JPH0524349A - Heat-sensitive image recording and erasing method - Google Patents

Abstract

PURPOSE:To efficiently record and erase image information reversibly by heating by recording the image information by contacting a heat recording device with an image display body and erasing the image information by contacting a heat roller with the image display body. CONSTITUTION:The head corresponding to the image information input in a heat recording device 9 is heated to a temp. within the range of from t1 to t2 with the heat recording device 9 held continuously in contact with the rear face of an image display body 1 and while the image display body 1 is being moved in the direction of the arrow. The heat recording device 9 is then separated from the image display body 1 and the heated part thereof is cooled to a temp. not above t0 to be made transparent, whereby dot-like image information is recorded on the image display body forming an opaque ground as a transparent part. The image display body 1 is moved with a freely rotatable heat roller 10 heated to a temp. of not below in contact therewith, and thereafter cooled to make its transparent part opaque, thereby making uniformly opaque the entire surface of an image display body 2 which has passed over the heat roller 10.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat-sensitive image recording and erasing method capable of reversibly recording and erasing image information by heating.

[0002]

2. Description of the Related Art Conventionally, a magnetic recording paper called particle oriented paper (POP) has been used as an image display capable of reversibly recording and erasing information. This POP is made by microencapsulating a magnetic thin piece of fine high-reflectivity and applying it to a base material such as paper or plastic. The magnetic thin piece is rotated by applying a magnetic field according to image information to this POP. Then, the image is displayed by utilizing the change in the light reflectivity associated therewith. However, in this POP,
In manufacturing the microcapsules, not only a high level of processing technology is required, but also the amount of magnetic flakes to be enclosed in the microcapsules is limited, and the flakes easily aggregate in the microcapsules. is there. When applying the microcapsules to a substrate such as paper,
Since it is applied together with the binder, there is a drawback in that the base material of the display surface cannot be completely whitened. Due to the above-mentioned drawbacks, the image displayed on the POP lacks sharpness, so that its use is limited.

On the other hand, in recent years, a heat sensitive body has been found in which a cloudy state and a transparent state are reversibly repeated due to a temperature change, and one of the states is stably maintained below a specific temperature.

This heat-sensitive body is composed of a matrix material made of a thermoplastic resin and an organic low molecular weight substance dispersed in the matrix material, and when the temperature is maintained at a specific temperature t ₀ or higher, it depends on the temperature. And, it has the property that the state changes. That is, this heat-sensitive body has two state transition temperatures t ₁ and t ₂ (t ₁ <t ₂ ) at a temperature higher than t ₀ , and when it is heated and held at t ₂ or higher and then cooled to t ₀ or lower, it becomes cloudy. However, the maximum light blocking state is set. On the other hand, when the cloudy heat-sensitive material is heated and held in a temperature range of t ₁ or more and less than t ₂ and then cooled to t ₀ or less,
The heat sensitive body becomes transparent.

[0007] In addition, the cloudy shaped susceptor, when cooling to t ₀ less after heating and holding at a temperature range of less than t ₀ or t _1, as the heating and holding temperature is raised from t ₀ to t ₁ The white turbidity of the heat-sensitive body when cooled shows a continuous intermediate white turbidity from the white opacity in the maximum light-shielded state to the transparent state.

The above-mentioned change of the state of the heat sensitive body is mainly based on the change of the organic low molecular weight substance in the heat sensitive body.

A heat-sensitive image display body has been proposed which is capable of repeatedly recording and erasing image information using the heat-sensitive body.

Recording of information on this image display body is mainly performed by radiation such as lens condensing heat, light irradiation heat or conduction of Joule heat. However, a heating method for erasing recorded information is not available. , Not specifically disclosed.

[0009]

DISCLOSURE OF THE INVENTION The present invention is intended to provide a recording and erasing method capable of repeatedly recording and erasing image information by using the image display body, and in particular, the recorded image It is characterized by a method of erasing information.
The heat-sensitive image recording and erasing method of the present invention, by heating and cooling to a specific temperature, it becomes a transparent surface or a cloudy surface depending on the heating temperature, and a specific area of the surface is heated to a specific temperature according to image information. Then, by cooling, image information is recorded by bringing the heating recording device into contact with an image display body having a heat sensitive body capable of displaying image information,
Then, a process of erasing the image information by bringing the image information portion recorded by bringing a heat roller controlled to a specific temperature into contact with the image display member to have the same transparent or cloudy surface as the non-recorded portion, In the heat-sensitive image recording and erasing method, the heat recording device and the heat roller are simultaneously brought into contact with the display body.

