DE1196917B - Safety device with at least two control valves - Google Patents

Description

Safety device with at least two control valves The invention relates to a safety device with at least two control valves that operate electromagnetically can be transferred from a rest position to a working position and their control movements should always be done simultaneously and evenly, and with a device to to leave the valves in their rest position or to return them to them, if as a result of a malfunction, not both valves at the same time from the rest position to the Working position can be transferred by the valves with electrical switching means are in connection, at least at different end positions of the valves interrupt the power supply to the solenoid coils.

Such safety devices are often used when two different machine parts are to be operated simultaneously via separate lines, as is the case, for. B. is the case with presses in which the clutch and the brake are each operated via a three-way valve. For safety reasons, it is required in such cases that the control valves to be actuated at the same time are connected to one another in such a way that if one of the two valves fails due to some source of interference, such as, for. B. od by dirt particles. The like. The undisturbed valve immediately returns to its rest position and the system controlled by it can no longer be switched on before the malfunction is resolved.

Many devices are already known for the above-mentioned purpose. In one group of these safety valves, the movable valves are pneumatically or hydraulically coupled. Others have additional safety slides installed, which respond if the valves move unevenly and cause the controlled system to be switched off. However, all of these known systems are complicated in their construction and as a result not only are they expensive but also not sufficiently secure.

In other known constructions, only one end position of the control valves is scanned, so that there is a risk that the control valves will get stuck in intermediate positions and allow unequal switching, which can lead to different actuations of the connected devices and thus to considerable dangers. In addition, with these embodiments there is also the risk that the contacts of the switches themselves will get stuck and thus a switching state of the control valves is indicated which does not actually have to be given. For these reasons, these known devices also do not have sufficiently high operational reliability for some purposes. The invention has for its object to avoid these disadvantages of the known safety devices and to provide a valve, which is characterized by high operational reliability and a simple and inexpensive construction. The invention consists in that the electrical switching means automatically interrupt the power supply only when the valves are shifted unevenly and are designed or arranged in such a way that after an interruption the circuit containing the magnet coil (s) can only be closed again by external intervention.

Your specialist has the following options available to you to transfer the position of the valves into electrical quantities, their values then with one another electrically can be compared to an interruption in case of certain deviations of the circuit for the solenoid coil (s). It can be steady variable electrical quantities, such as resistances, capacitances or inductances act that are compared, for example, in a bridge circuit, but also to simple switches that then have to change their states at about the same time. In order to cause that after an interruption of the magnetic coil (s) containing circuit can only be closed again by external intervention, the circuit can z. B. a relay with self-holding contact, which is used to reconnect the circuit can be bridged by a hand switch.

A particularly simple arrangement is obtained if in a further embodiment of the invention, the valves have extensions from which the pressure medium to be controlled leading spaces protrude and at their ends with these firmly connected contacts have, the conductive connection of which is permanent when the valves are in an unequal position is interrupted. These could be simple sliding contacts, in which case special funds are again provided would have to be to an unwanted To prevent closing of the interrupted circuit. Is particularly advantageous It does, however, if there is one in the circuit of the solenoid coil (s) on the extensions Safety wire is fastened in such a way that it 'when the valves are in an unequal position breaks or tears. Such an arrangement is of the utmost simplicity as well as also reliability.

The extensions can also be secured against twisting and on their Ends of insulated busbars carry the safety wire at their opposite ends and flexible lines following the movement of the valves are attached.

The invention is illustrated below with reference to the section in the drawing illustrated embodiment described.

Two conventional three-way valves are arranged parallel to one another in a common valve housing 10. For this purpose, the valve housing has two parallel bores 11 , each of which widens approximately in the NEtte to the valve chamber 12 and at its upper end forms a cylinder 13 for a drive piston 18 . Each drive piston 18 is connected to a double-acting closure piece 20 via a valve rod 19. The working connections 15 open into the valve chambers 12 and are connected to the return 17 via the lines 11 and 16 in the position of the closure pieces 20 shown. The pressure medium inlet 14 common to both valves opens into the bores 11 in the area between the drive piston 18 and the closure pieces 20.

