DE2051089A1 - Method and device for the automatic monitoring and regulation of the air pressure in pneumatic devices - Google Patents

Description

Maschinenfabrik Weingarten AG

Method and device for the automatic monitoring and regulation of the air pressure Pneumatic devices

The present invention relates to a method and a device for automatic monitoring and adjustment the air pressure in pneumatic devices, such as drawing cushions, ejectors, balancing, air pressure adjustment or overload protection etc. in presses, press lines or the like.

It must be possible to monitor and regulate the pressure of these pneumatic devices. The adjustment of the individual air pressures and their monitoring can be done when changing tools on a press line or on a press with many pneumatic devices, e.g. transfer press, take up a lot of time that is lost in production.

Pitch adjustments are also the order of the day with manual adjustment, as has been done up to now, which in turn Losses in the form of reject results.

This is where the present invention comes in and has become The task set to address the above-mentioned disadvantages of a qualitative and temporal nature with the simplest possible means eliminate and monitor and adjust as independently as possible of the manual skills of the operators design.

To solve this problem, according to the invention, in a method Proposed of the type described above that an actual value transmitter corresponds to the pressure in the expansion tank

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of the signal, which in a comparison device with is compared to another signal which is obtained by inputting a coded signal located on an information carrier "in a setpoint generator (reader or data input device) through permanent or intermittent interrogation of the information carrier is obtained and that the supplied by the comparison device Signal controls corresponding actuators in such a way that the pressure in the expansion tank corresponds to the coded setpoint

speaks. It is possible that there is one or more equalizing tanks of pneumatic devices at the same time is applied to one or more presses, with all: Pneumatic devices having a common comparison device assigned. It can also be advantageous for the comparison device to provide the signal in the form of a variable Provides voltage, which is used for the stepless adjustment of a motor-operated actuator.

The device provided for carrying out the method according to the invention is essentially characterized by a setpoint generator (Data input device or reader) and an actual value transmitter leading into the expansion tank, both of which with a Comparison device are connected, which is additionally connected to a valve or several valves via a line, which are arranged in lines from and to the expansion tank. It is possible that at least two valves are provided are, of which in a known manner one in the line between the compressed air source and the expansion tank the other on the other hand, is arranged in the line leading to the outside.

Another feature of the device is characterized by at least one valve which is connected to the expansion tank of the Compressed air source and the free atmosphere is in communication. This valve can be designed as a power-driven pressure adjustment valve that is continuously adjustable within certain limits be. It is also possible that the valve is designed as a pressure adjustment valve Valve from a power operated, within certain

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Limits continuously adjustable further pressure adjustment valve is controlled as a servo valve.

With the method according to the invention with the corresponding device, it is therefore without any manual skills in the simplest possible way, all pneumatic devices on a press or press line during and to be checked and adjusted automatically at any time except during operation. The type of the encoded signals The information carrier carrying the information can be of any desired type, using punch cards, magnetic tapes, etc. known per se can find.

The invention is explained in more detail with reference to a drawing which shows any two exemplary embodiments.

Show it:

1 shows a schematic representation of a pneumatic device with their control device and

FIG. 2 shows a corresponding representation according to FIG. 1 with a modified one Embodiment of the control device.

The pneumatic device consists in a simplified embodiment 1 essentially from the cylinder 1 with piston 3, the piston rod 4 of which is passed through the cylinder cover 2 is, and the expansion tank 6, from which the line 5 to the cylinder 1, the line 13 to the pressure medium source 8, line 14 to the free atmosphere and line 15 to Actual value transmitter 12 leads. There is one in each of the lines IJ and 14 electrically controllable valve 7, 11 is arranged, which is connected to the comparison device 10 via lines 22 and 23, respectively are. The actual value transmitter 12 via the line 16 and the setpoint transmitter 9 via the line are also connected to the comparison device 17 connected. ,

In the embodiment according to FIG. 2, the expansion tank 6 is also connected to the cylinder 1 via a line 5, while a line 18 to a motor-adjustable pressure input

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control valve 19 leads, from which the line 14 into the free Atmosphere and the line I3 in the pressure medium source 8 opens. The valve I9 is coupled in a power-driven manner to the motor 21 via the control unit 20. Next is the control unit 20 is connected to the setpoint generator 9 via the line 17.

