JPH0668290A - Magnetic bar code - Google Patents

Abstract

PURPOSE:To improve the security of information possessed in a magnetic bar code by comprising the bar code of two or more kinds of magnetic bars with different powder content ratios and discriminating an output signal between magnetic bars with low powder content ratio also that between those with high content ratio. CONSTITUTION:The output signals of all the magnetic bar codes can be read and only the signal of the magnetic bar formed so as to increase the powder content ratio can be read by comprising the magnetic bars so as to provide different powder content ratios between the magnetic bars. By employing such constitution, the magnetic bar (including nonmagnetic bar) with low powder content ratio can be used as a camouflage means (scramble) to improve the security. Therefore, since the setting of the information processing condition of a magnetic head is unknown, it is hard to recognize the reading of a magnetic recording signal recorded on which magnetic bar is recorded, which enables high security to be possessed.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a magnetic bar code using magnetic powder.

[0002]

2. Description of the Related Art Conventionally, magnetic bar codes are inexpensive, have high stability, and have relatively high magnetization (4πI) and relatively low coercive force ( _I H _C ). M · Fe ₂ · O ₄ , where M is a divalent metal) is used. These commonly used powders easily obtain a high magnetization amount and are easily available. Therefore, magnetite (Fe ₃ O ₄ ) or Mn-Z is used.
n ferrite (formula _{Fe (1-xy) · Zn} x · Mn y
・ Fe ₂ · O ₄ ), Ni-Zn ferrite (general formula N
_{i (1-x) · Zn} x · Fe 2 · O 4), Li-Zr -based ferrite {formula _{(Li 0.5 Fe 0.5) (1} -x) · Zn x ·
Fe ₂ · O ₄ }, etc.

By the way, conventionally, there is a method of combining magnetic and non-magnetic bar codes in order to improve the confidentiality of information by magnetic bar codes. If the powder used here is more difficult to identify by methods other than magnetic signals, a higher level of confidentiality will be provided by the card. For example, it is difficult to distinguish the appearance of the same color due to the color tone, it is difficult to distinguish due to the difference in crystal structure, and the powder has a low coercive force (that is, at high coercive force, it is Confidentiality is improved by the above).

On the other hand, most magnetic bar codes are formed by printing ink containing magnetic powder. Therefore, in consideration of printing characteristics, the particle size of the powder needs to be fine.

[0005]

However, spinel ferrite powders tend to have higher coercive force as they are made finer. Therefore, without degrading the printing characteristics,
Improving the confidentiality of magnetic barcodes is a relatively difficult problem in terms of the coercive force described in the above item.

Therefore, a technical object of the present invention is to provide a magnetic bar code in which the confidentiality of information held in the magnetic bar code is improved.

[0007]

Therefore, as a result of various experiments, the present inventor has developed a magnetic bar code capable of improving the confidentiality of information regardless of the coercive force of the magnetic powder contained in the magnetic ink. I found it.

According to the present invention, it is possible to obtain a magnetic bar code which is characterized by comprising at least two kinds of magnetic bars having different magnetic powder contents.

That is, in the present invention, the powder content in the magnetic bar is made different between the magnetic bars so that the output signals of all the magnetic bar codes can be read and the powder content can be increased. It is possible to read only the signal of the magnetic bar formed on the.

With this configuration, the magnetic bar (including non-magnetic bar) having a low powder content in the present invention can be used as a camouflage means (scramble) for improving the airtightness. Therefore, since the setting of the reading information processing condition of the magnetic head is unknown, it is difficult to know which one of the magnetic bars is reading the magnetic recording signal, and it is necessary to have extremely high confidentiality. become.

