DE19947199A1 - Facility for controlling and monitoring pressure in a hydraulic consumer uses a pressure reducer to adjust a pressure set value and a pressure monitor to send out an electrical signal at a pressure fall below its set value level - Google Patents

Abstract

A pressure reducer (14) adjusts a pressure set value on a consumer (18). A pressure monitor (12) has a pressure switch (36) to send out an electrical signal if the pressure set value falls below its set level and is fitted with a valve unit (58) to release a control line connection from the consumer to a return stroke (24) if pressure drops in a feed channel (26).

Description

State of the art

The invention relates to a control device and monitoring the pressure on a hydraulic Consumers according to the preamble of claim 1.

Such devices are for example from DE 44 07 370 A1 already known. In this publication is as hydraulic consumer described a clamping device such as used in machine tools, to fix workpieces during machining. The the Invention underlying device comes here Task too, the pressure as a parameter for a reliable Monitor workpiece clamping and an alarm signal to deliver as soon as this pressure falls below a predetermined Pressure setpoint drops. In this case, the fixation of the The workpiece is not sufficiently secured, so that it too Accidents can occur.

To perform the function described includes the known Setting up a hydraulically controllable pressure monitoring, which among other things records the actual pressure value at the consumer and with a given pressure setpoint. there Differences determined are broken down into mechanical ones  Actuating movement changed and on a pressure switch transfer. Its switching movement has an electrical one Switching signal result, for example, for control of protective devices and / or to switch off the Machine tool can be processed electronically. This protects the operator of the machine tool and alerted to the mistake in good time. Appropriate countermeasures can be taken immediately so that there is little downtime.

Although the known device the majority of the in the Practical operating states of machine tools reliably protected, an operating state is not recorded, namely, the failure of the pressure supply. This Operating state does not trigger an immediate switching signal because the pressure on the consumer due to the inevitable leakage of the system gradually decreases and the establishment so it only responds with a delay. During this The workpiece can no longer decelerate be sufficiently clamped.

Advantages of the invention

In contrast, the device according to the invention Control and monitoring of the pressure on a hydraulic Consumers with the features of claim 1 have the advantage on that pressure monitoring in a purely hydraulic way can be represented, in addition to those already known Incidents now include the failure of a failed one Pressure supply covers, the pressure monitoring responds to these faults without delay and with a single pressure switch to generate an electronically processable signal. The Operational reliability of one of the invention Controlled hydraulic consumer device  thereby increased without being additional and expensive Contacting, electro-hydraulic pressure switch necessary are.

These properties are measured using a hydraulic Valve unit reached in the already existing Control circuit of the pressure switch is switched. This Valve unit is known as conventional and in Bulk product available 2/2-way shut-off valve trained that because of its relatively simple The building volume of the facility can be integrated at best slightly increased. Further advantages or advantageous Further developments of the invention result from the Subclaims and the description.

drawing

An embodiment of the invention is in the drawing shown and in the following description explained. The only figure shows a hydraulic one Circuit with a designed according to the invention Pressure monitoring, in a schematically simplified representation.

Description of the embodiment

The single figure shows a hydraulic circuit in which a pressure generator 10 is coupled to a pressure monitor 12 and a pressure reducing unit 14 and supplies a consumer 18 with pressure medium via a control valve 16 . The consumer 18 is shown as an example as a single-acting hydraulic cylinder with two pressure medium connections 20 a and 20 b, but without being restricted to such an embodiment. The two connections 20 a and 20 b of the consumer 18 can be controlled separately from one another, for which purpose an electromagnetically controllable, spring-loaded 4/3-way valve is provided as the control valve 16 . This is held in the non-activated state in the center position shown, in which the two pressure medium connections 20 a and 20 b are connected to a return line 24 returning to a reservoir 22 and designated T, while the supply channel 26 designated P is shut off. In contrast, in the two switching positions, the supply channel 26 is connected to one of the connections 20 a or 20 b, while the other connection 20 a or 20 b to the return 24 is relieved of pressure.

Between the pressure generator 10 and the control valve 16 , the pressure reducing unit 14 , which is conventionally known in its construction, is connected. The latter includes a manually adjustable pilot valve 28 and a spring-loaded pressure reducing valve 30 . This pressure reducing valve 30 is connected to the supply channel 26 , from which 30 pilot channels 32 a and 32 b branch off downstream of the pressure reducing valve. The first pilot channel 32 a ends at a first hydraulic actuation 36 d of a pressure switch 36 and is equipped with a throttle 38 , while the second pilot channel 32 b is used to control the pressure reducing valve 30 . After the throttle 40 , control lines 40 a and 40 b branch out from the first pilot channel 32 a, which leads on the one hand as a second hydraulic control for the pressure reducing valve 30 and on the other hand with the interposition of a second throttle 42 to the pilot valve 28 . This pilot valve 28 releases a pressure medium connection 44 to the return 24 as soon as the pressure in the supply channel 26 exceeds the set pressure threshold.

When the pilot valve 28 opens, the pressure in the control line 40 a collapses to form the pressure reducing valve, as a result of which, due to the pressure in the pilot channel 32 b, it performs a switching movement against the force of its closing spring 46 . The second throttle 42 serves to dampen this switching movement. In the switching position of the pressure reducing valve 30 , the connection from the pressure generator 10 to the consumer 18 is interrupted and at the same time the consumer 18 is connected to the return 24 . As a result, the pressure at the consumer 18 drops to the value set on the pilot valve 28 .

