TH28537B - Vacuum Plating Tool - Google Patents

Abstract

DC60 (15/10/52) Vacuum Electrode Haze Impregnation Tool can form a good quality film tube. without increasing the time in vain from the start of the plating to its completion. Even when the electrodes of the inductive actuator supply a vacuum electric spark in such a way that Responds to the deactivation of the vacuum spark discharge during film quenching. on the plating target object, for example, an electric vacuum spark smog plating tool that It consists of a shield element that moves to and from the position between the fog sources. Smoke and holding handle for supporting the plating target object. Positioning drive device of the optional shield in the masking position between the smog source and the holder, and the reverse position shifted from the shielding position. Current detector) that detects on/off function of the vacuum spark supply and the controls that control The actuator determines the position of the shield in the shielding position when the detector detects the deactivation of the vacuum spark supply. and determine the position of the shield in the The reverse position when the time required to stabilize the vacuum spark supply has elapsed. After the detector detects the activation of the vacuum spark supply. The Vacuum Electrode Haze Kit is capable of forming a good quality film sheet without in vain increasing the time from the start of the plating to its completion. Even when the inductor electrodes impart a vacuum spark in a manner that responds to the deactivation of the vacuum spark supply during film plating onto the plating target object. A vacuum spark day consisting of a shield element that moves to and from a position between the smog source and the carrying handle for the target object. dampen the actuator for selectively addressing the shield shield in the shielding position between the smog source and the holder. and a retreat position that is shifted from the position of the detector (for example, current detector) that detects the on/off function. of the vacuum spark distribution and the controls that control the actuator to address the shield shield in the shield position when the detector Detects the shutdown of the vacuum spark supply. and address the shield in the reverse position when the time required to stabilize the vacuum spark supply has elapsed after the detector detects the activation of the vacuum spark supply.

Claims (4)

