TH64033B - Thrust drives, methods for producing the same, and devices such as magnetic discs. - Google Patents

Claims (3)

Disclaimer (all) which will not appear on the advertisement page. : ------ 06/11/2017 ------ (OCR) Page 1 of 3 pages Disclaimer 1. Voltage-driven actuators which include: The cube is made of electrolytic ceramic and has two main faces facing in. Find each side, and the four side faces connect the two main faces; An external electrode being held on the main surface; The recess made up of four lateral surfaces; And a resin coating and arranged on the four side faces, where the coating covers the concave part of the four side faces. It also includes: The reinforced resin composite is provided on the surface of the external electrode as At least one pole along the periphery of the surface Where the surface is opposite to the surface which belongs to the electrode At least one external pole and is in contact with an electric object. 2. A thrust drive in accordance with claim 1, where the reinforcement assembly is constructed. Up as the same unit, the coating layer. 3. How to produce a thrust drive that uses electric power. Where the method is assembled: step one where the aggregate base layer is prepared, in which a metal layer is arranged on each side. Of the two faces facing each other of the parent base layer of the impulse electrolytic ceramic; The second stage with film bonding, which has adhesion power to the base layer, aggregates and layer fixation. Aggregate base on the reference plane based on the film; The third stage, where masks are arranged on the base layer, the fixed aggregates; The fourth step where the aggregate base layer is cut together with the mask to create a groove for creating shaped chips. Resembling many cubes; The fifth step where the uncured resin is applied to the cut surface of several chips and Then a coagulated uncured resin is then made to form a coating; And the sixth step where the mask is removed from the chip and the chip is removed from the film. Where after The first and the second steps also include: page 2 of the number 3 pages of the seventh step, where a plan for the resin-reinforced composite is placed on top. At least one metal layer on the base layer. Where the pattern plan of the reinforcing piece will Protruding from both sides of the section where the groove was made in the fourth step, where the scheme of the reinforcing assembly cut in the fourth step joined the mask and The base layer of the aggregate is a reinforced component. 4. Method for producing an electric actuator according to claim 3 wherein the fifth step. Unmade resin The solids are then hardened into the space between the film and the base layer, the aggregates, or the design of the reinforcing components, and then are hardened to form the reinforcing components. Voltage power according to claim 4, where in the third step, the mask will form the second film. And by that in the fifth step The uncured resin enters the space between the The second film with the base layer, the aggregate or the pattern of the reinforced composite. And then it will be right 6. Method for producing a propulsion actuator according to claim 3 where in the third step the mask will be a second film. And by that in the fifth step The uncured resin enters the space between the The second film with the base layer, the aggregate or the pattern of the reinforced composite. And then it will be right Solidified to become a piece of strength. 7. How to produce a propulsion that uses electric power. Where the assembly method is included: the first step where the aggregate base layer is prepared, in which a metal layer is arranged on each side. Of the two faces facing each other of the parent base layer of the impulse electrolytic ceramic; The second stage with film bonding, which has adhesion power to the base layer, aggregates and layer fixation. Aggregate base on the reference plane based on the film; The third stage, where masks are arranged on the base layer, the fixed aggregates; The fourth step where the aggregate base layer is cut together with the mask to create a groove for creating shaped chips. Resembling many cubes; 3 pages of the number 3 pages The fifth step where the uncured resin is applied to the cut surface of several chips and Then a coagulated uncured resin is then made to form a coating; And the sixth step where the mask is removed from the chip and the chip is removed from the film; Where in the fifth step The uncured resin enters the space between the film and the aggregate base layer, and then is hardened to form a reinforced composite. Hold the right 7, where in the third step the mask will be the second film. And by that in the fifth step The uncured resin enters the space between the The second film with the aggregate base layer. And then it will be hardened to become a piece of strength. 