CS220652B1 - Connection for pressing tools protection - Google Patents

Abstract

The invention relates to the protection of shearing or bending tools, which will be damaged during the next working cycle if the blank is not ejected. The purpose of the device according to the invention is to stop the machine immediately after a working cycle in which the blank was not ejected. The essence of the invention is to control the ejection of the blank from the tool in each working cycle. The SV sensor transforms the passage of the blank into an electrical pulse A, which is shaped by the TO1 circuit and remembered by the MKO circuit. The SO switching circuit is switched on, the machine is in operation. The SPC working cycle sensor generates a reset pulse with a time delay after the A pulse during each cycle. After the reset pulse has passed through the TO2 shaping circuit, the modified pulse C is fed to the reset input of the SO circuit. SO is reset and the machine is stopped only if the blank has not passed through the SV sensor or if an SV fault has occurred. The SPC operation is controlled by the KO circuit, which integrates the reset pulses from the SPC. When the SPC is operating correctly, the SO blocking input has a D waveform, while in the event of a fault, a Dl waveform. A SPC fault results in the machine stopping.

Description

The invention relates to the protection of tools for shearing or bending which, if the molding is not ejected, is damaged during the next working cycle.

The purpose of the device according to the invention is to stop the machine immediately after a working cycle in which the molding has not been ejected.

It is an object of the present invention to control the ejection of a blank from a tool in each working cycle. The sensor SV transforms the passage of the compact into an electrical pulse A, which is shaped by the TO1 circuit and memorized by the MKO circuit. Switching circuit SO is closed, machine in operation. The duty cycle sensor SPC generates a reset pulse for each cycle, delayed after pulse A. After passing the reset pulse through the shaping circuit TO2, the adjusted pulse C is applied to the resetting input of the SO circuit. The SO is reset and the machine is stopped only if the molding has not passed the SV sensor or the SV has failed.

The operation of the SPC is controlled by the KO circuit that integrates the zero pulses from the SPC. If the SPC is working correctly, the SO blocking input is the D waveform, and the D1 failure. Failure of the SPC results in machine stoppage.

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BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wiring for protecting die tools from damage when the molded part is not ejected.

[0004] There are known wiring based on the principle of sensing the passage of a compact by an inductive sensor and recording the resulting pulse in a memory circuit that holds the Information for one machine cycle. The disadvantage of these wiring is that they require precise adherence to the time interval between the individual passages of the moldings through the sensor, and therefore is only suitable for miniature products ejected from the tool by a jet of compressed air. Another disadvantage is the need to adjust the time constant of the memory circuit when changing the number of press strokes.

It is also known to employ the principle of pulse coincidence from the passage sensor with pulses derived from the working cycle of the press. With these connections, no adjustment of the memory circuit is necessary, but the ejection period of the molding from the tool has to be kept to a certain degree again.

These disadvantages are overcome by the crimping tool protection according to the invention, which consists of an information channel consisting of a molding sensor, a first shaping circuit and a monostable flip-flop whose output is connected to one switching circuit input, a reset channel, formed by a duty cycle sensor and a second forming circuit, the output of which is connected to a second input of the control circuit and the control channel formed by the control circuit, the output of which is connected to a second input of the control circuit and the control channel the control circuit whose input is connected parallel to the input and the output is connected to a third input of the switching circuit.

The invention eliminates the disadvantage of the prior art circuitry, that is to say the sensitivity to deviations from the nominal value of the time interval between the individual passes of the moldings through the sensor.

The invention will be explained in more detail with reference to an exemplary embodiment of a press tool protection circuit shown in the block diagram of the drawing.

The extrusion sensor SV is connected to the shaping circuit TO1, whose output is at a logic level of 0. When the molding passes through the sensor SV, a pulse A appears at the output of the TO1 circuit, the width of which is proportional to the dimension. Pulse A is applied to the input of the mono-stable flip-flop MKO, where it is memorized for a time equal to 50 + + 80% of the time interval between individual press strokes. Pulse B discharges the switching circuit SO, which keeps the machine running via the VS output terminal.

The duty cycle sensor SPC is connected to the shaping circuit TO2, at the output of which, at each duty cycle, a pulse C appears, which is applied to the reset input of the switching circuit SO. Impulse C can only reset the SO circuit if pulse B is not present at the input of SO information, that is, if it has not passed the molding of the SV sensor, or if the sensor of SV is malfunctioning or disconnected. Resetting the SO circuit results in a stop pulse being sent through the VS output terminal and the machine stops.

At the same time, the SPC sensor of the duty cycle is connected to the input of the control circuit KO, which monitors the operation of the SPC sensor. The output of the KO circuit is a pulse D resulting from the integration of the negated pulse C. The pulse D does not affect the state of the switching circuit SO. If the SPC sensor fails or is disconnected, a voltage of D1 occurs at the output of the KO circuit, which stops the machine through the SO blocking input.

Claims (1)

Press tool protection circuit, characterized in that it consists of an information channel consisting of a molding sensor (SV), a first forming circuit (ΊΌ1) and a monostable flip-flop (MKO), the output of which is connected to one input of the switching circuit (SO), the zero cycle channel formed by the duty cycle sensor (SPC) and the second shaping circuit (TO2), the output of which is connected to the second input of the switching circuit (SO) and the control channel formed by the control circuit (KO). and the output is connected to the third input of the switching circuit (SO). 1 sheet výkretfl