TWI473670B - Means for arranging the electrodes in parallel to destroy the metal layer of the disc - Google Patents

Description

Device for arranging electrodes to destroy optical metal layer by progressive parallel arrangement

The present invention relates to a method and apparatus for destroying a metal layer of a disk by progressively parallelizing electrodes, particularly for destroying a metal layer of a disk by electrodes arranged in a progressive and parallel manner.

The method used to destroy the metal layer of the optical disc by the arc is to use the arc discharge generated between the positive and negative electrodes to destroy the metal layer of the optical disc.

The technique disclosed in the case of the method of destroying the metal layer of an optical disk by the arc of the Republic of China No. I335026 includes the following steps: a. connecting at least one set of positive and negative electrodes with a high voltage discharge circuit, b. The positive electrode and the negative electrode are arranged in sequence without overlapping each other, c. arcing the positive electrode and the negative electrode, and the metal layer of the optical disk is within the range of the arc discharge, d. between the metal layer of the optical disk and the positive electrode and the negative electrode Relatively changing position to expand the area of the arc metal layer of the optical disc.

The disadvantages of the aforementioned methods for arc destruction of the optical metal layer are as follows:

1. In the current method and apparatus for removing the metal layer of the optical disc, there is no function of destroying the metal layer of the optical disc by progressive arc discharge.

2. Lack of progressive arc discharge, it is impossible to completely remove and destroy the metal layer of the optical disc, and it is easy to cause partial damage.

In summary, the previous case mentions the use of the arc to destroy the metal layer of the optical disc. The method technology, although it can achieve the basic cleaning and destruction function requirements to a certain extent for the metal layer of the optical disc, there are many disadvantages in the cleaning and destruction performance, the arc discharge density and the continuity and the overall structural design in use. In the absence of the situation, it is impossible to exert more specific industrial applicability.

Due to the conventional method of destroying the metal layer of the optical disc by arc, there are some shortcomings and shortcomings mentioned above. Based on the future trend of industrial progress, it is necessary to propose specific improvement plans to meet the needs of industrial progress and further provide the industry with more More technical options.

The invention solves the defects of the method for eliminating the destruction performance, the arc discharge density and the continuity and the overall structural design by the method for the arc destruction of the optical metal layer of the optical disc, and the problem of being limited in practical technology and the like. In order to achieve effective lifting and destructive performance, on the other hand, it is to improve the arc discharge density and continuity and simplify the structure of the device, in order to achieve the basic cleaning and destruction function, and to meet the requirements of industrial applicability.

In order to achieve the above object and function, a method for arranging electrodes in a progressively parallel arrangement to destroy a metal layer of a disc is as follows:

a. Plate energization: at least one positive electrode and the corresponding negative electrode are formed after energization of a plate.

b. Electrode arrangement: the positive electrode and the negative electrode are arranged in parallel.

c. Arc discharge: Arc discharge is performed between the positive electrode and the negative electrode, and a metal layer of the optical disk is in the range of its arc discharge.

The distance between the parallel arrangement of the positive electrode and the negative electrode is gradually reduced to form a progressive parallel arrangement.

The thickness of the flat plate and the height of the metal layer of the optical disc are both much smaller than the distance between the progressive parallel arrangements.

In addition, a device for arranging the electrode metal layer by progressively parallelizing the electrodes, the specific technical means and scheme adopted by the device include: a body.

A power source is disposed on the body.

A motor is disposed on the body and electrically connected to the power source.

A conveyor belt is disposed on the body and electrically connected to the power source, and the conveyor belt is powered to connect the motor.

A flat plate is disposed on the body and positioned above the conveyor belt and has a plurality of positive electrodes and a plurality of negative electrodes.

The positive electrode and the negative electrode are arranged in parallel, and the pitch thereof is gradually reduced to form a progressive parallel arrangement.

An arc discharge is generated between the positive electrode and the negative electrode by a power supply.

The distance between the positive electrode and the negative electrode is much larger than the distance between the flat plate and the metal layer of the optical disc.

The advantages and disadvantages of the method and apparatus for destroying the optical metal layer of the electrode in progressively parallel arrangement are:

1. The present invention has the function of progressive arc discharge to destroy the disc metal.

2. For the complete removal and destruction of the metal layer of the optical disc, there will be no incomplete phenomenon of local damage.

3. The cleaning performance is higher than that of the equidistant electrode arrangement, and the arc discharge is dense and continuous.

(1) ‧‧‧ Ontology

(2) ‧‧‧Power supply

(3)‧‧‧Motor

(4)‧‧‧Conveyor belt

(5) ‧ ‧ tablet

(51)‧‧‧ positive electrode

(52) ‧‧‧negative electrode

(6) ‧ ‧ CD

The first figure is a schematic diagram of the flow of the method for destroying the metal layer of the optical disc according to an embodiment of the present invention.

Second: A schematic diagram of an overall configuration architecture of an embodiment of the present invention.

Third Embodiment: A perspective view of an overall structure of an embodiment of the present invention.

