DE19627306A1 - Stop valve with pressure limitation - Google Patents

Description

State of the art

The invention relates to a check valve according to the preamble of claim 1, which in at least one consumer channel a directional valve equipped with a longitudinal slide is arranged and blocks in the backflow direction. The consumer This is the channel on the longitudinal slide in the direction of Consumers subsequent drilling and channel system in the Ven valve housing and in the line connection.

Some of the known directional control valves also contain the like check valves in the area of the respective consumption cher connections are arranged. The check valves have the Task, a consumer leakage through the way valve on which they are attached or integrated, so low to keep as possible. Once these check valves are under pressure but are completely tight, there may be a. with hydraulic Plants that are subject to external heating, for example by sun radiation or machine waste heat, the risk of that parts of the pipe system or the valves through the ent standing overpressure can be damaged or destroyed.

This danger is usually eliminated by the fact that rigid Lines are replaced by flexible or that the foreign  heating by laying, insulating or cooling is reduced becomes.

Advantages of the invention

In the subject of the invention is in or on the body of the Check valve arranged a pressure relief valve that in Backflow direction opens. The backflow direction is Direction of the pressure medium flow from the consumer via the ent speaking valve in the tank.

In this installation position, the pressure relief valve opens the sealed off by the check valve leading to the consumer Pressure medium line, as soon as the existing pressure there the working pressure exceeded by a preset amount ten. This here when relieving the pressure medium line Released pressure medium is within the directional control valve contains the check valve with the pressure relief valve in the regular return directed. The pressure relief valve closes before the pressure in the consumer pressure medium strand has reached the required working pressure. The Pressure relief valve is set so that the required working pressure is not undercut.

The arrangement of the pressure relief valve in the body of the lock valve opens the possibility of using directional valves with a Check valve are equipped without pressure limitation and the have overpressure problems described here, afterwards with to convert the new check valves with pressure limitation.

drawings

Further details of the invention emerge from the Un claims and the following description of a scheme Embodiment shown on the table:

Fig. 1: longitudinal section of the valve by a portion of a path,

FIG. 2 shows the hydraulic circuit diagram of a directional valve with after switched shutoff valve body,

Fig. 3: bottom view and longitudinal section of the check valve body.

Description of the embodiment

Fig. 1 shows a section of a directional control valve ( 10 ) in longitudinal section. The paths of the pressure can be seen in part between a pump ( 1 ), a consumer ( 5 ) and a tank ( 2 ). The consumer ( 5 ) here according to FIG. 2 is, for example, a double-acting cylinder-piston unit, the piston of which is loaded with a load (L).

The hydraulic circuit diagram shown in Fig. 2 shows as We geventil ( 10 ) a mechanically actuated 6/3-way valve with a spring centered position. The pump ( 1 ) supplies on the one hand a check valve ( 3 ) and an inlet connection (P) to a working connection (A) and on the other hand a neutral circulation (N) or a working connection (B). The working ports (A) and (B) are relieved into a return port (R) depending on the valve position. In the middle position of the Wegeven valve ( 10 ), a throttle valve ( 36 ) is connected between the working connection (B) and the return connection (R).

At the work connections (A) and (B), the consumer lines ( 6 ) and ( 7 ) are connected, via which the cylinder-piston unit ( 5 ) is supplied. In Fig. 1 the Ventilbe is shown rich, the pressure medium flows between part of the neutral circulation, part of the return and the Arbeitsan circuit (B) or a consumer connection ( 25 ).

The valve housing cutout ( 11 ) has a Durchgangssboh tion ( 12 ) in which a longitudinal slide ( 30 ) is guided. The longitudinal slide ( 30 ) is formed at its free, right end as a tab ( 31 ) with a bore through which it is articulated mechanically by means of a lever mechanism. The lever gear, not shown, enables, among other things, an anti-rotation device for the longitudinal slide ( 30 ).

In the cutout shown, four channels ( 13 , 15-17 ) are arranged transversely to the through bore ( 12 ), which at least partially surround the longitudinal slide ( 30 ) in a ring. The left channel is a neutral circulation channel ( 13 ), which is fed by the pump ( 1 ) via an inlet line ( 14 ). The second channel from the left is an intermediate channel ( 15 ). The third channel from the left is an intermediate chamber ( 16 ) which is hydraulically connected by a check valve ( 40 ) arranged above it with a consumer connection ( 25 ). The right channel is the return channel ( 17 ) which opens into the tank ( 2 ) via a return line ( 18 ).

The longitudinal slide ( 30 ) shown in the neutral position has a constriction point ( 32 ) in the area between the intermediate channel ( 15 ) and the intermediate chamber ( 16 ), which, on the left side, approximates the diameter of the through hole ( 12 ) via a regionally conical button ( 34 ). expanded. The longitudinal slide ( 30 ) is provided with a recess ( 35 ) on both sides in the area of the intermediate channel ( 15 ) and the button ( 34 ). The recesses (35) ensuring the opening of the hydraulic connection between the neutral circulation channel (13) and the intermediate chamber (16), - that during a displacement of the longitudinal slide (30) to the left - between the channels (13) and (15) a relatively large, free flow cross section.

