KR900004901B1 - Making method of magnetic number utilization ticket - Google Patents

Abstract

Magnetic ink contg. strontium ferrite (SrO-5,6-Re2O3) fine particles with uniform density is coated on a soft base, e.g. of polyester resin, polypropylene, polycarbonate, ete.. The first magnetic particles layer contg. the strontium-ferrite fine particles is formed on the soft base and then the second magnetic particles layer contg. the same strontium-ferrite fine particles is formed on the first magnetic particles layer by orienting the strontium-ferrite fine particles to a fixed direction in a magnetic field.

Description

Method of manufacturing self-collection right

1 is a cross-sectional view showing a cross-sectional structure of a self-collection right in the present invention.

2 is a chart showing the manufacturing process of the self-collection right of FIG.

3 is a plan view showing an example of using a self-collection ticket as a collection ticket in a transportation agency.

4 is a schematic diagram showing the mechanism of reading and writing a collection ticket.

FIG. 5 is a specific block diagram of FIG. 4. FIG.

FIG. 6 is a flowchart art showing the operation in FIG. 4 and FIG.

* Explanation of symbols for main parts of the drawings

1 Base 2 First Magnetic Particle Layer

3: second magnetic particle layer 12: organic solvent

13: binder 14: lacquer

15: undercoating 16: magnetic component

17 dispersion 18: filtration

19: Application 20: Orientation

21: drying 22: surface treatment

23: cutting 24: final inspection

25: packing 30: collection ticket

31 magnetic stripe 32 optical detecting means

33: magnetic recording writing means 34: magnetic recording reproduction means

35 control means 36 magnetic head

37: signal processing circuit 38: magnetic head

39: signal processing circuit 40: sensor

41: waveform shaping circuit 42: motor

43: motor drive circuit 44: detection end

45: decoder

The present invention relates to a method for producing a self-collection right having good magnetic properties.

Conventionally, magnetic tapes wound on rails for recording software and data for computers, floppy disks, or magnetic tapes wound on tapes for recording music or video, or automatic ticket gates on buses and subways. Many tickets, such as tickets, telephones, and railway ticket machines, have been used.

In these self-recovery rights, barium ferrite (BaO-6Fe ₂ O ₃ ) has been used by being applied on a resinous base or a base made of paper.

In the conventional self-recovery right using barium ferrite, the magnetic structure has six crystals and a flat plate shape, and has a magnet prime bite-type crystal structure.

However, in this barium ferrite, when the barium ferrite is used as a fine particle in the self-recovery right,

Br = 3900

Hc = 2200Oe

(BH) max = 3.6 S10 ⁶ GOe

Therefore, it is not very preferable as a high density and high holding force magnetic material which will be required in the future. In particular, magnetic tapes for vertical magnetic recording and magnetic tapes for VTR have required higher performance magnetic media.

In addition, in recent years, a magnetic recording medium having a high holding force has been attracting attention, but when writing at a high magnetic force such as an amorphous bed, for example, strontium ferrite has a holding force higher than that of barium ferrite. It is excellent, and there is little magnetic field offset, and high density recording is possible with the same amount of application, and in the case of the same recording density, the application amount of the magnetic body can be reduced.

In addition, the same effect can be obtained by increasing the magnetic particles compared with barium ferrite, and the process of grinding the sintered ferrite into fine particles can be reduced.

In addition, since the application amount of the magnetic substance can be reduced, when a new rewriting treatment is performed, the rewriting is easy, and compared with the case where the amount of the magnetic substance is increased, the partial magnetic spheres due to the incorporation of impurities in the magnetic substance By reducing the probability of remaining, etc., the influence of impurities in the rewriting is reduced.

In addition, in barium ferrite, there is a drawback in that the action of the potato when stored at room temperature or less is large and the shelf life is insufficient.

SUMMARY OF THE INVENTION In view of the above-described drawbacks, it is an object of the present invention to provide a method for producing a self-recovery right that can obtain a high density and high holding force without using barium ferrite and strontium ferrite.

The present invention provides a method for producing a self-recovery ticket, comprising applying a magnetic ink containing strontium ferrite fine particles at a uniform density onto a flexible base.

Since the magnetic recovery use right according to the manufacturing method of the self-recovery right of the present invention uses strontium ferrite, the magnetic recovery use right is obtained, compared with the magnetic recovery use right using barium ferrite, and the holding force and magnetic density become more dense.

In addition, if the purpose of maintaining the same magnetic properties, the use of strontium ferrite can reduce the amount of the magnetic material to be applied per unit area, and the manufacturing cost is reduced.