Fourth Figure: A side cross-sectional view showing the overall structure of an embodiment of the present invention.

Fig. 5 is a view showing the relationship between the electrode distance and the thickness of the flat disc layer in an embodiment of the present invention.

Please refer to the first figure, which is a schematic diagram of the steps of the method for destroying the metal layer of the optical disc according to an embodiment of the present invention. The present invention is a method for destroying the metal layer of the optical disc by progressively parallelizing the electrodes, and the steps are as follows (see also the third figure):

a. Plate energization: at least one positive electrode (51) and the corresponding negative electrode (52) are formed by energization of a flat plate (5).

b. Electrode arrangement: the positive electrode (51) and the negative electrode (52) are arranged in parallel, and the distance between the parallel arrangement of the positive electrode (51) and the negative electrode (52) is gradually reduced to form a progressive parallel arrangement.

c. Arc discharge: The positive electrode (51) and the negative electrode (52) are arc-discharged, and the metal layer of a disc (6) is in the range of its arc discharge.

The thickness of the flat plate (5) and the height of the metal layer of the optical disc (6) are both much smaller than the distance between the progressive parallel arrangements to ensure that the arc discharge range covers the metal layer of the entire optical disc (6); that is, the positive electrode (51) and the negative electrode The distance between the electrodes (52) [L ₁ ≧L ₂ ≧...≧L _n ] is much larger than the distance h between the surface of the flat plate (5) and the surface of the metal layer of the optical disc (6), that is, L _n >h, as shown in the fifth figure. Shown.

Please refer to the second to fourth embodiments, which are respectively a schematic diagram of an overall configuration architecture, a schematic view of the overall structure, and a side view of the overall structure. The method of the present invention is applied to the apparatus for progressively parallelizing the electrodes to destroy the optical metal layer of the optical disc. The utility model comprises a body (1), a power source (2), a motor (3), a conveyor belt (4) and a flat plate (5), wherein: a body (1).

A power source (2) is disposed on the body (1).

A motor (3) is disposed on the body (1) and electrically connected to the power source (2).

A conveyor belt (4) is disposed on the body (1) and electrically connected to the power source (2), and the conveyor belt (4) is electrically connected to the motor (3).

a flat plate (5) is disposed on the body (1) and above the conveyor belt (4), and has at least a plurality of positive electrodes (51) and a plurality of negative electrodes (52), the positive electrode (51) and the negative electrode The electrodes (52) are arranged in parallel, and the pitch thereof is gradually reduced to form a progressive parallel arrangement, and the positive electrode (51) and the negative electrode (52) are electrically connected to each other to generate an arc discharge by the power source (2).

By placing the optical disc (6) [as shown in the third figure] by the above device The metal layer of the optical disk (6) is destroyed by the arc on the conveyor belt (4), and its main purpose is to destroy the metal layer of the optical disk (6) by progressively and parallelly arranged electrodes.

In summary, the present invention is directed to a method and apparatus for destroying a metal layer of a disk by progressively parallelizing electrodes, particularly a step of energizing a plate, electrode arrangement, and arc discharge, with a positive electrode (51) and a negative electrode ( 52) The parallel arrangement is gradually narrowed to form a progressive parallel arrangement, and an arc discharge between the positive electrode (51) and the negative electrode (52) is used to destroy the metal layer of the optical disc (6), and the device thereof is embodied The structure comprises a body (1), a power source (2), a motor (3), a conveyor belt (4) and a flat plate (5), and a series of arcs of different densities are applied to the optical disc (6) placed on the conveyor belt (4). Discharge, to completely remove the metal layer that destroys the optical disc (6), for an optimum improvement and design, is the most specific improvement of the method and apparatus for destroying the optical metal layer of the electrode by progressively parallel arrangement.

(1) ‧‧‧ Ontology

(2) ‧‧‧Power supply

(3)‧‧‧Motor

(4)‧‧‧Conveyor belt

(5) ‧ ‧ tablet

(51)‧‧‧ positive electrode

(52) ‧‧‧negative electrode

(6) ‧ ‧ CD

Claims (3)

The device for arranging the electrode metal layer in a progressively parallel arrangement comprises: a body; a power source disposed on the body; a motor disposed on the body and electrically connected to the power source; a conveyor belt Is disposed on the body and electrically connected to the power source, the conveyor belt is electrically connected to the motor; a flat plate is disposed on the body and located above the conveyor belt, and has a plurality of positive electrodes and a plurality of negative electrodes, the positive The electrodes and the negative electrodes are arranged in parallel, and the pitch thereof is gradually reduced to form a progressive parallel arrangement. The device for destroying the metal layer of the optical disk by progressively parallelizing the electrodes according to the first aspect of the patent application, wherein the positive electrode and the negative electrode are electrically connected to each other to generate an arc discharge. The device for destroying the metal layer of the optical disc by progressively parallelizing the electrodes according to the first aspect of the patent application, wherein the distance between the positive electrode and the negative electrode is much larger than the distance between the flat plate and the metal layer of the optical disc.