1. Airless electric spark haze tool for setting film on target object. Impregnation by means of an induced haze source, the distribution of a vacuum spark between the cathode and the anode by the actuator electrodes which are opposite to the cathode. Containing A piece of a shield that moves away from its position between the source of the smog and the holding holder to support the plating target. A propulsion device for addressing the said shield element selectively in the location of the shield between the smog source and the carrier. And the retracting position which is moved from the said cover Detectors that detect Enable / Disable Of the haze source's vacuum spark supply and the controls controlling the drive device, address the shield part in such a shielding location when the spark supply deactivation detectors. vacuum And address the shield element in the aforementioned retraction position when the required time for the stabilization of the vacuum spark supply has elapsed after the detector detects its opening. Operation of vacuum electric spark supply 2. Vacuum electric spark haze tool set according to claim 1, which includes additional Magnetic filter provided for the said smog source. And that have a solenoid coils for magnetically formulating the negative electrode material produced from that cathode. By applying a vacuum electric spark to divert the ionized material towards the gripper. 3. Vacuum Spark Haze Apparatus in accordance with claim 2, where the control unit that controls the aforementioned power source equipment in such a way that the power source device is Interrupts the energization of the solenoid coil when the detector Detects the deactivation of the vacuum spark supply. And energizes the solenoid coil after the elapse of the time required for stabilizing the vacuum spark supply after the detector detects the activation of the spark supply. Vacuum 4. Vacuum Spark Haze Apparatus According to claim 1, where the detector is a current detector that detects the discharge current on the basis of a vacuum spark discharge. The said control determines that the vacuum spark is deactivated when it detects it, the preset output current is not detected. And the aforementioned control determines that the vacuum spark supply is activated when the detector detects the aforementioned preset output current. 1 where such a detector is a voltage detector that detects the voltage applied to the negative pole. This control determines that the vacuum spark is deactivated when the voltage detector does not detect the preset output current. And the aforementioned control determines that the vacuum spark supply is turned on when the aforementioned voltage detector detects the aforementioned preset output voltage. Rights 1 where the negative pole was initially made with carbon 7. Vacuum Spark Haze Apparatus According to claim 1, where the negative pole was initially made with carbon. And the aforementioned controls set For the negative electrode haze source, which was initially made with carbon. The time from one to three seconds is the time required for the stabilization of the vacuum spark supply after detection of the The vacuum spark discharge is activated by the detector. 8. Vacuum electric spark haze apparatus for plating the film on the target object. Plating by using a certain amount of haze source that induces the distribution of electric spark. The vacuum between the cathode and the anode by the actuator electrode which is opposite to the cathode. Containing Shield Fragment, which was provided for a large number of such Haze Originals respectively. Propulsion devices provided for such shielding components, respectively, the detectors it detects. Enable / Disable Of the vacuum spark supply of the haze source, respectively, and the controls where each of the shield components can be moved to and from the position between the haze source and the carrier holding the target object. Corresponding plating And each of the aforementioned propulsion device selectively addresses the said shield part in the shielding position between the source of the smog and the carrier. And the retracting positions which retract from the said cover and the said control each of the said propulsion devices shall all be addressed. Of the shield element in such a shielding position when at least one of the detectors detects the deactivation of the vacuum spark supply. And all the address of the aforementioned shield parts in the aforementioned reverse position when the required time for stabilizing the vacuum spark supply has elapsed after the detector detects its activation. Vacuum spark supply 9. Vacuum electric spark haze tool set according to claim 8, which includes additional A magnetic filter that is provided for at least one of the said smog sources. And that have a solenoid coils for magnetically formulating the negative electrode material produced from that cathode. By applying a vacuum electric spark to divert the ionized material towards the gripper. 1 0. Vacuum Spark Haze Apparatus in accordance with claim 9, where such control controls the said source device in such a way that each equipment The power source interrupts the energization of the solenoid coil when at least one of the detectors detects the deactivation of the vacuum spark supply. After all, all of such detectors have detected the activation of the spark supply. Vacuum 1 1. Vacuum spark haze apparatus according to claim 8, where such a detector detects an electric current that detects a discharge current on the basis of a vacuum spark discharge. The said control determines that the vacuum spark is deactivated when it detects such a predetermined output current. And the aforementioned control determines that the vacuum spark supply is activated when the aforementioned detectors detects the aforementioned preset output voltage. Holds 8 where such a detector is a voltage detector that detects the voltage that is applied to the negative pole. This control determines that the vacuum spark supply is deactivated when the aforementioned voltage detector does not detect a preset output voltage. And the aforementioned control determines that the vacuum spark supply is activated when the aforementioned voltage detector detects the aforementioned preset output voltage. Holds rights 8 where at least one of the aforementioned cathode was initially made with carbon 1 4. vacuum spark haze apparatus according to claim 8 where at least one of the aforementioned cathode Was initially made with carbon And the aforementioned controls set For each of the negative haze sources, which are initially preceded by carbon From one to three seconds is the time required for the stabilization of the vacuum spark supply after detection of the activation of the vacuum spark supply by the aforementioned detector. For the film set on the target object Plating, supported by the holder by the use of an induced haze source, the distribution of a vacuum spark between the cathode and the anode by the actuator electrodes opposite to the cathode. Containing A magnetic filter with a solenoid coil for formulating a magnetic field. And that controls the dispersion of the ions produced by the cathode material by means of a vacuum electric spark to move the ionized material towards the holder. The power source device that powers the solenoid coil. Detectors that detect Enable / Disable When the detector detects the power of the haze source and the controls that control the power source device, the power consumption of the solenoid is stopped when the detector detects the shutdown. Of the vacuum spark discharge and energize the solenoid coil when the time required for stabilizing the vacuum spark supply is elapsed after the detector detects the activation of the spark supply. Vacuum Electric 1 6. Vacuum Spark Haze Apparatus for according to claim 15, where such a detector is a current detector that detects a discharge current on the basis of a vacuum spark discharge. The said control determines that the vacuum spark is deactivated when it detects it, the preset output current is not detected. And the aforementioned control determines that the vacuum spark supply is activated when the aforementioned voltage detector detects the aforementioned preset discharge current. Claim 15 where such a detector is a voltage detector that detects the voltage applied to the negative pole. This control determines that the vacuum spark supply is deactivated when the aforementioned voltage detector does not detect a preset output voltage. And the aforementioned control determines that the vacuum spark supply is activated when the aforementioned voltage detector detects the aforementioned preset output voltage. Claim 15 where the cathode was initially made with carbon 1 9. Vacuum spark haze apparatus for according to claim 15 where the negative pole was initially made with carbon. And the aforementioned controls set For the negative electrode haze source, which was initially made with carbon. The time from one to three seconds is the time required for the stabilization of the vacuum spark supply after detection of the The vacuum spark discharge is activated by the detector 2 0. Vacuum spark haze apparatus for the film set on the target object. Plating, which is supported by the holder by the use of a certain number of induced haze sources, the distribution of a vacuum spark between the cathode and the anode by the actuator electrode opposite to the cathode. Containing Magnetic filters, which are placed for a large number of such haze sources in order, power source devices to power such magnetic filters, respectively, the detectors detect Enable / Disable Of the vacuum spark supply of the aforementioned haze source, and the controls in which each of the aforementioned magnetic filter has a solenoid coil that is powered by the power source device for Forms the magnetic field And such solenoid coils form a magnetic field that controls the diffusion of the negative ions produced by the negative electrode by applying a vacuum electric spark to move the ionized material towards the holder as follows. Said and The controller controls the power source device to stop all energizing of the said solenoid coil when at least one of the detectors detects the deactivation of the spark supply. vacuum And provide the total power of the solenoid coil when required for the stabilization of all such vacuum spark supply after All of the detectors detected an activation of the vacuum spark discharge 2. 1. Vacuum spark haze apparatus for claim 20, where the sensed detector is a current detector that detects the discharge current on the basis of vacuum spark discharge. The said control determines that the vacuum spark is deactivated when it detects such a predetermined output current. And the aforementioned control determines that the vacuum spark supply is turned on when the aforementioned detector detects the aforementioned pre-set output current 2. 2. Vacuum spark haze apparatus for claim 20 where at least one detector is a voltage detector that detects the voltage applied to the negative pole. This control determines that the vacuum spark supply is deactivated when the aforementioned voltage detector does not detect a preset output voltage. And the aforementioned control determines that the vacuum spark supply is activated when the aforementioned voltage detector detects the aforementioned preset output voltage 2. 3. Vacuum electric spark haze set apparatus for claim 20 where the negative electrode is made mainly of carbon 2. 4. Vacuum electric spark haze apparatus for claim 20 where the negative electrode is made mainly of carbon. And the aforementioned controls set For each carbon-based negative haze source From one to three seconds is the required time for the stabilization of the vacuum spark supply after detecting the activation of the vacuum spark supply by the detector.