EXAMPLE

Referring to the accompanying drawings, an embodiment of the manufacturing method of the present invention self-recovery right is as follows.

The manufacturing method of the self-recovery right of this invention forms several magnetic layers by apply | coating several layers of magnetic ink containing strontium ferrite microparticles to the surface of a flexible base.

In addition, according to the method for producing a self-recovery right of the present invention, a magnetic ink containing strontium ferrite fine particles is applied to the surface of a flexible base in multiple layers, and a magnetic field in a predetermined direction is applied before these magnetic ink layers are dried. It is added to form the orientation of the magnetic particles.

In addition, the method for producing a self-recovery right of the present invention is to apply a magnetic ink containing strontium ferrite fine particles in multiple layers to the surface of a flexible base, and to surface-treat the surface of the dried magnetic ink layer to be smooth. .

1 shows a cross section of the self-recovery right of use in the present invention, wherein reference numeral 1 in the figure is a base formed of a flexible material. The base 1 may use a polyester resin and may be a polypropylene resin or a polycarbonate resin.

In addition, a flexible material such as paper or synthetic paper may be used.

On the surface of the base 1, a first magnetic particle layer 2 containing strontium ferrite (SrO-5, 6 Fe ₂ O ₃ ) fine particles is applied, and on the upper surface of the first magnetic particle layer 2 A second magnetic particle layer 3 containing fine particles of strontium ferrite having a different magnetic content contained in a Senddust (magnetic alloy) is applied.

Next, according to FIG. 2, the manufacturing method of the self-recovery right of the present invention will be described in the process procedure. First, the surface of the base 1 described above is washed and dried.

Separately from this, a binder 13 made of a binder and an organic solvent 12 are mixed to form a lacquer 14, and the lacquer 14 is applied onto the cleaned base 1 to undercoat 15. .

In addition, the lacquer 14 is mixed with the magnetic component 16 made of fine particles, and the magnetic component 16 is uniformly mixed into the lacquer 14 in the step of dispersing 17.

The material mixed in the process of dispersing 17 filters only the ultrafine particles in the process of filtration 18 to remove dust and large magnetic components 16.

In the process of the filtration 18, the material in which only the magnetic fine particles are mixed is applied 19 onto the base 1 on which the undercoat 15 is finished, and adhered to the base 1 in a uniform thickness.

In the base 1 after the coating 19 is finished, in order to arrange the applied magnetic particles in the magnetic film well in a predetermined direction, the magnetic field is applied before the magnetic layer is dried to arrange the particles (orientation 20). ).

When this orientation 20 is complete | finished, it enters into the process of drying 21, The solvent volatilized at the process of this drying 21 returns to the process of the solvent 12 mentioned above, and is used again. The self-recovery right of use after the drying 21 has entered the process of surface treatment 22, and the surface of the magnetic layer apply | coated to this process is processed very smoothly.

This is to make the space between the magnetic tape and the magnetic head very tight so as not to deteriorate the characteristics.

The self-recovery right after the surface treatment 22 is finished is cut 23 to the required width, wound around the rail, or cut to the size of a ticket or tape.

In the final inspection 24, the self-recovery usage right after the cutting 23 is inspected, and the package 25 is shipped for each use number and length.

Next, the present invention will be described with reference to FIG. 3 with respect to a specific embodiment of the recovery ticket 30 using the self-recovery ticket manufactured by the manufacturing method.

Each collection ticket is issued by each transportation agency, and a magnetic stripe 31 is applied at the center thereof, and the magnetic stripe 31 is coated with STX, regional code, and company code according to the reading and writing directions. Wood, Balance Code, Kwon Jong Code, SUM, ETX Code are recorded one by one, and how many times if it is within the amount by paying the amount printed on the surface of the collection ticket 30 A traffic engine can be used, and the balance code stored in the magnetic stripe 31 can be sequentially subtracted and used until the balance reaches zero.

4 is a schematic diagram showing the structure of reading and writing of the number-of-use ticket 30, wherein the optical detecting means 32, the magnetic recording writing means 33, and the magnetic recording reproducing means 34 each control means ( 35).

The contents recorded on the magnetic stripe 31 are read by the recovery ticket 30 approaching and moving to the optical detecting means 32, the magnetic recording writing means 33, and the magnetic recording reproducing means 34. As shown in FIG. It is determined that the amount is subtracted sequentially according to the amount used and written.

FIG. 5 is a block diagram showing the configuration shown in FIG. 4 in more detail.

In this figure, reference numeral 36 denotes a magnetic head, and the magnetic head 36 is a reproduction head, and the magnetic head 36 is connected to the control means 35 via the signal processing circuit 37. .

