TH69798B - Electroplating metal forming equipment - Google Patents

Abstract

Revised Invention Summary 9/03/2015 The current invention relates to electric profiling equipment. Electrical profiling equipment including first switch that was arranged between the positive pole of the power supply and the workpiece; The second switch is provided between the negative terminal of the power supply and workpiece; The third switch is arranged between the negative terminal of the power supply and instrument electrodes; The fourth switch is provided between the positive terminal of the power supply and instrument electrodes; and pulse generator devices to supply a series of pulses of electric current to Forming blanks with polarity matching The device determines the on-off pulse of the first switch or one of the three switches repeatedly while the other switches open to supply a series of current pulses to the Blanks in machining with reverse polarity Pulse generator on-off second switch or one of the four repeatedly together while the other switches are on -------------------------------------------------------- ------------------------------- New request, update Today's invention involves electrically powered metal forming equipment which Delivering a pulse of current into the forming gap (9) when polarity is reversed, the electroplating milling apparatus includes: the first switch (41) provided between the supply positive terminals. fire (30) and workpiece (4); The second switch (42) is provided between the negative terminals of the power supply and workpiece; A third switch (43) is provided between the negative terminals of the power supply. and the electrodes of the instrument (2); The fourth switch (44) is provided between the positive terminals of the power supply and instrument electrodes; and a pulse generator (10) to supply a series of pulses. of the electric current to the machining gap with matching polarity The pulse generator switches on-off either one of the first or third switches repeatedly while the other switches open to supply a series of pulses. of the electric current to the machining gap in reverse polarity Pulse generator on-off, either second or fourth switch repeatedly. together while the other switches are on:

Claims (2)

Disclaimer (all) which will not appear on the advertisement page. : ------ 05/07/2018 ------ (OCR) Page 1 of 4 pages Disclaimer 1. Electric discharge milling machine set for milling workpieces. By supplying pulses of current to the machining gaps. Created between the workpiece and the tool electrode While switching between the polarity Where the workpiece is a positive electric potential and the tool electrode is a negative electric potential. And reverse polarity Where the workpiece is a negative electric potential and the tool electrode is a positive electric potential. The electric discharge milling cutter consists of: power supply with positive and negative poles; The first switch placed between the positive terminal of the power supply and the workpiece; The second switch positioned between the workpiece and the negative pole of the power supply; The third switch placed between the instrument electrode and the power supply negative pole; The fourth switch placed between the power supply positive terminal and the instrument electrode; And a pulse generating device consisting of A logic circuit was created to control the first, second, third and fourth switches, where the first and either third switches were on. The pulse generating device repeats on other switches on / off. Of the first switch and the third switch to supply a series of pulses of direct polarity to the milling gap While either the second switch and the fourth switch are on. The pulse generating device repeats on other switches on / off. Of the second switch and the fourth switch to supply a series of pulses of polarized current to the milling gap The time interval between the first switch and either switch is ON. There is sufficient length that the voltage in the milling gap can be increased sufficiently. While all of the switches that are repeated on the other of the first and third switches and the time interval between either the second and the fourth switch are on, There is sufficient length that the voltage in the milling gap can be increased sufficiently. While all the switches that are repeated on the other side of the second switch and the fourth switch 2. The series of electro-discharge milling machines as claim 1, where the bridge circuit is built. Where one connection point is placed between the first switch and the second switch. The second connection point is positioned between the second switch and the third switch. The third connection point is located between the third switch and the fourth switch. And the fourth junction was placed between the fourth switch and the first switch, and page 2 of the four junctions. The first junction was connected to the workpiece. The second connection point is connected to the negative terminal of the power supply. The third connection point is connected to the instrument electrode. And a fourth junction is connected to the positive terminal of the power supply. 