Further, in the magnetic bar code of the present invention, which signal of the magnetic bar is read by a device other than the magnetic head by configuring the magnetic bar so that the powder content in the magnetic bar differs between the magnetic bars. Not only is it difficult to make a distinction, but it is necessary to match the reading conditions with the information processing conditions in order to interpret the signals. For this reason,
Conventionally, when the coercive force was high, it was easy to detect a signal with a magnetic viewer or the like, but according to the present invention, even if the signal recorded on the whole can be detected with a magnetic viewer or the like, it is not possible to read the signal. Since it is necessary to match the reading condition with the information processing condition, it is no longer essential to limit the magnetic powder, which was a requirement for maintaining confidentiality, to one having a low coercive force. Therefore, in the present invention, although spinel ferrite tends to have a high coercive force as the particles become finer and finer, there is also an advantage that it is possible to improve the printing characteristics of the magnetic ink which makes it possible to make the particle size of the powder finer. .

That is, according to the present invention, in the magnetic bar code, the magnetic bar code is obtained in which the magnetic powder is spinel ferrite.

In the present invention, the bar code is formed by setting the difference in the powder content between the magnetic bars to be 25% or more, so that the magnetic recording signal recorded on the entire magnetic bar code, or We have found that the effect of maintaining confidentiality can be obtained by reading only the magnetic recording signal recorded only on the magnetic bar.

According to the present invention, in the magnetic bar code, there is obtained a magnetic bar code characterized in that the difference in the content ratio between the magnetic bars having different content ratios of the magnetic powder is at least 25%.

In the present invention, the difference in the powder content ratio between the magnetic bars is set to 25% or more because the magnetic bar having a high powder content and the magnetic bar having a low powder content (non-magnetic bar) are in the lower range. This is because the signals written in (including) are confused and it is impossible to judge each signal.

Further, in the present invention, the number of bar code portions having different powder contents is two or more. However, when a magnetic bar code is formed by printing or the like, the adjustable range of the powder contents in the magnetic bar is , 80% or less.

Therefore, in the present invention, the number of magnetic bars having different powder contents is usually two or three.

[0018]

EXAMPLES Examples of the present invention will be described below.

Example 1 The chemical composition ratio is Ni
Iron oxide (α, so that _0.6 · Zn _0.4 · Fe ₂ · O ₄
—Fe ₂ O ₃ ) and nickel oxide (NiO) and zinc oxide (ZnO) were used as raw materials, and wet mixed for 20 hours in a ball mill. The particle size of the raw material powder used here is α-Fe
₂ O ₃ and ZnO are about 3 μm or less, NiO is about 0.5 μm
It was m or less.

Next, this raw material mixed powder is rapidly heated in the atmosphere,
It was baked at 100 ° C. for 2 hours by quenching.

Next, the calcined powder was crushed with a ball mill to prepare a powder having a magnetization amount (4πI _1kOe ) of 5100 (G). The magnetization amount (4πI _1kOe ) of the powder was measured using a vibrating magnetometer.

Next, this powder was mixed and dispersed in urethane resin to prepare a magnetic ink, and by silk screen printing, a bar having a length of 4 mm, a width of 0.2 mm and a thickness of about 10 μm and different powder contents was prepared. Was produced.

The magnetic bar produced here has a powder content of (20% and 40%), (20 and 45), (20 and 6) by adjusting the powder concentration of the magnetic ink.
0), (20 and 65), (20 and 70), (20 and 8)
0), (40 and 45), (40 and 60), (40 and 6)
5), (40 and 70), (40 and 80), (45 and 6)
0), (45 and 65), (45 and 70), (45 and 8)
0), (60 and 65), (60 and 70), (60 and 8)
0), (65 and 70), (65 and 80), (70 and 8)
The magnetic bar having a high powder content and the magnetic bar having a low powder content were formed so as to be alternately arranged for 21 kinds in total of 0).

Next, these magnetic bars were read using a magnetic ink character reader (MICR) designed to generate a magnetic field of about 1 kOe in the magnetic head section.

The results are shown in Table 1 below.

[0026]

[Table 1]

As shown in Table 1, the difference between the powder content forming the magnetic bar code and the powder content ratio is set to 25% or more, so that the signals written in the magnetic bar having a high powder content and the signal written in the low magnetic bar are discriminated. Processing becomes possible.