With the change in production, in most cases a new adjustment of the pressure in the individual pneumatic devices mentioned above is necessary. This regulation takes place with the aid of the data which are in coded form on an information carrier and which are fed into the setpoint generator 9 by the press setter. This forwards signals corresponding to the setpoint values to the comparison device 10, in which they are preferably permanently compared with signals supplied by the actual value transmitter 12, which correspond to the pressure in the expansion tank 6. Depending on the result of the comparison, one of the valves 7, 11 is now activated via the line 22 or 27). If the pressure in the expansion tank 6 is higher than the new setpoint, valve 11 opens the line 14 until the pressure has fallen to its new setpoint. Accordingly, at a lower pressure in the expansion tank 6, the line 15 is opened by the valve 7, so that further compressed air can flow in from the pressure medium source 8 until both values match.

In the exemplary embodiment according to FIG. 2, compared to that described according to FIG. 1, an electric motor is only used instead of the valves 7j H directly controlled by the comparison device 10 driven pressure adjustment valve I9, which ever according to the magnitude and sign of the signal supplied by the control unit 20, which is known per se, preferably a voltage, continuously adjusted by means of the electric motor 21. This means that the amount of compressed air to be replenished or discharged in and from the expansion tank 6 adapted to the prevailing conditions depending on the size of the system deviation. Otherwise, the Control process as explained in more detail above. That as a print

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Valve 19 designed as a control valve can also be servo-controlled. Then the control unit 20 with motor 21 is on Acting servo valve, which in turn controls the pressure setting valve 19 as a pilot.

Of course, with the aid of the method according to the invention not only the initial setting of the pressure in a wide variety of pneumatic devices when changing production. Even during operation the above-mentioned working machines occurring pressure fluctuations in the expansion tanks 6 are on adjusted in the same way as explained above.

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Claims (1)

Claims Process for the automatic monitoring and adjustment of the air pressure in pneumatic devices, such as drawing cushions, Ejector, balancing, air pressure adjustment or overload protection etc., for presses, press lines or similar working machines, characterized by \ that an actual value transmitter (12) supplies a signal corresponding to the pressure in the expansion tank (6), which signal is compared in a comparison device (10) with another signal obtained by inputting a coded signal on an information carrier into a setpoint transmitter (9) (reading device or data input device) is obtained by permanent or intermittent interrogation of the information carrier and that the signal supplied by the comparison device (10) controls corresponding actuators (7,11,19) such that the pressure in the expansion tank (6) corresponds to the coded target value. 2. The method according to claim 1 characterized, that it is used simultaneously in one or more expansion tanks (6) of pneumatic devices on one or more presses, with all pneumatic devices being assigned a common comparison device (10). 3. The method according to * Claims 1 and 2 characterized, that the comparison device (10) supplies the signal in the form of a variable voltage, which is used for the gradual adjustment of a motor-operated actuator ganes (19) is used. 209817/0611 H. Device for carrying out the method according to claims 1 to 3> marked by a desired value transmitter (9) (data input device or reading device) and a leading into the compensating container (6) an actual value (12) which are connected to a comparison device (10) both of which also has a line (l4 _# 22) with a valve (19 ) or several valves (7 | H), which are arranged in lines (Ij5 * 1 ^) from and to the expansion tank (6). 5 · Device according to claim 4 characterized, that at least two valves (7 _t ll) are provided, one of which is arranged in a known manner in the line (Ij5) between the compressed air source (8) and the expansion tank (6), the other is arranged in the line (14) leading to the open . 6. Device according to claims 4 and 5 * characterized by at least one valve (19) * which is connected to the expansion tank ™ ter (6), the compressed air source (8) and the free atmosphere. 7 · Device according to claims 4 to 6 characterized, that the valves (7,11) with the comparison device (10) in Connected. 209817/0611 8. Device according to claims h, 6 and 7, characterized in that that the valve (19) is a power-driven pressure-adjusting valve which is continuously adjustable within certain limits is. 9. Device according to claims h, 6 and 7, characterized in that that the valve (19) designed as a pressure adjustment valve is steplessly variable within certain limits from a power-driven one adjustable further pressure adjustment valve as a servo valve is controlled. IO.7O 209817/0611