CS207166B1 - Device for the control of the defect of the doubled three-ways electromagnetic valves - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for monitoring the failure of double-way solenoid valves for presses.

Double three-way solenoid valves are used to ensure safe operation of presses with pneumatically operated clutch and brake. In order to prevent possible injury to the operator of the press, these control valves must additionally be equipped with a device which, in the event of a valve malfunction, signals the blocking system of the press to stop it immediately. A valve fault condition occurs when, for any reason, only one control branch of the valve is reset - a malfunction.

There are known devices for sensing a valve failure which are based on mechanical principles. In most cases, it is the action of a suitable mechanism on the microswitch button that, in the event of a valve malfunction, gives a signal to the locking system of the press. A disadvantage of these devices is that the power transmission of the mechanism to the microswitches caused by the valve fault condition is ensured by mechanical coupling of several members. There are high demands on the accuracy of the mechanism adjustment. These devices are less reliable, less durable and sensitive to external influences such as dust, shocks, moisture, etc.

The above-mentioned deficiencies are eliminated by the present device for checking the failure of the double solenoid valves according to the invention, which consists of rods, orifices and contactless microswitches. It is based on the fact that from each branch of the valve there is a rod, on which is mounted a shutter for switching contactless microswitches. In the extreme positions of the closing plate, the shutter switches on the contactless microswitch.

The advantage of the device according to the invention is above all the simple setting of the switching mode of the device. Another advantage is high reliability and durability without any wear, virtually unlimited number of switching on proximity microswitches and independence from external influences, especially in modern encapsulated proximity microswitches. This increases the safety function of the valve and the safety and reliability of the press operation.

An example of the arrangement of the device according to the invention is shown in a front view in the drawing.

In the valve body 1 are the air intake shut-off plates 21, 22 of the first and second branches of the valve 1. The shut-off plate 21 of the first branch of the valve 1 bears on the seat 41 of the first branch. The first branch rod 51, rigidly connected to the first branch shut-off plate 21, extends outside the valve body 1. At the end of the first rod 51, a first orifice 51 for fastening the proximity microswitch is mounted. When the first closure plate 21 is in the upper, i.e., closed, position of the first branch of the valve 1 in which it rests against the seat 41 of the first branch, the first orifice 61 is in the position in which the first upper contactless microswitch ^x 71 switches. in the lower position, i.e. in the open position of the first branch of the valve 1, then the first orifice 61 is in the position in which the first lower contactless microswitch 81 switches. The second control branch of the valve 1 is likewise arranged. abutting the second seat 42, i.e. the closed position of the second branch of the valve 1, the second orifice 62, mounted at the end of the second rod 52, is outside the valve body in a position in which the second upper contactless microswitch 72 switches. the second orifice 62 is in the position in which the second lower contactless microswitch 82 switches.

The contactless microswitch 71, 72, 81, 82, located outside the valve body 1, is connected in a seri-parallel manner. In one parallel branch there is a serial connection of the first upper contactless microswitch 71 and the second lower contactless microswitch 82. In the second parallel branch, the first lower contactless microswitch 81 and the second upper contactless microswitch 72 are connected in series. press system.

The fault monitoring device operates as follows. When the double-way solenoid valve 1 is switched on or off, the shut-off plates 21, 22 of the two branches must be in the same position, i.e. both are seated on their own seats 41, 42 and both branches are closed or are off seat 41, 42 and the branches are open and air flows through the open seats 41, 42 into the working space. In a fault-free state, either the two upper contactless microswitches 71, 72 are switched on, or both the lower contactless microswitches 81, 82 are switched on. When the two rods 51, 52 synchronously move, the fault signal is zero. A valve failure condition occurs when one of the control branches has a different functional state from the other control branch. This is manifested by the fact that one, for example, the first shut-off plate 21 is in the lower position, i.e. the first valve arm 1 is in the open position, while the second shut-off plate 22 is in the upper position, i.e. the closed position of the second valve arm 1, or vice versa. Consequently, in the different, i.e. opposite, position of the rods 51, 52, the electrical connection of the contactless switches 71, 72, 81, 82 gives a signal of valve 1 failure.

The invention will be used to control the failure of double-way solenoid valves mainly to control presses.

Claims (1)

Device for checking the failure of double-way solenoid valves, consisting of rods, orifices and non-contact microswitches, characterized in that it is provided with shut-off plates (21, 22) provided in each branch of the valve (1) and connected to the rod (51, 52) on which is mounted an orifice (61, 62) which switches contactless microswitches (71, 72, 81, 82) in the extreme positions of the closing plates (21, 22).