Pressure monitor 12 is hydraulically connected upstream of pressure reducing unit 14 . The latter includes the electromechanical pressure switch 36 , which is controlled by a total of four hydraulic actuators 36 a to d and which additionally has a mechanical reset device 36 e in the form of a spring. The actuations 36 a to d each work in pairs, the first pair 36 a and 36 b of actuations being acted upon by a pressure difference which produces an orifice 48 arranged in the supply channel 26 of the hydraulic circuit, provided that the pressure medium flows through it. This is the case when the consumer 18 executes an actuating movement, for example, without building up pressure. By reaching its end position, that is with the pressure build-up in the consumer 18, the pressure fluid flow is in the supply channel 26 to zero, so that at the aperture 48 is no significant pressure differential is longer measurable. This first pair 36 a, 36 b of actuations fulfills the task of preventing a switching movement of the pressure switch 36 as long as the hydraulic consumer 18 has not yet reached its end position.

A spring-loaded check valve 52 is provided in a bypass 50 parallel to the orifice 48 described in the supply channel 26 . This opens in the direction of flow of the pressure medium and closes in the opposite direction. Thus, only a partial flow is led through the orifice 48 during the actuating movement of the consumer 18 in order to influence the speed of the actuating movement as little as possible.

As already mentioned, the actuator 36 d of the second pair with the adjustable valve 28 to the pilot pressure setpoint applied, while the associated second actuator 36 c is charged with the actual pressure applied at the consumer 18. For this purpose, this second actuation 36 c is connected via a shuttle valve 54 to the lines leading to the connections 20 a and 20 b of the consumer 18 and labeled A and B. This shuttle valve 54 is designed in the form of two oppositely connected seat valves and thus connects in each case the connection 20 a, 20 b of the consumer 18 which is acted upon with the higher pressure and the pressure switch 36 .

Downstream of the shuttle valve 54 , the control line leading to the pressure switch 36 branches according to the invention into a branch 56 which opens into the return 24 and in which a switching valve 58 is arranged. Depending on the switch position, this releases or closes the connection to the return 24 . For this purpose, the switching valve 58 is designed as a 2/2-way check valve and is controlled by the pressure in the supply channel 26 , the force of a spring 60 and the pressure on the consumer 18 . The spring 16 and the pressure in the supply channel 26 counteract the pressure at the consumer 18 . The switching valve 58 is thus held in its blocking position as long as pressure is present in the supply channel 26 and only opens when this supply pressure drops. With this opening, the actuation 36 c of the pressure switch 36 is short-circuited to the return 24 , which triggers a switching operation in the pressure switch 36 .

Due to the hydraulic control described, such a switching operation of the pressure switch 36 is also triggered when the actual pressure value at the consumer 18 drops. The electrical switching signal generated in these switching operations can be further processed in an electronic control (not shown) of the hydraulic circuit and can preferably cause it to be switched off or an alarm device to be triggered. The operator of a device equipped with this hydraulic circuit is thereby made aware of the malfunction.

Of course, changes or advantageous developments of the invention are possible without deviating from the basic idea of the invention. In this regard, it should be noted that the pressure monitor 12 according to the invention can preferably be accommodated in a common housing with the pressure reducing unit 14 . This common housing is only indicated schematically in the figure and provided with the item number 62 .

Claims (5)

1. Device ( 12 , 14 ) for controlling and monitoring the pressure on a hydraulic consumer ( 18 ), in particular a clamping device of a machine tool, with a supply channel ( 26 ) connecting the consumer ( 18 ) with a pressure generator ( 10 ), one in the Supply channel ( 26 ) connected pressure reducing unit ( 14 ) for setting the pressure setpoint at the consumer ( 18 ) and with a pressure monitor ( 12 ) which, in order to trigger an electrically processable signal when the pressure falls below the pressure setpoint at the consumer ( 18 ) in its end position, a pressure switch ( 36 ), whose control circuit detects pressure differences at an orifice ( 48 ) connected into the supply channel ( 26 ) and between an actual pressure value and a pressure setpoint at the consumer ( 18 ), characterized in that a valve unit ( 58 ) is provided in the control circuit of the pressure switch ( 36 ) is a when the pressure in the supply channel ( 26 ) drops Control line connection from the consumer ( 18 ) to the return ( 24 ) releases. 2. Device according to claim 1, characterized in that the valve unit ( 58 ) against the force of a spring ( 60 ) and against the pressure in the supply channel ( 26 ) from the actual pressure value at the consumer ( 18 ) is controlled. 3. Device according to claim 1 or 2, characterized in that the valve unit ( 58 ) is designed as a hydraulic 2/2-way check valve with at least one valve seat. 4. Device according to one of claims 1 to 3, characterized in that a single-acting or double-acting consumer is provided as the consumer ( 18 ), the connections ( 20 a) and ( 20 b) of which are separated by means of an electromagnetically controllable multi-way valve ( 16 ) are controllable from each other. 5. Device according to one of claims 1 to 4, characterized in that the pressure reducing unit ( 14 ) and the pressure monitor ( 12 ) are arranged in a common housing ( 62 ).