SU420225A1 - Device for protecting against slag formation in electical discharge machining - Google Patents

Abstract

1. DEVICE FOR PROTECTION AGAINST PLASTER AT ELECTRO-EROSIC REDUCTURE, In which the executive body is connected to a slag sensor connected to the erosion gap, so that, in order to increase reliability, the slag sensor is made in the form of a pulse measuring voltage source connected to the erosion gap through a valve, a measuring resistor and a switch in the form of a logic element. TA-I, composed of two consecutive '^' connected. semi-prododnikovyh triodes, moreover, in one triode, connected via an additional semiconductor triode to 1 operating current pulse generator. And the input of the other triode is connected in an analogous way to 2. A device according to Claim 1, characterized in that the time delay block is designed as a trigger, one input of which is connected via a pulse shaper to the indicated one. the measuring resistor, the other input is connected to the clock relay, one of the outputs is connected to the input of the time relay, and the other is connected to the input of the executive org. 3, The device according to claim 2, characterized in that, in order to automatically set the optimal time interrupting the process, the second input of the trigger is connected through an amplifier and driver to an erosion resistance sensor consisting of a semiconductor key and a measuring resistor connected to the erosion one. span through VSP ("yugatny source of measuring signal and diode, moreover, the key input together with the input of the executive body is connected to the trigger output. i ^ §4 ^ tcО ^ rciSP-^ iBB ^ - = \ m

Description

The invention relates to the electrical discharge machining of conductive materials. Known anti-slag devices contain a slag sensor and an actuator interrupting the processing. The disadvantages of such devices are the need to change the signal level, leading to interruption of processing in the event of a change in the mode of false alarms and a lack of efficiency due to all terms and conditions The proposed device eliminates these disadvantages. It interrupts the treatment process under pulsed voltage during erosion. the eerie during the discharge, less than the permissible, but greater than the voltage during a short circuit. The device also allows adjusting the duration of the processing interruption depending on the conditions, either according to a predetermined program, for example, as a function of moving the electrodes, or depending on the electrical resistance of the erosion gap. The device differs in that between the slag sensor and the actuator the interrupt timing block is turned on process. In addition, it has an erosion resistance sensor that resumes processing when normal conditions are restored in the erosion gap. Figures 1, 2 and 3 depict a block diagram of the device; 4 and 5 show a detailed diagram of the device. A slag sensor (yes) is connected to the erosion gap (EA), fed by a current pulse from the pulse generator (gi), which triggers a time delay device (IOD) and an actuator (IO) when triggered. The switch-on time of the executive body is determined by the time kilometer (ZEB) setting unit and is set by the operator. A time relay (RT) and a trigger (Tr) can be used as the high-voltage device and the low-voltage device. With the arrival of a signal from the slave sensor (yes), the trigger (t p) is re-routed, the actuator (io) and the time relay (PB) start up. At the end of the shutter speed, set by the operator, Tp is reset to its initial position (IO turns off and processing resumes In order to ensure the automatic setting of the exposure time, determined depending on the processing conditions by the magnitude of the resistance of the electrode gap, the key (k) is used instead of the time relay (see Fig. 3 / and the resistance sensor). yes tr bust It starts up the EUT and closes K, which connects the DC to the EP. With an increase in the resistance of the erosion gap when fresh working fluid is received, the signal from the DS causes the Tp to be reset to its initial position, the EUT shuts off, and the processing resumes. .2 an auxiliary power supply (IPMsm. Fig.4) is used via a valve (D-,), a resistor and triodes (and (TJ) connected to an electronic current fed by an operating current pulse generator. The signal to start slagging is removed from R, opens for a time, during which 2 turns out to be a locked positive GI pulse. This time can be adjusted with an impartial angle of the pulse. Tj is opened if the voltage across the EA exceeds the magnitude of the contact voltage drop on the erosion effect of a fiChip during a short circuit. The voltage corresponding to the opening of Tj is determined by the value of the resistors resistance (Pr) and (R,). With R, the signal for the start of slag is removed in the event that if the voltage at the end of the pulse is less than the specified one, i.e. less voltage PI, but more voltage when a short circuit: electrodes. The signal from R is fed to the pulse shaper on triodes T and T and then to the trigger on triodes T 5 and T. This triggers the flip, and triode T-J opens, causing the relay (P) to turn on, processing the process. At the same time, the time relay is triggered on the triodes Tg and Td, which through time; determined by the value of the resistance of the resistor and the capacitor capacitance C, it gives a pulse to the flip-flop of the trigger (the triodes Tr and T (,. T is closed, P is turned off, resumed processing. The main elements of the device according to the structural diagram in Fig. 3 are similar to dissociated. Time relay here replaced by an erosion gap resistance sensor (see fig1.5) consisting of a resistor Rj connected in series with a triode that acts as a key, PI, a gate Dg To eliminate EP bypassing the limiting resistor Rg And These GI resistance in the power circuit is applied to the valve V. resistor Rg, after passing through the valve is averaged chain CgR, is fed to a pulse shaper on the transistors T, and

At the beginning of the slagging, the signal from the resistor K passes to the pulse shaper on the triodes T and T and then to Tp to the triodeac Tu and T, transferring it. The triode T opens j including P, which interrupts the process.

In addition, the triode T opens. As the working fluid is renewed,.

erosion resistance increases. In this case, the voltage drop across the resistor Ry is reduced to the minimum value. The round (triodes Tj and T) is moved to the starting position. Triode T is closed and P is turned off. Processing process

may be resumed. Triode T

10 closes before the next start signal arrives.

10 slagings.

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gi

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Tr

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Tr

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Claims (3)

1. DEVICE FOR PROTECTION AGAINST SLAGING WHEN ELECTROEROSIONAL PROCESSING, in which the actuator is connected to a slag sensor connected to an erosion gap, and, in order to increase reliability, the slag sensor is made in the form of an auxiliary source of measuring voltage connected to the erosion gap through a valve _v , a measuring resistor and a key in the form of a logic element. This · And, composed of two series-connected semiconductor triodes, moreover, the input of one triode is connected via an additional * semiconductor triode to | an operating current pulse generator, and the input of another triode is similarly connected to an auxiliary measuring voltage source; 2. The device according to PD, characterized in that the time delay unit is made in the form of a trigger, one input of which is connected through the pulse shaper to the specified one. measuring resistor, the other input is to the output of the time relay, one of the outputs is connected to the input of the time relay, and the other to the input of the executive body. 3. The device according to claim 2, characterized in that, in order to automatically set the optimal _ time to interrupt the processing process, § the second trigger input is connected through an amplifier and driver to an erosion gap resistance sensor consisting of a semiconductor key and a measuring resistor connected to the erosion, the gap through the auxiliary source of the measuring voltage and the diode, and the input of the key together with the input of the executive body is connected to the output of the trigger.