The signal processing circuit 37 performs signal processing on the reproduction signal from the magnetic head 36 and transmits it to the control means 35 to read out the contents of the magnetic stripe 31.

The magnetic head 36 and the signal processing circuit 37 constitute a magnetic recording / reproducing means 34.

The writing signal from the control means 35 is supplied to the magnetic head 38 through the signal processing circuit 39, and the signal from the sensor 40 for the writing timing is supplied via the waveform shaping circuit 41. The signal can be written to the magnetic stripe 31 by the timing signal.

This magnetic head 38 and the signal processing circuit 39 constitute the magnetic recording writing means 33, and the sensor 40 and the waveform shaping circuit 41 constitute the optical detecting means 32. .

In addition, the motor 42 is rotationally driven by a drive signal from the motor drive circuit 43 controlled by the control means 35.

The control means 35 is constituted of, for example, a microcomputer system, which has at least a processing device, a storage device, and an input / output port.

Then, the control means 35 reproduces the data written in the magnetic stripe 31 of the collection ticket 30 by the magnetic recording / reproducing means 34, and subtracts the amount of money used in the balance code. The result is memorized and written to the magnetic stripe 31 again.

Reference numeral 44 denotes a detection end of the optical detection means 32, and inputs a signal from the optical detection end 44 to the control means 35 through the decoder 45.

The optical reading means is constituted by, for example, a phototransistor, and judges whether the recovery ticket 30 has been inserted at a suitable position.

Next, the operation of reading and writing the collected ticket 30 will be described with the flowchart art shown in FIG.

First, in step S100, it is detected whether the recovery ticket 30 is inserted in the insertion hole.

When the collection ticket 30 is inserted, the insertion is detected by the optical detection end 44, and the flow proceeds to step S101. In step S101, the control means 35 rotates the motor 42 forward based on the signal from the optical detection end 44, and goes to the next step S102.

If the recovery ticket 30 is pulled out from the insertion hole by the user, it is not necessary to process the data, and the process stops at step S102.

When the recovery ticket 30 is not taken out in step S101, the flow advances to step S103, and the information recorded on the magnetic stripe 31 of the recovery ticket 30 is reproduced by the magnetic recording / reproducing means 34.

The reproduced data is judged by the control means 35 in step S104 whether or not there is a residual liquid in the remaining balance code.

If there is no remaining balance, the recovery ticket 30 is discharged in step S105 and then stopped (step S106).

If there is a remaining balance, the flow advances to step S107, for example, the fare equivalent is subtracted and the balance is temporarily stored.

Then, it is judged whether or not the recovery ticket 30 is located at the writing position by the optical detection end 44 (step S108). When it is located at a suitable position, the motor 42 is stopped at step S109. Subsequently, the motor 42 is reversely rotated in step S110 to face the card in the discharge direction.

Then, when the motor 42 is reversed, the magnetic head 38 writes the remaining liquid which is reduced and recorded in the magnetic stripe 31 by the magnetic recording writing means 33 as described above. (Step S111).

Then, if the motor 42 is left in the reversed rotation state, the recovery ticket 30 is discharged from the insertion hole to determine whether the recovery ticket is discharged at step S112, and then at step S113 the gate of the insertion hole is removed. An open signal lamp is output and waiting for the next operation, and a series of operations of reading and writing are completed in step S114.

In the present invention, since the magnetic particles of strontium ferrite are used instead of barium ferrite in the magnetic recovery use right, the magnetic properties are improved, and, for example, compared to barium ferrite,

Br = 3900G

_B Hc = 3000Oe

(BH) max = 4.0-4.5 * 10 ⁶ GOe

It has magnetic properties of and its magnetic strength and preservation properties are greatly improved, so that the durability is improved even in the repeated operation of reading and writing.

In addition, if the same magnetic properties as barium ferrite are maintained, the coating amount of strontium ferrite is at least as low as that of barium ferrite, so that the production cost is reduced.

Claims (3)

A method of producing a self-recovery ticket, wherein a magnetic ink containing strontium ferrite fine particles is applied to the surface of a flexible base (1) in multiple layers to form a plurality of magnetic layers. A magnetic ink containing strontium ferrite fine particles is applied to the surface of the flexible base 1 in multiple layers, and a magnetic field in a predetermined direction is applied before these magnetic ink layers are dried to prepare the direction of the magnetic particles. Method for producing a self-collection right to use, characterized in that. A method for producing a self-recovery ticket, wherein the magnetic ink containing strontium ferrite fine particles is applied to the surface of the flexible base 1 in several layers, and the surface of the dried magnetic ink layer is smoothed. .

Images