TWI409111B - Arc type of the disk destroying device - Google Patents

Abstract

The invention relates to an arc type optical disk destroying device. The primary goal is to destroy sealing resin and metal layers of an optical disk with electrical arcs so as to damage the metal layers of the optic disk, making data of the optic disk destroyed and no longer recoverable thereby achieving the purpose of totally destroying information. The device includes a decomposing box and a power supply unit. The decomposing box includes a sensor switch, a positive electrode, and a negative electrode. The positive electrode and the negative electrode extend to form multiple positive discharging terminals and negative discharging terminals that alternate each other. When an optical disk is deposited in the decomposing box to trigger the sensor switch, the positive electrode and the negative electrode are powered and electrical arcs are generated among the positive discharging terminals and the negative discharging terminals. Through the effect of the electrical arcs, bonding between the metal layers and a substrate of the optical disk is destroyed to decrease the adhesion of the metal layers to the substrate.

Description

Arc-disc destruction device

The present invention relates to an arc-disc destruction device, and more particularly to a device that generates an electric arc and destroys a metal layer of the optical disc.

Generally, the optical disc mainly includes a substrate layer and a film layer, and as the amount of the optical disc is increased, a plurality of discarded optical discs are also produced. At present, the main method for disposing of the discarded optical disc is to smash the waste disc and bury it, and A method of incinerating a waste optical disc, however, the above treatment methods all have the problem of unfavorable environmental protection, and the substrate layer is based on a material that is transparent to the laser beam for data reproduction or data recording, such as polycarbonate resin, acrylic acid. Formed by a resin, a polyolefin resin or an epoxy resin, the film layer is made of a metal material including a recording layer, a metal layer, a dielectric layer and a protective layer, and is all recyclable. There are many methods for separating and reusing the substrate layer and the film layer, one of which is an arc stripping method, as proposed by the creator of the present invention, the Chinese Patent of the Republic of China, No. I309585, "Method for destroying the metal layer of the optical disk by the staggered honeycomb electrode And means, the method comprising the steps of: a. connecting a plurality of positive electrodes and a plurality of negative electrodes with a high voltage discharge circuit; b. making all The electrode and the negative electrode are arranged in a honeycomb shape, wherein each course direction is the same as the positive electrode or the same negative electrode, and each column direction is a staggered arrangement of the positive electrode and the negative electrode, and each positive ( Negative (positive) electrodes are distributed around the electrodes; c. electrodes of different polarities are arc-discharged, and the metal layer of the optical disc is located within the range of discharge of the electrodes; a high-voltage discharge circuit is formed by the above method, and the honeycomb is connected A device for arranging a plurality of positive and negative electrodes, and a negative (positive) electrode of different polarity is disposed around each positive (negative) electrode; in addition, the creator of the present invention also proposes a case of the Republic of China Invention Patent No. I318141, which discloses a The method and apparatus for arranging an electrode to destroy a metal layer of an optical disc in an interlaced matrix include the following steps: a. connecting a plurality of positive electrodes and a plurality of negative electrodes by a high voltage discharge circuit; b. arranging all the positive electrodes and the negative electrodes in a matrix manner, The course direction is that the positive electrode and the negative electrode are staggered, and the column direction is also a staggered arrangement of the positive electrode and the negative electrode, and the circumference of each positive (negative) electrode is equally divided. Negative (positive) electrodes of different polarities; c. arc discharge of electrodes of different polarities, and the metal layer of the optical disc is located within the range of discharge of the electrodes; forming a high voltage discharge circuit by the above method, connecting a plurality of positive electrodes arranged in a matrix manner With the negative electrode device, negative (positive) electrodes of different polarities are distributed around each positive (negative) electrode, however:
In the above case, the metal layer of the optical disc can be effectively stripped, and the electrode and the platform on which the optical disc is placed are relatively moved, so that most of the metal layer of the optical disc can be subjected to the arc, but there is still doubt that the metal layer of the optical disc cannot be completely removed. Moreover, the arc is in a high-temperature and high-voltage discharge state, and it is easy to cause an accident in the open space.

Accordingly, it is an object of the present invention to provide an arc device that can safely operate and completely remove the metal layer of the optical disc.
According to the above object of the present invention, the inventors have thus developed an arc-type optical disk destruction device based on the spirit of continuous innovation and research and development, including:
a decomposing box body having an accommodating space therein, wherein the decomposing box body is provided with an elongated insertion hole communicating with the accommodating space, and an inductive switch is disposed opposite the inner wall of the elongate insertion hole, adjacent to the The positive electrode and the negative electrode are electrically connected to the inductive switch, and the positive electrode and the negative electrode are electrically connected to the inductive switch, and the positive electrode and the negative electrode are extended to form a plurality of intersecting electrodes. a positive discharge end and a negative discharge end; a power supply unit electrically connected to the inductive switch.
Thereby, an arc can be generated between the positive discharge end and the negative discharge end after energization, and a large area under the discharge end of the positive electrode and the discharge end of the negative electrode can be subjected to an arc, and a disc is placed on the positive discharge. When the terminal and the negative discharge end are below, the entire area of the optical disc can be subjected to an arc, and the metal layer on the optical disc substrate is completely removed.
Further, the decomposition box system has a transparent top layer which is transparent to the positive discharge end and the negative discharge end, so that the user can observe the decomposition and peeling of the metal layer of the optical disc.
The main effects of the present invention are:
1. The metal layer of the optical disc can be destroyed, the data stored in the optical disc can be destroyed, and the data can never be restored, so as to completely destroy the information.
2. It can completely destroy the bond between the metal layer of the optical disc and the substrate, reduce the adhesion of the metal layer, and the recycling efficiency is better.
3. The entire operating procedure is carried out in the decomposition box, which is safe.
4. The electric discharge is generated by the induction switch to generate an electric arc, which is convenient to operate.