(Example 2) In the same manner as in Example 1,
General formula 0.8Ni _0.6 / Zn _0.4 / 0.05 Li ₂ O /
Powders of Fe _2.05 · O ₄ and Zn · Fe ₂ O ₄ were prepared.

The magnetization amount of the powder produced here (4πI
_1kOe ) is a general formula 0.8Ni _0.6・ Zn _0.4・ 0.05L
5000 (G) with i ₂ O · Fe _2.05 · O ₄ , general formula Zn
It was 0 (G) in Fe ₂ O ₄ .

Next, each of these powders was mixed and dispersed in a urethane resin to prepare a magnetic ink.

Next, the above-mentioned two types of magnetic inks and the general formula Ni _0.6 .Zn _0.4 .Fe ₂ .O used in Example 1 were used.
₄ mm long, 0.2 mm wide, 10 thick by silk screen printing using magnetic ink made from ₄ powder
Bars with a powder content of about μm were produced.

[0032] Here, a magnetic bar produced is, by adjusting the powder concentration of magnetic ink, powder content in the magnetic bar, formula 0.8Ni _0.6 · Zn _0.4 · 0.05Li ₂
A magnetic bar made of O · Fe _2.05 · O ₄ with a powder content of 7
0%, the formula Ni _0.6 · Zn _0. consists _{4 · Fe 2 · O 4 40} % by a magnetic bar, made to be 70% with a magnetic bar consisting of the general formula Zn · Fe ₂ · O _4, each of the magnetic The bars were formed in an alternating array.

Next, the magnetic bar code was read using a magnetic ink character reader (MICR) designed to generate a magnetic field of about 1 kOe in the magnetic head section.

Magnetic ink character reader (MICR)
Regarding the interpretation result of the magnetic bar code portion according to the above, Table 2 shows the case where the output signal discrimination threshold is high output (800 mV), and Table 3 shows the case where it is low output (400 mV).

[0035]

[Table 2]

[0036]

[Table 3]

Magnetic ink character reader (MICR)
When the signal discrimination threshold of is high output (800 mv), the output signal is 0.8Ni _0.6 · Zn _0.4 · 0.05Li ₂
A magnetic bar made of O · Fe _2.05 · O ₄ to have a powder content of 70%, and a general formula Ni _0.6 · Zn _0.4 · Fe
₂・ O ₄ powder content 40%, general formula Zn ・ Fe ₂・ O ₄
Between the magnetic bars formed to have a powder content of 70%,
The signal can be discriminated. The discriminated output value of the magnetic bar at this time is 0.8Ni _0.6 · Zn _0.4 ·
A magnetic bar made of 0.05 Li ₂ O · Fe _2.05 · O ₄ has a magnetic field of 1000 mV and a general formula of Ni _0.6 · Zn _0.4 · Fe ₂ · O.
₄ and Zn · Fe ₂ · O ₄ magnetic bar 0-60
It was 0 (mV).

Next, the signal discrimination threshold is low output (400 m
In case of V), the output signal is 0.8Ni _0.6 · Zn
_0.4・ 0.05Li ₂ O ・ Fe _2.05・ O ₄ powder content 7
0%, Ni _0.6 · Zn _0.4 · Fe ₂ · O ₄ powder content rate 4
A magnetic bar portion formed so as to be 0%, and a general formula Zn
The signal can be discriminated between the magnetic bars formed so that the Fe ₂ O ₄ powder content rate is 70%.

[0039] Incidentally, the output value of the discriminated magnetic bar at this time, the general formula _{0.8Ni 0.6 · Zn 0. 4 · 0.05Li} 2
O · Fe _2.05 · O _4, and Ni _0.6 · Zn _0.4 · Fe ₂
· O ₄ with a magnetic bar consisting 600～1000MV, was 0mV by formula Zn · Fe magnetic bar consisting of ₂ · O _4.