3. The electric discharge milling machine assembly, as claim 1, also consists of: a transistor, one placed in an electrical circuit where current flows through the switch. The first Gaps in profiling And a third switch with a direct polarity One resistor whose end is connected to the base of the first transistor and the other end. That is connected to the collector of the first transistor The second transistor is placed in a bridge electric circuit where current flows through the fourth switch. And the second switch with reverse polarity condition; And a second resistor whose end is connected to the base of the second transistor and the other end 4. A set of milling machine with electric discharge as claim 3, where the first transistor and the second transistor are bipolar transistors. The electrical discharge follows claim 3, where the pulse generating device switches off at least one second and fourth switch. With the first switch and either switch open to supply pulses of polarity current to the milling gap; And the pulse generator switches off at least one of the first and third switches, while either the second and the fourth switches open to supply pulses of reverse polarity to the gaps in the 6. Electro-discharge milling unit as claim 5, where the pulse generating device switches off both the second and the fourth switches, while the first and either third switches. Open to supply pulses of the polar current to the milling gap; And the pulse generator switches off both the first and the third switches. While either the second and the fourth switches are open to supply pulses of reverse polarity to the milling gap, 7. Where, while the first switch and either switch on The pulse generating device repeats on other switches on / off. Of the second switch and the fourth switch To supply pulses of the polar current to the milling gap; And while either the second switch and the fourth switch are on The pulse generating device repeats on other switches on / off. Of the first switch and the third switch to supply pulses of polarized current to the machining gap Page 3 of the number 4 Page 8. Electric discharge milling cutter for part milling. work By supplying pulses of at least one current in reverse polarity to the milling gap. That is generated between the workpiece and the tool electrodes after supplying at least one current pulsed current to the milling gap. Where the workpiece is a negative electric potential and the tool electrode is a positive electric potential in the reverse polarity and the workpiece is positive and the tool electrode is a negative electrode in the corresponding polar state. Electric discharge milling cutter consists of: First power supply with positive and negative poles; Second power supply with positive and negative poles; The first switch positioned between the positive terminal of the first power supply and the workpiece; The second switch is placed between Workpiece and negative pole of the second power supply; The third switch placed between the instrument electrode and the first power supply negative terminal; The fourth switch placed between the positive terminal of the second DC power supply and the instrument electrode; and A pulse generating device consisting of A logic circuit was created to control the first, second, third and fourth switches, where the first and either third switches were on. The pulse generating device repeats on other switches on / off. Of the first switch and the third switch to supply pulses of the polarized current to the milling gap While either the second switch and the fourth switch are on. The pulse generating device repeats on other switches on / off. Of the second switch and the fourth switch to supply pulses of polarized current to the milling gap The time interval between the first switch and either switch is ON. There is sufficient length that the voltage in the milling gap can be increased sufficiently. While all of the switches that are repeated on the other of the first and third switches and the time interval between either the second and the fourth switch are on, There is sufficient length that the voltage in the milling gap can be increased sufficiently. While all the switches that are repeated on the other side of the switch, the second and the switch are the fourth, the discharge-forming machine series, Clause 8, also contains: the first transistor placed in the electrical circuit where The current flows through the first switch. Gaps in profiling And a third switch with polarity in front of 4 of number 4, resistor one with ends connected to the base of the first transistor and the other end. That is connected to the collector of the first transistor A second transistor placed in a bridge electric circuit where current flows through the second switch. And the fourth switch with reverse polarity condition; And a second resistor whose end is connected to the base of the second transistor and the other end It is connected to the collector of the second transistor 1 0. Set of milling machine with electric discharge Clause 9 where the first transistor and the second transistor are bipolar transistors 1 1. Bipolar transistors 1. Figure with electrical release as claim 8, where the pulse generating device switches off at least one second switch and at least one fourth switch. With the first switch and either switch open to supply pulses of polarity current to the milling gap; And the pulse generating device switches off the first and at least one third switch. The second and the fourth switch, either open, to supply pulses of reverse polarity to the milling gap 1 2. Electric discharge milling cutter set as Claim. 