Opposite the button ( 34 ) of the longitudinal slide ( 30 ) is located between the intermediate chamber ( 16 ) and the Rücklaufka channel ( 17 ), a throttling leakage gap ( 36 ) which the Zwischenkam mer ( 16 ) and the return channel ( 17 ) in the neutral position of the longitudinal slide ( 30 ) hydraulically connects.

Above the button ( 34 ) is cut in the valve housing ( 11 ) in a transverse to the through hole ( 12 ) angeord Neten bore between the intermediate channel ( 15 ) and the inter mediate chamber ( 16 ) an unlocking plunger ( 65 ) is mounted for longitudinal displacement. A check valve ( 40 ) is arranged above the upper end of the unlocking plunger ( 65 ).

The check valve ( 40 ) has a check valve body ( 41 ) which is guided in a check valve bore ( 21 ) and, in the locked state, rests with its conical seat on a check valve seat ( 22 ). The check valve body ( 41 ) is pressed via a Federele element ( 58 ), which is supported on a holding plate ( 56 ), for example screwed in here, against the seat surface. The holding plate ( 56 ), held by an external thread, sits in the bottom area of the consumer connection ( 25 ). The bore of the consumer connection ( 25 ), which is provided with an internal thread, has at least two uniform recesses ( 26 ) in the region of the holding plate ( 56 ), which in some areas permit outside flow around the holding plate ( 56 ). In addition, the holding plate ( 56 ) has a plurality of bores ( 57 ) which allow the holding plate ( 56 ) to flow through.

The check valve body ( 41 ) has in its upper area a downward conical outer contour, which represents the seat surface. A valve body shaft ( 51 ) adjoins the seat surface at the bottom. The latter has a core area around which three radially projecting, rib-like guide webs ( 52-54 ) are arranged, which guide the check valve body ( 41 ) in the check valve bore ( 21 ). Between the guide bars ( 52-54 ) and the check valve bore ( 21 ), the primary pressure medium flow flows when the check valve ( 40 ) is open.

An auxiliary shut-off valve ( 60 ) is arranged in the core area of the shut-off valve body ( 41 ), cf. also Fig. 3. The blocking direction of the auxiliary check valve ( 60 ) corresponds to that of the Sperrven valve ( 40 ). An auxiliary valve body ( 61 ), which is arranged in a double stepped auxiliary valve bore ( 42 ), holds an auxiliary bore ( 43 ), inter alia when loaded by a spring element ( 63 ). The free, upper end of the unlocking plunger ( 65 ) projects into the auxiliary bore ( 43 ). On the underside of the valve body stem ( 51 ) there is a milled transverse channel ( 55 ) which is open at the bottom and which intersects the auxiliary bore ( 43 ).

The spring element ( 63 ) is supported on a disc ( 62 ) with a central bore. The disc (62) is in turn from the depressed the shutoff valve body (41) in the closed position holding spring element (58) tion to the first paragraph of Hilfsventilboh (42).

When the longitudinal slide ( 30 ) is in the neutral position at the consumer connection ( 25 ), ie on the top of the check valve body ( 41 ), the load pressure is applied. The check valve body ( 41 ) sits sealingly on the check valve seat ( 22 ) and the auxiliary valve body ( 61 ) closes the auxiliary bore ( 43 ). If the longitudinal slide ( 30 ) is now moved to the right, the button ( 34 ) moves under the unlocking plunger ( 65 ), so that it moves upwards and lifts the auxiliary valve body ( 61 ). Pressure medium flows through the auxiliary valve bore ( 42 ) and the auxiliary bore ( 43 ) from the consumer connection ( 25 ) into the intermediate chamber ( 16 ). As soon as the collar ( 66 ) of the unlocking plunger ( 65 ) rests on the bottom of the valve body stem ( 51 ), the pressure medium additionally flows via the transverse channel ( 55 ) into the intermediate chamber ( 16 ).

Since more pressure medium flows into the intermediate chamber ( 16 ) than flows through the leakage gap ( 36 ) into the return channel ( 17 ), an intermediate pressure builds up in the intermediate chamber ( 16 ), which acts against the load pressure on the check valve body ( 41 ). As a result, the check valve body ( 41 ) is largely pressure compensated, so that the unlocking plunger ( 65 ) can now raise the check valve body ( 41 ) with only a small amount of power via its collar ( 66 ).