The heat-sensitive image display used in the present invention is
For example, a heat-sensitive material composed of the matrix material and the organic low molecular weight substance is used, and the film thickness is 5 to 50 μm, preferably 10 to
It is made by laminating on a substrate such as plastic or glass with a thickness of 30 μm.

As the matrix material, polyester, polyamide, polyacrylate, polymethacrylate, polystyrene, silicone resin, polyvinyl chloride, vinylidene chloride-vinyl chloride copolymer, vinylidene chloride-
One or more polymers selected from thermoplastics such as acrylonitrile copolymers can be used.

Examples of the organic low-molecular substances include saturated or unsaturated mono- and dicarboxylic acids or their esters, amides and ammonium salts; saturated or unsaturated halogenated fatty acids or their esters, amides and ammonium salts; arylcarboxylic acids or These esters, amides and ammonium salts having 10 to 10 carbon atoms
One or more substances selected from 30 organic compounds can be used. Particularly preferable substances include linear saturated higher fatty acids such as palmitic acid, stearic acid, arachidic acid, and behenic acid, or their esters, amides and ammonium salts.

In the present specification, the organic low molecular weight substance is
It refers to an organic compound having a molecular weight of 100 to 700.

As the base material, plastic, glass, metal and the like are used, and flexible plastic is preferable when the image display is formed into a sheet and continuously used. In addition, the base material can be colored, if necessary, in order to add contrast to the image.

If a large amount of the matrix material and the organic low molecular weight substance are used, and the heat sensitive body itself can maintain a sufficiently solid shape, the image display body may be constructed without using the base material. I can.

[0016]

Embodiments of the present invention will now be described with reference to the drawings.

FIG. 1 is a sectional view of an image display body used in the present invention.

This image display 1 is, for example, Saran resin R-200 2 parts by weight (trade name, vinylidene chloride-acrylonitrile copolymer manufactured by Asahi Dow Co.) arachidic acid 0.5 part by weight octadecanoic acid octadecyl ester 0. A mixture of 1 part by weight was sufficiently dissolved in 10 parts by weight of tetrahydrofuran, and this solution was applied onto a long sheet-like Mylar film (polyester film) 2 to have a thickness of 15 μm.
And the heat sensitive body 3 is laminated on the mylar film.

This image display body 1 was heated and maintained at t ₂ or more, and then cooled to make the entire surface opaque.

FIG. 2 is a view showing an example of a recording and erasing apparatus using the image display body 1, in which a supporting member 4 having a fulcrum at the center is arranged so as to be swingable. Support arms 5 and 6 are pivotally attached to both ends of the member 4 by means of pins 7 and 8, respectively. A heating recording device 9 is projectingly provided at the tip of the supporting arm 5 among these supporting arms 5 and 6.
Includes a head including a plurality of resistance heating elements whose temperatures can be controlled. In addition, at the tip of the other support arm 6,
A heat roller 10 having a heater whose temperature can be controlled is rotatably supported. The support arms 5 and 6 are held in an upright state by guides 11 and 12, and as the support member 4 swings, the heating recording device 9 and the heat roller 10 move in opposite directions. Move up and down.

These heating recording device 9 and heat roller 1
The image display 1 is arranged above 0.

The image display 1 is formed, for example, in an endless sheet shape, is supported by a plurality of pulleys (not shown), and has the recording device 9 and the heat roller 10 inside,
It goes around the circumference. Then, the sheet-shaped image display body can run by driving any one of the pulleys.

As described above, the heating recording device 9 and the heating roller 10 are moved up and down in the opposite directions, so that either one of them moves to the surface of the plastic film 2 of the image display 1 (hereinafter, this surface will be referred to as an image. The back surface of the display body) is abutted over the entire width direction. As a result, the heating recording device 9 comes into contact with the image display body 1 and the image information is recorded on the image display body 1, while the heat roller 10 comes into contact with the image display body 1 and comes into contact with the image display body 1. The recorded image information is
Will be erased.

Next, the operation of the image information recording / erasing apparatus used in the present invention will be described.

The heating and recording device 9 is kept in contact with the back surface of the image display body 1 by stopping the swing of the support member 4.