11 where the first switch and either switch are on The pulse generator switches off both the second switch and the fourth switch. To supply pulses of the polar current to the milling gap; And while either the second switch and the fourth switch are on The pulse generator switches off both the first and the third switches. To supply pulses of reverse polarity to the milling gap. ------------ Correction 3/9/2015 1. A switch is established between the tool electrodes. And the workpiece while choosing to switch The polarity is opposite of the positive electrode potential of the apparatus and the negative potential of the work. And the condition of the positive to negative electrode of the tool and the positive electric potential of the workpiece in the milling cutter set with the power supply for the milling of the workpiece by pulse distribution. Of electric current into the gap in the barrier forming The second switch is arranged between the first switch provided, between the positive and negative power supply and the workpiece, and the positive end of the power supply and the negative pole of the power supply and the workpiece and the fourth switch. That was provided between the third switch that was arranged between the terminals of Instrument power supplies and electrodes and instrument electrodes and indicator terminals of the first power supply and pulse generators for switch control of the second, third and fourth parts. Positive current pulse sequence is supplied to the machining gap. The pulse generator is turned on. And off, which alternates the action of the switch during the other Which selects the third switch one and Repeat part one. Pulse generators operate on-off switches at other intervals. Which selects one of the four switches And the second is supplied to the milling gap, b forming in the pulse of the opposite polarity current. Maintain a duplicate of the milling cutter with a batch supply 2. Between the second connection point of the first switch and the first switch is provided. Switch to switch between the third junction of the second and the second and fourth junction of the The third and third bridge circuits provided between the switches were provided to switch between points. Connect the first of the fourth part and the fourth part is built. The junction of the first section is connected. With such workpiece Such a second connection was connected to the negative terminal of the electrical source, the junction of the third part was connected to the instrument electrode, point 52 was powered according to claim 1, which was connected to the positive terminal of the junction. The electrical source of the input device The fourth process 3. The first transistor provided in the circuit flows positive currents through the first switch and the third switch and milling gaps. One end was connected to the base of First transistor The first resistor connected to the collector of the first transistor and the other end provided in the circuit flows an opposite polarity through the fourth switch, the second switch and the milling gap. Power-supply milling cutter set according to claim 1, which is equipped with a second resistor connected to the collector of the transistor. Second and other end The second transistor, which is one end, is connected to the base of The second transistor 4. A set of dispensing-forming machines of the second transistor according to claim 3, where the transistor is bipolar and part 5. The range, where one second switch is selected, and one part is supplied to the channel. Available to Milling with positive current pulses Pulse generator, including the fourth switch At least one and the second and then close one. The range, which one of the fourth and second switches is selected, is supplied to the pulsed milling gap. Of electric current, opposite polarity Poles generator includes a third switch, one is At least and in part Power-supply milling cutter set according to claim 1, which closes the other 6. The range, which selects one of the third slitsch, and part one is supplied to the gap in the power supply. Milling with anode current pulses, pulse generators, both the fourth and second switches, the ranges which select the fourth switch, one and the second are fed to the milling gap. form In the pulses of electric current, opposite polarity Pulse generator includes the first part and The first switch was closed. Set of electrically powered metal milling machines according to claim 5, switched off of both switches 3 7. Range, where one of the third switches is selected and the first is supplied to the gap in the switch. Milling with anode impulse pulses, pulse generators, other four switches, second part. The on-off operation of the switch was repeated. The range, which one is selected in the fourth switch, and the second is supplied to the milling gap in the Current pulses, opposite polarity, pulse generators, other switches, the first and third. Power supply milling set according to claim 5, a switch-on-off operation is repeated 8. After the milling gap is created between the tool electrodes and the workpiece, One or more pulses of current, anode to negative voltage. To the tool electrode and the workpiece's positive electric potential, and the tool and the workpiece's negative electric potential by supplying at least one pulse of the current state opposite to Positive electrode potential, power supply unit for machining the workpiece, the first