In addition to the auxiliary valve (60) a pressure relief valve (70) in the check valve body (41) is arranged, which opens counter to the blocking direction of the check valve (40) or of the auxiliary valve (60). The moving parts of the Druckbegrenzungsven valve ( 70 ), i.e. a valve body ( 71 ), a spring element ( 75 ), a thrust washer ( 76 ) and an adjusting screw ( 77 ), are located in a valve bore ( 45 ), which is located in the guide web ( 52 ) finds. In the upper area of the check valve body ( 41 ) it merges into a narrower seat bore ( 46 ). On the shoulder to the seat bore ( 46 ) with closed pressure relief valve ( 70 ) the valve body ( 71 ) rests. The latter consists of a carrier element ( 72 ) in which a valve ball ( 73 ) is inserted. On the carrier element ( 72 ) is arranged a coil spring seat, the shaft of which tapers against the closing direction of the valve ( 70 ). The spring element ( 75 ) loading the valve body ( 71 ) in the closing direction is supported by the pressure disc ( 76 ) on an adjusting screw ( 77 ) screwed into the bottom of the blocking valve body ( 41 ). The set screw ( 77 ) is a standard grub screw with a hexagon socket. When installing the pressure relief valve ( 70 ), the adjusting screw ( 77 ) is secured after screwing in and adjusting the preload of the spring element ( 75 ) by punching or upsetting the threaded outlet on the valve body side. Of course, the adjusting screw ( 77 ) can also be fixed by gluing.

Across the valve bore ( 45 ), approximately halfway through the bore, there is a cross bore ( 48 ) in the guide web ( 52 ). At the top adjoins the seat bore ( 46 ), an inflow bore ( 47 ). It ends in the seating area of the spring element ( 58 ).

When the shut-off valve ( 40 ) is closed, the pressure in the consumer line ( 7 ) is limited with the help of the pressure limiting valve ( 70 ). The pressure relief valve ( 70 ) is set so that it opens, for example, at a pressure that is 50 _* 10⁵ Pa above the regular working pressure. The pressure medium flows through the inflow bore ( 47 ), the seat bore ( 46 ), the Ven tilbohrung ( 45 ) and the transverse bore ( 48 ) in the Zwischenkam mer ( 16 ). From there, the pressure medium flows in a known manner via the leakage gap ( 36 ) into the return channel ( 17 ) and back into the tank ( 2 ).

As soon as the pressure in the consumer line ( 7 ) has dropped by approximately 30 _* 10⁵ Pa in the described case, the pressure relief valve ( 70 ) closes again. The pressure in the consumer line ( 7 ) is still above the regular working pressure.

The circuit diagram of the pressure relief valve ( 70 ) in combination with the auxiliary shut-off valve ( 60 ) is shown in Fig. 2. The installation location and the type of installation of the Druckbegrenzungsven valve ( 70 ) has, inter alia, the advantages that it is protected from the pressure medium flow flowing to the consumer and the check valve function of the check valve ( 40 ) is not influenced.

Claims (9)

1. blocking valve, which is arranged in at least one consumer channel of a directional valve equipped with a longitudinal slide and blocks in the return flow direction, in the blocking valve body of which is seated by an auxiliary valve which also blocks in the return flow direction and is opened to discharge the consumer-side consumer via a tappet actuated by the longitudinal slide, characterized in that a pressure relief valve ( 70 ) is arranged in or on the check valve body ( 41 ) and opens in the backflow direction ( 9 ). 2. Shut-off valve according to claim 1, characterized in that it is arranged within the directional valve housing ( 11 ) in the area of a consumer connection ( 25 ). 3. shut-off valve according to claim 1, characterized in that the pressure relief valve ( 70 ) within the Sperrventilkör pers ( 41 ) is arranged in parallel next to the auxiliary valve ( 60 ). 4. shut-off valve according to claim 1, characterized in that the pressure relief valve ( 70 ) within the Sperrventilkör pers ( 41 ) as additional components comprises at least one Ventilkör by ( 71 ), a mechanical spring element ( 75 ) and a prestressing pressure relief screw ( 76 ). 5. shut-off valve according to claim 4, characterized in that the pressure limiting screw ( 76 ) can be fixed against rotation. 6. shut-off valve according to one of claims 1 to 5, characterized ge indicates that it is designed as a seat valve. 7. Check valve according to one of claims 1 to 6, characterized in that the check valve body ( 41 ) has a on a check valve seat ( 22 ) resting valve cone on which radially to its ( 41 ) longitudinal axis guide webs ( 52-54 ) arranged are. 8. shut-off valve according to claim 7, characterized in that one of the guide webs ( 52 ) - seen in the circumferential direction - is wider than the other guide webs ( 53 , 54 ) and the valve bore ( 45 ) for the pressure relief valve ( 70 ) receives. 9. Check valve according to claim 8, characterized in that the seat bore ( 46 ) of the pressure relief valve ( 70 ) is in the check valve body ( 41 ).