From these results, the powder contents differed by 2
When the signal discrimination threshold of the magnetic ink character reader (MICR) is high by forming more than one kind of magnetic bar, the general formula 0.8Ni _0.6 · Zn _0.4 · 0.05Li
Read only ₂ O · Fe _2.05 · O ₄ magnetic bar was formed to have a 70% powder content in the output as a signal, a powder content of 4 in the general formula _{Ni 0.6 · Zn 0.4 · Fe 2} · O 4
The magnetic bar formed to have a powder content of 0% and Zn / Fe ₂ / O ₄ of 70% is used as a camouflage means (scramble) for preventing detection by a magnetic viewer or the like other than the magnetic head. be able to.

On the other hand, a magnetic ink character reading device (MI
When the signal discrimination threshold of (CR) is low output, the general formula 0.8
Ni _0.6 / Zn _0.4 / 0.05 Li ₂ O / Fe _2.05 / O
₄ , powder content 70%, and Ni _0.6 · Zn _0.4 · Fe
Only the output of the magnetic bar formed to have a powder content of 40% with ₂ · O ₄ is read as a signal, and the general formula Zn · F
The magnetic bar formed to have a powder content of 70% with e ₂ · O ₄ can be used as a camouflage means (scramble).

Therefore, the magnetic bar code according to the embodiment of the present invention is formed so that the powder content ratio is different among the magnetic bars, and the magnetic bar having a low powder content ratio can be used as a camouflage means (scramble). Confidentiality is improved. Moreover, not only the powder content but also the magnetic bar formed by using the powders with different magnetizations can be used for camouflage, and the confidentiality can be further improved. improves.

Further, based on the above results, when a detector whose output discrimination threshold value fluctuates with time is used, the magnetic bar from which a signal is read and the magnetic bar for camouflage also change with time. However, unless the matching with the read signal processing condition is matched, the signal discrimination becomes more difficult.

All the powders used here had a color tone based on brown, and it was impossible to visually discriminate between the bar code portions.

Further, it was extremely difficult to distinguish from the crystal structure by X-ray diffraction.

As can be seen from the above examples, by forming the magnetic bar code by making the powder contents different among the magnetic bars, it becomes difficult to read information by a method other than the magnetic head, and the confidentiality of the card. Significantly improved.

Further, in the embodiment of the present invention, NiO, Li
_Although only the ferrite using ₂ O ₃ , ZnO, and Fe ₂ O ₃ is described, a spinel type ferrite containing these as the main components will not be affected by the present invention even if it contains other elements. The range is easily understood by those skilled in the art.

As a method for producing powder, firing is performed in the atmosphere,
Although it is carried out only by rapid heating and quenching, if the product of firing is a spinel phase, the firing atmosphere may be reducing or oxidizing compared to the atmosphere, and it may be slow heating. It is clear that the invention is within the scope of the present invention even if it is slowly cooled, or if the coprecipitation method, the hydrothermal synthesis method or the spray roasting method is applied. Further, although only silk screen printing is shown as the method of printing the magnetic bar code, a method capable of adjusting the powder content rate for forming the magnetic bar, such as offset printing, is also within the scope of the present invention. It is clear that can be applied.

[0049]

As described above, the magnetic bar code of the present invention is composed of two or more kinds of magnetic bars having different powder contents in order to make it difficult to detect a signal other than the magnetic head, and it is high. By allowing the output signal to be discriminated between the magnetic bars having a low powder content, the confidentiality of the information held in the magnetic bar code can be improved.

Claims (3)

[Claims] 1. A magnetic bar code comprising at least two kinds of magnetic bars having different contents of magnetic powder. 2. The magnetic barcode according to claim 1, wherein the difference in the content ratio between magnetic bars having different content ratios of the magnetic powder is at least 25%. 3. The magnetic barcode according to claim 1 or 2, wherein the magnetic powder is spinel ferrite.