switch is provided between The first power supply with positive and negative, and the second power supply with positive and negative poles, and the workpiece and the positive end of the first power supply, the third switch is provided between. A second switch is provided between the negative terminal of the second power source and the workpiece, and the negative end of the first power supply and the instrument electrode, and a pulse generator for controlling the fourth switch is provided. Between the electrodes of Apparatus and positive ends of the second electrical source, the fourth switch, the first, the second, and the third. The selected range, one of the third and first switches, is supplied to the available milling gap. Pulse of anode current, the device of the pulse generator repeats the Perform other on-off switches. What is supplied to the milling gap in the pulse of the opposite polarity electric current. Each is the range which select the fourth switch one and the second, pulse generator device, other on-off operation. Repeatedly supplying the milling unit. 9. A transistor that is provided in the circuit flows positive current through the first switch, and the third switch. And the forming gap, one end which is connected to the base Of the first transistor One resistor is connected to the collector of one transistor and the other end. Is provided in a flow circuit in an electric current, opposite polarity through The second switch, and the fourth switch and Gaps in profiling Thread milling machine series The power supply of claim 8 is added with a second resistor that is connected to the collector. Of the second transistor and the other end The second transistor, one of which is It is connected to the base of the second transistor 1 0. The mill set with the supply of the second transistor according to claim 9 is a bipolar transistor, and part 1 1. The range, which selects the third switch, one and the part. One was paid to the gap in Milling with anode current pulses, pulse generator Including the fourth switch At least one and the second and then close one. The range where one fourth switch is selected and the second is supplied to the milling gap in the Pulse of electric current, opposite polarity, pulse generator Including one third switch At least and part one In accordance with claim 8, you must turn off the other switches 1 2. Range, where one third switch is selected, and one part is supplied to the gap to Milling with the anode current pulses, pulse generators, both the fourth and second switches, the ranges which select at least the fourth and second switches are fed to the milling gap. form In the pulse of the opposite polarity current, the pulse generator, including the first switch and the one switch, closes the metal milling machine with a power supply according to claim 11, both of which are switched off.3 - -------------------------------------------------- New Request Improvements 1. A switch is made between the tool electrode and the workpiece while the toggle is selected The polarity is opposite of the positive electrode potential of the apparatus and the negative potential of the work. And the condition of the positive to negative electrode of the tool and the positive electric potential of the workpiece in the milling cutter set with the power supply for the milling of the workpiece by pulse distribution. Of electric current to the milling gap The second switch is provided between the first switch provided, between the positive and negative power supply and the workpiece, and the positive end of the power supply and the negative pole of the power supply and the workpiece and the fourth switch. That was provided between the third switch that was provided between the negative electrodes of Instrument power supplies and electrodes and instrument electrodes and indicator terminals of the first power supply and pulse generators for switch control of the second, third and fourth parts. Positive current pulse sequence is supplied to the machining gap. The pulse generator is turned on. And off, which alternates the action of the switch during the other Which selects the third switch one and Repeat part one. Pulse generators operate on-off switches at other intervals. Which selects one of the four switches And the second is supplied to the milling gap in the current pulse of the opposite polarity. In a duplicate of the milling cutter with a series supply 2. Between the second connection point of the first switch and the first switch is provided. Switch to switch between the third junction of the second and the second and fourth junction of the The third and third bridge circuits provided between the switches were provided to switch between points. Connect the first of the fourth part and the fourth part is built. The junction of one section is connected. With such workpiece Such a second connection was connected to the negative terminal of the electrical source, the junction of the third part was connected to the instrument electrode, point 52 was powered according to claim 1, which was connected to the positive terminal of the junction. The electrical source of the input device The fourth process 3. The first transistor provided in the circuit flows positive currents through the first switch and the third switch and milling gaps. One end was connected to the base of First transistor The first resistor connected to the collector of the