Combining the above technical features, the main effects of the present invention will be clearly shown in the following embodiments.
Please refer to the first figure, which is an arc-disc destruction device, including:
An exploded casing (1) has an accommodating space (11) therein, and the elongated casing (1) is provided with an elongated insertion hole (12) communicating with the accommodating space (11), which is opposite to the length An inductive switch (13) is disposed on the inner wall of the shaped insertion hole (12), and a positive electrode (14) and a negative side are respectively disposed adjacent to opposite sidewalls of the elongated insertion hole (12) and the inductive switch (13). The electrode (15), the positive electrode (14) and the negative electrode (15) are electrically connected to the inductive switch (13), and the positive electrode (14) and the negative electrode (15) are extended to form a plurality of intersecting shapes. a positive discharge end (141) and a negative discharge end (151). In addition, the split case (1) has a transparent top layer (16) which is transparent to the positive discharge end (141) and the negative discharge. The terminal (151); a power supply unit (2) electrically connected to the inductive switch (13), which is a high voltage discharge circuit.
When in use, please refer to the second figure and the third figure, the optical disc (A) is pushed into the accommodating space (11) of the disassembling box body (1) from the elongate insertion hole (12). The positive electrode (14) and the negative electrode (15) are tightly clamped to the edge of the optical disk (A), and the metal layer (A1) of the optical disk (A) faces the positive discharge end (141) and the negative discharge end (151). The distance between the metal layer (A1) of the optical disc (A) and the positive discharge end (141) and the negative discharge end (151) is smaller than between the positive discharge end (141) and the negative discharge end (151). When the optical disc (A) abuts the inductive switch (13), a current path is formed between the power supply unit (2), the positive electrode (14) and the negative electrode (15), and at the positive discharge end ( An arc is formed between the 141) and the negative discharge end (151), and the distance between the metal layer (A1) of the optical disc (A) and the positive discharge end (141) and the negative discharge end (151) is smaller than the positive discharge end ( 141) and the distance between the negative discharge end (151), so the current will pass due to the gas discharge effect of the arc The metal layer (A1) of the optical disc (A) is broken and the metal layer (A1) is broken, and the positive discharge end (141) and the negative discharge end (151) are cross-shaped, so that the entire The regional optical disc (A) can be subjected to arcing, and the metal layer (A1) on the optical disc (A) can be completely removed, thereby achieving the effect of quickly recycling the discarded optical disc (A), and also destroying the optical disc data, and forever Can not be restored, to achieve the purpose of complete destruction of information, and the entire operation process is carried out in the decomposition box (1), the security is greatly improved, the user can observe the metal layer of the optical disc (A) through the transparent top layer (16) (A1) The case of cracking and peeling.

(1) ‧‧‧ Decomposed box

(11) ‧‧‧ accommodating space

(12)‧‧‧Long insert holes

(13)‧‧‧Sensor switch

(14) ‧‧‧ positive electrode

(141) ‧‧‧positive discharge end

(15) ‧‧‧negative electrode

(151)‧‧‧Negative discharge end

(16) ‧ ‧ transparent top layer

(2) ‧‧‧Power supply unit

(A) ‧ ‧ disc

(A1)‧‧‧metal layer

The first figure is a perspective view of the present invention.
The second figure is a top view when used in the present invention.
The third figure is a schematic view of the arc acting on the metal layer of the optical disc when the invention is used.

(1) ‧‧‧ Decomposed box

(11) ‧‧‧ accommodating space

(12)‧‧‧Long insert holes

(13)‧‧‧Sensor switch

(14) ‧‧‧ positive electrode

(141) ‧‧‧positive discharge end

(151)‧‧‧Negative discharge end

(16) ‧ ‧ transparent top layer

(2) ‧‧‧Power supply unit

Claims (2)

An arc type optical disc destroying device comprising:
a decomposing box body having an accommodating space therein, wherein the decomposing box body is provided with an elongated insertion hole communicating with the accommodating space, and an inductive switch is disposed opposite the inner wall of the elongate insertion hole, adjacent to the The positive electrode and the negative electrode are electrically connected to the inductive switch, and the positive electrode and the negative electrode are electrically connected to the inductive switch, and the positive electrode and the negative electrode are extended to form a plurality of intersecting electrodes. a positive discharge end and a negative discharge end;
A power supply unit is electrically connected to the inductive switch. The arc-disc destruction device of claim 1, wherein the decomposition box system has a transparent top layer that is transparent to the positive discharge end and the negative discharge end.