Then, while moving the image display body 1 in the direction of the arrow in FIG. 2, each head of the heating recording device 4 is selectively operated to move the heads so as to correspond to the input image information. Heat to a temperature range from t _{1 to} less than t ₂ . Next, when the heating recording device 9 is separated from the image display body 1, the heated portion is cooled to t ₀ or less and becomes transparent, and, for example, as shown in FIG. Is recorded as a transparent portion on the image display body.

Next, in this image display 1, the portion on which the image information is recorded is further moved in the direction of the arrow in FIG. 2, and after the image information is read, the heat roller 1
Reach 0.

Then, the heat roller 10 heated to t ₂ or more is brought into contact with the image display body 1. Then, in this state, the image display body 1 is further moved in the direction of the arrow in the drawing while rotating the heat roller 10. This heat roller 10
While moving up, the image display body 1 is t
Holds heated to ₂ or more. Then, when the image display body 1 is cooled, the image display body 1 which is recorded image information.
The transparent portion becomes cloudy, and the image display body 1 that has passed over the heat roller 10 becomes a uniform cloudy state over the entire surface.

On the other hand, the image display body 1 is heated and held at t ₁ or more and less than t ₂ and then cooled to make the entire surface transparent.
When the image information is recorded on the image display body 1 as a cloudy portion, the heating recording device 9 is adjusted so that the image display body 1 is selectively heated to t ₂ or more, and the heating roller 10 is used.
Is heated to a temperature range from t _{1 to} less than t ₂ and the image information is recorded and erased by the same operation as described above.

FIG. 4 is a diagram showing another example of the apparatus used in the present invention.

In this example, the heating recording device 9 protruding from the support arm 5 and the heat roller 10 rotatably supported at the tip of the support arm 6 are arranged independently of each other. The support arms 5 and 6 have guides 11 and
It is held upright by 12 and its lower end is
Elevating devices (not shown) that are independent of each other are provided. As a result, the heating recording device 9 and the heat roll 10 move up and down completely independently.

These heating recording device 9 and heat roller 1
The image display 1 is arranged above 0 in the same manner as in the above-mentioned embodiment, and the heat recording device 9 and the heat roller 10 are
The back surface of the image display body is contacted separately or simultaneously.

As a result, on the one hand, the heating recording device 9 is brought into contact with the image display body 1 to record image information on the image display body 1, and at the same time, on the other hand, the heat roll 10 is brought into contact with the image display body 1. Thus, the image information recorded on the image display 1 can be erased. As a result, when the image display body 1 is arranged in the form of an endless sheet and travels in the direction of the arrow in FIG. The image information is read on the way, reaches the heat roller 10, and is erased by the heat roller 10. The portion of the image display body 1 from which the image information has been erased reaches the heating recording device 9 and the image information is recorded again. In this way, by simultaneously operating the heating recording device 9 and the heat roll 10, it is possible to continuously record and erase image information. Of course, also in this embodiment, the heating recording device 9 and the heat roller 10 can be operated separately, as in the above embodiment.

Other configurations and operating methods are the same as those in the above embodiment.

In the heating recording apparatus, lens condensing heat and light irradiation heat can be used as the heating source as a mode other than the above embodiment. However, in the case of using these, the heating recording device 9 is operated not in contact with the image display body 1 but in close proximity to the image display body 1 with a proper space, and therefore the heating recording device 9 is operated during operation. In order that the heating recording device 9 is arranged at a position close to the image display body,
The swing height of the support member 4 or the length of the support arm 5 is adjusted. However, it is preferable that the temperature can be controlled in any heat recording device using any heat source.

In the above embodiment, the heating recording device 9 and the heat roller 10 are arranged on the back side of the image display body 1. However, in some cases, both of these devices are provided on the image display body. It can also be arranged on the front side.

[0037]

As described above, the recording and erasing method of the present invention can efficiently record and erase image information on the image display member with a simple structure. In particular, in the erasing device, by using the heat roller, it is possible to improve the adhesion between the image display body and the heat roller, as compared with the case where the plate-shaped heat generating element is used. Efficient and uniform erasing can be performed very easily.

In addition, the image display body is formed into a sheet shape or an endless sheet shape and used as a recording material for an overhead projector (OHP) or a facsimile, and the recording and erasing apparatus used in the present invention is O.
When incorporated in an HP device or a facsimile device, an OHP or facsimile recording material capable of continuous recording and erasing operations is provided.