9. How to produce a propulsion that uses electric power. Where the method is assembled: step one where the aggregate base layer is prepared, in which a metal layer is arranged on each side. Of the two faces facing each other of the parent base layer of the impulse electrolytic ceramic; The second stage with film bonding, which has adhesion power to the base layer, aggregates and layer fixation. Aggregate base on the reference plane based on the film; The third stage, where masks are arranged on the base layer, the fixed aggregates; The fourth step where the aggregate base layer is cut together with the mask to create a groove for creating shaped chips. Resembling many cubes; The fifth step where the uncured resin is applied to the cut surface of several chips and The cured uncured resin is then made to form a coating; And the sixth step where the mask is removed from the chip and the chip is removed from the film; Where in the third step The mask will be the second film. And by that in the fifth step The resin is not The solidification will enter the space between the second film and the aggregate base layer. And then it will be made Solid to become strengthened components ------------ 1. Thrust drive, which consists of: a cubic pressure object made of ceramic. Voltage power and has two main surfaces that Facing each other and the four faces that connect the main faces The recessed part is built into the four side faces and the resin coated layer and arranged on the four side faces. Where the coating covers the concave parts in the four lateral surfaces. 2. Propulsion driven by claim 1, which also includes: reinforced resin components provided. They are located on the surface of the external electrode. At least one step along the perimeter of the surface Where the surface is opposite to the surface, which is the electric wire At least one outside, and in contact with an electrically energized object. 3. A thrust drive, in accordance with claim 2, where the reinforcing component is constructed. Up in the same unit as the coating. 4. Throttle drives that use electric voltage according to claim 1 to 3, any of them. Where the coating layer is made with A coagulated cin with a viscosity in the uncovered state greater than 1 mPa \ 's and less than 100 mPa: s. 5. What are the propulsion drives according to Claim 1 to 4? One Where the coating layer will have Thickness equal to 1 Um or less on all four sides of the face. 6. An electric thrust drive according to one of the claims 1 to 5. Where the voltage with electric power will It is a chip which is made by cutting the aggregate base layer, and the four lateral surfaces are the clipped face of the aggregate base layer 7. The propulsion driven by any one of claims 1 to 6. Where the coating layer will be in contact with The bottom of the recessed part in the four lateral surfaces. 8. A device, such as an upper disk, in which one of the propulsion drives in accordance with claims 1 to 7, is installed. Production of thrusters that use electric power Where the assembly method is included: the first step where the aggregate base layer is prepared, the metal layer is provided on each side of the The two faces facing each other of the parent base layer of the impulse ceramic impeller. The second stage with a powerful film sticking, adhesion to base layer, aggregates and layer fixation. The base of the total mass on the reference plane through the film. The third stage where masks are arranged on the base of the fixed aggregates. The fourth step where the aggregate base layer is cut together with the mask to create a groove for creating shaped chips. Like many cubes The fifth step in which the uncured resin is applied to the cut surface of several chips, and later. It will harden the uncured resin to provide a coating layer, and a sixth step with chip mask removal and chip removal from film. Push according to claim 9, where the viscosity of the resin is not made. The solidification is greater than 1 mPa (formula) s and less than 100 mPa (formula) s 1. 1.Method of manufacture of a propulsion actuator according to claim 9 or 10 after the first step and Before the second step Where the method is also assembled: The seventh step where a reinforced composite plan made of resin is set up on top. At least one metal layer on the base layer. Where the pattern plan of the reinforcing piece will Protruding from both sides of the section from which the groove was made in the fourth step. Where the pattern plate of the reinforcement, which was cut in the fourth step, joined the mask and The total mass base layer will be a piece of reinforcement 1. 2. A method for producing a propulsion drive in accordance with any of Claim 9 to 11, where in the fifth step, the uncured resin enters the gap between the film and the aggregate base layer. Or plan A type of reinforced assembly, and then is hardened to form a reinforced assembly. 3. Method of manufacture of a propulsion drive in accordance with one of Claims 9 to 12 where in the third step the mask will be the second film, and where in the fifth step. The uncured resin gets into Through the slit between the second film and the base layer, the aggregates or the designation of the reinforcing composite are formed and then hardened to form a reinforced composite.