The valve housing 10 is closed at the top by a cover 21, in which a guide tube 23 for a magnet armature 24 is screwed into each of the valves with the aid of the nipple 22. The guide tubes 23 are surrounded by magnetic coils 25 in the usual manner. The magnet armatures 24 are used in the usual way to actuate auxiliary valves which control the pressure build-up via the drive piston 18. The seats 28 of these auxiliary valves are mounted in the cover 21 and are connected to the pressure medium inlet 14 via channels. In the position shown, the magnetic coils 25 are not energized and the auxiliary valves are closed. As a result, the spaces above the drive piston 18 are vented via the lines 29 in the cover 21 and the unsealed bores 27 in the opposite poles 26.

If the coils 25 are excited and the magnet armatures 24 are thus attracted, then on the one hand the bores 27 in the opposing poles 26 are closed and on the other hand the auxiliary valve seats 28 are opened. From the line 14, a pressure can now build up via the lines 29 via the drive piston 18 , so that these and thus also the closure pieces 20 are moved downwards until the lower valve seat is closed and the working lines 15 are connected to the pressure line 14.

When the current is interrupted again, the spaces above the drive piston 18 via the lines 29 and the back shared bores 27 are vented and the pending under the drive piston 18 pressure presses this together with the closing pieces 20 upwards again until they in the drawing have reached the position shown.

Under normal operating conditions, the two valves move simultaneously and in the same direction. In order to prevent the system connected to the two pressure lines 15 from working incorrectly in the event of a valve malfunction because the controlled machine parts are not subjected to pressure in the same way, the valves 18, 19, 20 of the valve shown are provided with extensions 30 which protrude from the valve housing 10 and are each guided tightly in a disk 31 closing off the bore 11. The extensions 30 are provided with flats or grooves to prevent twisting.

At their lower ends, the extensions 30 carry heads 32 made of insulating material, to which busbars 34 are attached by means of screws 33. At the facing ends of the busbars 34, a safety wire 35 is attached, for. B. soldered. This should consist of a brittle material and be made relatively thin so that it breaks or tears easily. At the opposite ends of the busbars 34 flexible lines 36 are attached, which allow the movements of the extensions 30 when the valves are switched. One of the lines 36 is connected directly to a pole 39 of the power source by means of the line 37 , while the other line 36 leads via the line 38 to the two magnet coils 25 connected in parallel and only then to the second pole 40 of the power source. The safety wire 35 is therefore in series with the two magnet coils 25, so that its destruction results in an interruption of the circuit which excites the magnet coils.

The valve described will therefore work properly as long as the two valves 18, 19, 20 move simultaneously and in the same direction. The distance between the two insulating heads 32 with the busbars 34 does not change and the safety wire 35 stretched between them is therefore not stressed significantly. If, on the other hand, only one of the two three-way valves is switched over when the current is switched on as a result of a fault, the distance between the two insulating heads 32 increases and the wire 35 is torn. This has the consequence that the circuit which excites the two magnetic coils 25 is interrupted and the undisturbed valve returns to its rest position. This means that the system connected to the valve also remains at rest and cannot be restarted inadvertently because the safety wire 35 must first be replaced in order to be able to turn the system on again.

Claims (2)

Claims: 1. Safety device with at least two control valves, which can be electromagnetically transferred from a rest position to a working position and whose control movements should always take place simultaneously and evenly, and with a device to leave the valves in their rest position or to return them to them, if due to a disturbance not both valves are simultaneously transferred from the rest position into the working position, by opening the valves with electrical switch means are in communication, which interrupt the current supply to the magnetic coil at least at different end positions of the valves, d a d u rch g EKENN - characterized in that the electrical switching means (35) automatically interrupt the power supply only when the valves (20) are shifted unevenly and are designed or arranged in such a way that after an interruption the circuit containing the magnet coil (s) (25) can only be closed again by external intervention . 2. Device according to claim 1, characterized in that the valves (20) have extensions (30) which protrude from the spaces (11) leading to the pressure medium to be controlled and have contacts (34) fixedly connected to them at their ends conductive connection (35 ) is permanently interrupted when the valves (20) are in an unequal position. 3. Device according to spoke 2, characterized in that a safety wire (35) lying in the circuit of the magnetic coil (s) (25) is attached to the extensions (30) in such a way that it breaks or tears when the valves (20) are in an unequal position . 4. Device according to claim 3, characterized in that the extensions (30) are secured against rotation and carry insulated busbars (34) at their ends, at the opposite ends of which the safety wire (35) and the movement of the valves following flexible lines (36 ) are attached. Contemplated references: French Patent No. 1,254,848;. British Patent No. 675,440. U.S. Patent Nos. 2,908,291, 3,043,335 .