[Brief description of drawings]

FIG. 1 is a cross-sectional view of an image display body used in the present invention.

FIG. 2 is a diagram showing an apparatus used in the present invention.

FIG. 3 is a diagram showing image information recorded on the image display body used in the present invention by using a heating recording device.

FIG. 4 is a diagram showing an apparatus used in the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Image display body 4 Support members 5, 6 Support arm 9 Heating recording device 10 Heat roller

─────────────────────────────────────────────────── ───

[Procedure amendment]

[Submission date] January 17, 1992

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be amended] Detailed explanation of the invention

[Correction method] Change

[Correction content]

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat-sensitive image recording and erasing method capable of reversibly recording and erasing image information by heating.

[0002]

2. Description of the Related Art Conventionally, a magnetic recording paper called particle oriented paper (POP) has been used as an image display capable of reversibly recording and erasing information. This POP is made by microencapsulating a magnetic thin piece of fine high-reflectivity and applying it to a base material such as paper or plastic. The magnetic thin piece is rotated by applying a magnetic field according to image information to this POP. Then, the image is displayed by utilizing the change in the light reflectivity associated therewith. However, in this POP,
In manufacturing the microcapsules, not only a high level of processing technology is required, but also the amount of magnetic flakes to be enclosed in the microcapsules is limited, and the flakes easily aggregate in the microcapsules. is there. When applying the microcapsules to a substrate such as paper,
Since it is applied together with the binder, there is a drawback in that the base material of the display surface cannot be completely whitened. Due to the above-mentioned drawbacks, the image displayed on the POP lacks sharpness, so that its use is limited.

On the other hand, in recent years, a heat sensitive body has been found in which a cloudy state and a transparent state are reversibly repeated due to a temperature change, and one of the states is stably maintained below a specific temperature.

[0004] The heat-sensitive body, a matrix material made of a thermoplastic resin and an organic low molecular substance dispersed in the matrix material in, when it is held above a particular temperature t _0, depending on the temperature And, it has the property that the state changes. That is, this heat-sensitive body has two state transition temperatures t ₁ and t ₂ (t ₁ <t ₂ ) at a temperature higher than t ₀ , and when it is heated and held at t ₂ or higher and then cooled to t ₀ or lower, it becomes cloudy. However, the maximum light blocking state is set. On the other hand, when the cloudy heat-sensitive material is heated and held in a temperature range of t ₁ or more and less than t ₂ and then cooled to t ₀ or less, the heat-sensitive material becomes transparent.

[0007] In addition, the cloudy shaped susceptor, when cooling to t ₀ less after heating and holding at a temperature range of less than t ₀ or t _1, as the heating and holding temperature is raised from t ₀ to t ₁ The white turbidity of the heat-sensitive body when cooled shows a continuous intermediate white turbidity from the white opacity in the maximum light-shielded state to the transparent state.

The above-mentioned change of the state of the heat sensitive body is mainly based on the change of the organic low molecular weight substance in the heat sensitive body.

A heat-sensitive image display body has been proposed which is capable of repeatedly recording and erasing image information using the heat-sensitive body.

Recording of information on this image display body is mainly performed by radiation such as lens condensing heat, light irradiation heat or conduction of Joule heat. However, a heating method for erasing recorded information is not available. , Not specifically disclosed.

[0009]

DISCLOSURE OF THE INVENTION The present invention is intended to provide a recording and erasing method capable of repeatedly recording and erasing image information by using the image display body, and in particular, the recorded image It is characterized by a method of erasing information.
That is, the present invention is to reversibly record information by heating,
An object of the present invention is to provide an image recording and erasing method in which image information is recorded by bringing a heating recording device into contact with an erasable image display body, and erasing by bringing a heating roller into contact therewith. The heat-sensitive image recording and erasing method of the present invention, by heating and cooling to a specific temperature, it becomes a transparent surface or a cloudy surface depending on the heating temperature, and a specific area of the surface is heated to a specific temperature according to image information. Then, the image information is recorded by bringing the heating recording device into contact with an image display body having a heat sensitive body capable of displaying the image information by cooling, and then the heat roller controlled to a specific temperature on the image display body. The process of erasing the image information by making the image information part recorded by contacting with the same transparent or cloudy surface as the non-recording part, the heating recording device and the heat roller are simultaneously contacted with the image display body. The heat-sensitive image recording and erasing method is characterized in that the heat-sensitive image recording and erasing are performed in the state of being kept in a state of

The heat-sensitive image display used in the present invention is
For example, a heat-sensitive material composed of the matrix material and the organic low molecular weight substance is used, and the film thickness is 5 to 50 μm, preferably 10 to
It is made by laminating on a substrate such as plastic or glass with a thickness of 30 μm.

