absolute differential pressure the safety valve (11) is shut off. 2Valve according to claim 1, characterized in - net that the safety valve (11) two normally drove adjacent and the cross connection (10) locking closure members (14, 15), of which the closure member ('! 5): #_ t its the consumer connection (13) facing side (01) under the pressure of the medium in the connection channel (13) 0 and with its singing surface (F2- F1) under the pressure of the medium in the connection channel (12) and with its rear side is under the opposite action of a spring (16) exerting a storage force. 3. Valve according to claim 2, characterized in that the first closure member (14) in the area immediately before the meeting of the cross connection (10) with the connection channel (12) is arranged by the consumer, while the second closure member (15) is in the is arranged transversely to the connection channel (12) by the consumer and directly in front of its confluence of the cross connection (10) and an axial extension (1'7) of this cross connection extending beyond this confluence. 4. Valve according to one of claims 2 to 3, characterized in that the closure members (14, 15) are arranged coaxially to one another and to the cross connection (10). 5. Valve according to one of claims 2 to 4, characterized in that the spring (16) is housed in a space (56) which is in communication with the return path within the valve housing (1) via a channel (18). 6. Valve according to one of claims -2 to 5, characterized in that the safety valve (11) on. one end of the cross-connection (10) is arranged, and that the cross-connection (10) facing closure member (14) has the shape of a ring, while the second closure member (15) is designed as a piston, which is on the facing face of the first locking member (14-) representing ring rests and protrudes from this surface with an annular edge area on all sides. ?: Valve according to one of the preceding claims, characterized in that a channel (4Q) is arranged between the return (5) and the outlet channel (13) leading to the consumer, in which a suction valve (41) is switched on, which is normally closed and in the event of a negative pressure in the connection channel (13) opens so that hydraulic medium can flow in from the return :. B. Valve according to claim? -, characterized in that - net, da13 also Via, the connection coming from the consumer channel (12). to the return channel (42) with a Nachesugventil (43) is provided. 9. Valve according to claim 7 and 8, characterized in that the safety valve (11) and the two suction valves (41, 42) are arranged in the same plane (Fig. 2). 10. Valve according to one of the preceding claims, characterized in that between the Fumpenanachluß (2) and the inlet channel (33) to the control slide (6), a check valve (37) is connected, which only at a certain pressure at the pump connection (2 ) opens. 11.Ventil according to one of the preceding claims, characterized gekennzeic hn et that the pressure chamber (57) adjoining the pump connection (2) with the return (5) via a pressure relief valve serving to protect the pump from the pressure relief valve. (59), which opens to the return (5), is in communication. 12. Valve according to claim 10 and 11, characterized in that the check valve (37) and the pressure relief valve (59) lie in one plane (Fig. 3). 13. Valve according to one of the preceding claims, characterized in n. E t in that the housing in Groning casting method is prepared.