first transistor and the other end provided in the circuit flows an opposite polarity through the fourth switch, the second switch and the milling gap. Power-supply milling cutter set according to claim 1, which is equipped with a second resistor connected to the collector of the transistor. Second and other end The second transistor, which is one end, is connected to the base of The second transistor 4. A set of dispensing-forming machines of the second transistor according to claim 3, where the transistor is bipolar and part 5. The range, where one third switch is selected, and one part is supplied to the channel. Available to Milling with positive current pulses Pulse generator, including the fourth switch At least one and the second and then close one. The range, which one of the fourth and second switches is selected, is supplied to the pulsed milling gap. Of electric current, opposite polarity Pulse generator includes a third switch, one is At least and in part Power-supply milling cutter set in accordance with claim 1, which closes the other 6. Range, which selects one of the third switches and the first is supplied to the gap in the power supply. Milling with anode current pulses, pulse generators, both the fourth and second switches, the ranges which select the fourth switch, one and the second are fed to the milling gap. form In the pulses of electric current, opposite polarity Pulse generator includes the first part and The first switch was closed. Set of electrically powered metal milling machines according to claim 5, switched off of both switches 3 7. Range, where one of the third switches is selected and the first is supplied to the gap in the switch. Milling with anode current pulses, pulse generators, other fourth and second switches. The on-off operation of the switch was repeated. The range, which one of the fourth switch is selected, and the second is supplied to the milling gap in the Pulses of electric current, polarity, pulse generator, other switches, the first and third. Power supply milling set according to claim 5, a switch-on-off operation is repeated 8. After the milling gap is created between the tool electrodes and the workpiece, One or more pulses of current, anode to negative voltage. To the tool electrode and the workpiece's positive electric potential, and the tool and the workpiece's negative electric potential by supplying at least one pulse of the current state opposite to Positive electrode potential, power supply unit for machining the workpiece, the first switch is provided between The first power supply with positive and negative, and the second power supply with positive and negative poles, and the workpiece and the positive end of the first power supply, the third switch is provided between. A second switch is provided between the negative terminal of the second power source and the workpiece, and the negative end of the first power supply and the instrument electrode, and a pulse generator for controlling the fourth switch is provided. Between the electrodes of Apparatus and positive ends of the second electrical source, the fourth switch, the first, the second, and the third. The range, where one of the third and first switches is selected, is supplied to the available milling gap. Pulse of anode current, the device of the pulse generator repeats the Perform other on-off switches. What is supplied to the milling gap in the pulse of the opposite polarity electric current. Each is the range which select the fourth switch one and the second, pulse generator device, other on-off operation. 9. The first transistor supplied in the circuit flows positive current through the first switch, and the third switch. And the forming gap, one end which is connected to the base Of the first transistor One resistor is connected to the collector of the transistor, one end and the other end are provided in the circuit flowing in an electric current through the opposite polarity. The second switch, and the fourth switch and Gaps in profiling Thread milling machine series The power supply of claim 8 is added with a second resistor that is connected to the collector. Of the second transistor and the other end The second transistor, one of which is It is connected to the base of the second transistor 1 0. The milling set with the supply of the second transistor according to claim 9 is a bipolar transistor and the first 1. 1. The range which selects the third switch, one and the part is supplied to the gap in the Milling with anode current pulses, pulse generator Including the fourth switch At least one and the second and then close one. The range where one fourth switch is selected and the second is supplied to the milling gap in the Pulse of electric current, opposite polarity, pulse generator Including one third switch At least and part one Electrically powered milling machine set according to claim 8, you must turn off the other switches 1. 2. The range which selects the third switch, one and the part is supplied to the gap in the Milling with the anode current pulses, pulse generators, both the fourth and second switches, the ranges which select at least the fourth and second switches are fed to the milling gap. form In the pulse of the opposite polarity current, the pulse generator, including the first switch and the one switch, closes the metal milling machine with a power supply according to claim 11, both of which are switched off 3.