As the matrix material, polyester, polyamide, polyacrylate, polymethacrylate, polystyrene, silicone resin, polyvinyl chloride, vinylidene chloride-vinyl chloride copolymer, vinylidene chloride-
One or more polymers selected from thermoplastics such as acrylonitrile copolymers can be used.

Examples of the organic low-molecular substances include saturated or unsaturated mono- and dicarboxylic acids or their esters, amides and ammonium salts; saturated or unsaturated halogenated fatty acids or their esters, amides and ammonium salts; arylcarboxylic acids or These esters, amides and ammonium salts having 10 to 10 carbon atoms
One or more substances selected from 30 organic compounds can be used. Particularly preferable substances include linear saturated higher fatty acids such as palmitic acid, stearic acid, arachidic acid, and behenic acid, or their esters, amides and ammonium salts.

In the present specification, the organic low molecular weight substance is
It refers to an organic compound having a molecular weight of 100 to 700.

As the base material, plastic, glass, metal and the like are used, and flexible plastic is preferable when the image display is formed into a sheet and continuously used. In addition, the base material can be colored, if necessary, in order to add contrast to the image.

If a large amount of the matrix material and the organic low molecular weight substance are used, and the heat sensitive body itself can maintain a sufficiently solid shape, the image display body may be constructed without using the base material. I can.

[0016]

Embodiments of the present invention will now be described with reference to the drawings.

FIG. 1 is a sectional view of an image display body used in the present invention.

The image display 1 is, for example, 2 parts by weight of Saran resin R-200 (trade name, vinylidene chloride-acrylonitrile copolymer manufactured by Asahi Dow) 0.5 part by weight of arachidic acid octadecyl ester of octadecanoic acid. A mixture of 1 part by weight was sufficiently dissolved in 10 parts by weight of tetrahydrofuran, and this solution was applied onto a long sheet-like Mylar film (polyester film) 2 to have a thickness of 15 μm.
And the heat sensitive body 3 is laminated on the mylar film.

This image display body 1 was heated and held at t ₂ or more, and then cooled to make the entire surface cloudy.

FIG. 2 is a view showing an example of a recording and erasing apparatus using the image display body 1, in which a supporting member 4 having a fulcrum at the center is arranged so as to be vertically movable at the same time.
At both ends of the support member 4, the support arms 5, 5 are respectively provided.
6 is attached by pins 7 and 8. A heating recording device 9 is projectingly provided at the tip of the supporting arm 5 among these supporting arms 5 and 6.
Includes a head including a plurality of resistance heating elements whose temperatures can be controlled. In addition, at the tip of the other support arm 6,
A heat roller 10 having a heater whose temperature can be controlled is rotatably supported. The support arms 5 and 6 are held in an upright state by guides 11 and 12, and as the support member 4 moves up and down, the heating recording device 9 and the heat roller 10 simultaneously move up and down to form an image. Abut on the display body 1.

These heating recording device 9 and heat roller 1
The image display 1 is arranged above 0.

The image display 1 is formed, for example, in an endless sheet shape, is supported by a plurality of pulleys (not shown), and has the recording device 9 and the heat roller 10 inside,
It goes around the circumference. Then, the sheet-shaped image display body can run by driving any one of the pulleys.

As a result, the heating recording device 9 is replaced by the image display body 1.
While the image information is recorded on the image display body 1 by contacting with, the heat roller 10 contacts the image display body 1 and erases the image information recorded on the image display body 1. ..

Next, a method of recording and erasing image information used in the present invention will be described.

The heating / recording device 9 stops the vertical movement of the support member 4 and maintains the contact state with the back surface of the image display body 1.

Then, while moving the image display body 1 in the direction of the arrow in FIG. 2, each head of the heating recording device 4 is selectively operated to move the heads so as to correspond to the input image information. Heat to a temperature range of t ₁ or more and less than t ₂ . Next, when the heating recording device 9 is separated from the image display body 1, the heated portion is cooled to t ₀ or less and becomes transparent. For example, as shown in FIG. Is recorded as a transparent portion on the image display body.

Next, in this image display 1, the portion on which the image information is recorded is further moved in the direction of the arrow in FIG. 2, and after the image information is read, the heat roller 1
Reach 0.

Next, the heat roller 10 heated to t ₂ or more is brought into contact with the image display body 1. Then, in this state, the image display body 1 is further moved in the direction of the arrow in the drawing while rotating the heat roller 10. This heat roller 10
While moving up, the image display body 1 is t
It is kept heated to ₂ or more. Then, when the image display body 1 is cooled, the image display body 1 which is recorded image information.
The transparent portion becomes cloudy, and the image display body 1 that has passed over the heat roller 10 becomes a uniform cloudy state over the entire surface.

On the other hand, the image display body 1 is heated and held at t ₁ or more and less than t ₂ and then cooled to make the entire surface transparent.
When the image information is recorded on the image display body 1 as a cloudy portion, the heating recording device 9 is adjusted so that the image display body 1 is selectively heated to t ₂ or more, and the heating roller 10 is used.
Is heated to a temperature range from t _{1 to} less than t ₂ and the image information is recorded and erased by the same operation as above.

FIG. 4 is a diagram showing another example of the apparatus used in the present invention.

In this example, the heating recording device 9 protruding from the support arm 5 and the heat roller 10 rotatably supported at the tip of the support arm 6 are arranged independently of each other. The support arms 5 and 6 have guides 11 and
It is held upright by 12 and its lower end is
Elevating devices (not shown) that are independent of each other are provided. As a result, the heating recording device 9 and the heat roll 10 move up and down completely independently.

These heating recording device 9 and heat roller 1
The image display 1 is arranged above 0 in the same manner as in the above-mentioned embodiment, and the heat recording device 9 and the heat roller 10 are
The back surface of the image display body is contacted separately or simultaneously.

As a result, on the one hand, the heating recording device 9 is brought into contact with the image display body 1 to record image information on the image display body 1, and at the same time, on the other hand, the heat roll 10 is brought into contact with the image display body 1. Thus, the image information recorded on the image display 1 can be erased. As a result, when the image display body 1 is arranged in the form of an endless sheet and travels in the direction of the arrow in FIG. The image information is read on the way, reaches the heat roller 10, and is erased by the heat roller 10. The portion of the image display body 1 from which the image information has been erased reaches the heating recording device 9 and the image information is recorded again. In this way, by simultaneously operating the heating recording device 9 and the heat roll 10, it is possible to continuously record and erase image information. Of course, also in this embodiment, the heating recording device 9 and the heat roller 10 can be operated separately, as in the above embodiment.

Other configurations and operating methods are the same as those in the above embodiment.

Further, in the above-mentioned embodiment, the heating recording device 9 and the heat roller 10 are arranged on the back side of the image display body 1. However, in some cases, both of these devices are provided in the image display body. It can also be arranged on the front side.

[0036]

As described above, the recording and erasing method of the present invention enables efficient recording and erasing of image information on an image display by using a device having a simple structure. In particular, when the erasing is performed while the heating recording device and the heat roller are in contact with each other at the same time, the erasing can be performed very efficiently.

In addition, the image display member is formed into a sheet shape or an endless sheet shape and used as a recording material for an overhead projector (OHP) or a facsimile, and the recording and erasing apparatus used in the present invention is O.
When incorporated in an HP device or a facsimile device, an OHP or facsimile recording material capable of continuous recording and erasing operations is provided.

[Procedure Amendment 2]

[Document name to be corrected] Drawing

[Name of item to be corrected] Figure 2

[Correction method] Change

[Correction content]

[Fig. 2]

Claims (1)

Claims: 1. By heating and cooling to a specific temperature, a transparent surface or a cloudy surface is formed depending on the heating temperature, and a specific area of the surface is heated to a specific temperature according to image information,
Then, by cooling, image information is recorded by bringing a heating recording device into contact with an image display body having a heat sensitive body capable of displaying image information, and then a heat roller controlled to a specific temperature is attached to the image display body. The process of erasing the image information by making the image information part recorded by contact with the same transparent or cloudy surface as the non-recorded part, the heating recording device and the heating roller were simultaneously contacted with the image display body. A method for recording and erasing a heat-sensitive image, which is performed in the state.