JPH03156489A - Display board device - Google Patents

Abstract

PURPOSE:To prevent the generation of odor or dust or the occurrence of solution leakage or unevenness in colors by using an NCAP liquid crystal film formed by mixing low molecular liquid crystal into a matrix consisting of high molecular liquid crystal and impressing a high frequency field for turning the NCAP liquid crystal film to a transparent state or low frequency field for turning the film to an opaque state. CONSTITUTION:A front board 12 is arranged on one side of the nematic curvilinear aligned phase(NCAP) liquid crystal film 11 formed by mixing low molecular liquid crystal into the matrix consisting of high molecular liquid crystal and provided with a memory property and a rear electrode 13c is arranged on the other side. The front board 12 is formed by embedding many fine front electrodes 12c in a transparent insulating base 12i. An electric pen 60 for impressing a high frequency field by coming into contact with the front electrodes 12c to turn the film 11 to the transparent state and an electric mat 70 for impressing a low frequency field to turn the film 11 to the opaque state are connected. Consequently, the generation of odor or dust or the occurrence of liquid leakage or unevenness in colors can be prevented.

Description

DETAILED DESCRIPTION OF THE INVENTION "Field of Industrial Application" The present invention relates to a display board device used as an electrical blackboard device, an electrical message board device, or the like.

``Prior Art'' A so-called electronic blackboard is an electric display board device that displays characters, pictures, etc. on a board and erases the displayed characters, pictures, etc.

However, with conventional electronic blackboards, characters and pictures are written on the board with a marker pen, and the characters and pictures are erased by rubbing the board with a cloth mat. It does not electrically display or erase pictures, etc., but simply allows characters, pictures, etc. displayed on the board to be electrically copied.

The applicant also proposed a special display board device in Japanese Patent Application No. 63-326523.

This has an electrochromic display configuration, and as shown in FIG. 5 or 6, the display board l has a front board 3 attached to one side of a frame 2, which also serves as a spacer and a sealing material, and the opposite side. A rear board 4 is attached to the side surface, a counter electrode 5 is attached to the surface of the rear board 4 facing the front board 3, and a counter electrode layer such as an iridium oxide layer is attached to the surface of the counter electrode 5 facing the front board 3. 6
An electrochromic material layer 7 is interposed between the front board 3 and the counter electrode layer 6, and the counter electrode 5 is grounded.

However, in the front board 3, a large number of fine transparent electrodes 3C penetrate through the transparent insulating substrate 31 in the thickness direction of the transparent insulating substrate 31, and are arranged at fine pitches in the surface direction of the transparent insulating substrate 31. In the example shown in FIG. 5, the electrochromic material layer 7 is made of tungsten oxide as a colored substance (electrochromic material in a narrow sense) layer formed in close contact with the back surface of the front board 3. It is composed of a layer 7a and an electrolyte solution 7b as an ion source such as a lithium perchlorate propylene carbonate solution sealed between this layer and a counter electrode layer 6, and the example shown in FIG. 6 is an electrochromic material. This is the case where the layer 7 is composed of viologen derivative 7C containing viologen as a coloring substance and a supporting electrolyte.

Although not shown, an electric pen having a nib to which a negative voltage is applied to the counter electrode 5 and a counter electrode 5 are provided.
An electric mat having a mat body to which a positive voltage is applied is provided, and by scanning the front board 3 with a pen tip, characters, pictures, etc. are displayed on the display board l, and the mat body displays the front board 3. The characters, pictures, etc. displayed on the display board l are erased by scanning.

That is, when the pen tip contacts the transparent electrode 3C of the front board 3, a negative voltage is applied to the transparent electrode 3C at the point of contact with respect to the counter electrode 5, and in the example of FIG. At the point of contact, the tungsten oxide of the tungsten oxide layer 7a is reduced and colored blue, and in the example of FIG. 6, the viologen of the viologen derivative 7C is reduced and colored dark blue at the point of contact. The electrochromic material deposited on the back surface of the transparent electrode 3C has a memory property, and once the coloring substance is colored, the state is maintained for a long time, so it is possible to scan the front board 3 with the pen tip. Characters, pictures, etc. are displayed on the display board l.

Furthermore, when the mat body is brought into contact with the transparent mold N3c at a colored point on the display board 1 with characters, pictures, etc. being displayed on the display board 1, the transparent electrode 3c is brought into contact at the point of contact. Counter electrode 5
In the example of FIG. 5, the reduced tungsten oxide is re-oxidized and decolorized at the contact point, and in the example of FIG. Viologen reduced at the points is re-oxidized and decolored, and by scanning the front board 3 with the mat main body, the characters, pictures, etc. displayed on the display board 1 are erased.

``Problems to be Solved by the Invention'' However, conventional display board devices called electronic blackboards use marker pens to write letters and pictures on the board, electrically copy them, and then print them on the board using a cloth mat. Since letters, pictures, etc. are erased by rubbing, there is a drawback that ink odor and dust are generated.

Furthermore, the display board device with an electrochromic display structure proposed in Japanese Patent Application No. 63-326523 uses a special electric pen and electric mat, so that the above-mentioned inconveniences that occur in the display board device called an electronic blackboard do not occur. However, if the electrolyte solution 7b is used as in the example shown in FIG. 5, the liquid may leak or elute into the electrolyte solution 7b from the frame 2, and the solid electrolyte may leak as in the example shown in FIG. When used, there is an inconvenience that color unevenness occurs due to its properties.

In view of this, the present invention provides a display board device used as an electrical blackboard device, an electrical message board device, etc., which does not generate odors, dust, etc., and also prevents liquid leakage and color unevenness when displaying a colored display. This is to prevent this from occurring.

E Means for Solving the Problem In the invention of claim 1, a special display board, an electric pen, and an electric mat are provided.

The display board is made of N, which is a mixture of low-molecular liquid crystals in a matrix of high-molecular liquid crystals and has memory properties.
CAP (NemaHc Curvilinear A
A front board is provided on one side of the liquid crystal film, and a rear electrode is provided on the other side of the liquid crystal film. , in which a large number of fine front electrodes are embedded and arranged in the plane direction.

The electric pen applies a high frequency voltage between the pen tip and the rear electrode of the display board, and by bringing the pen tip into contact with the front electrode of the display board, the NCAP liquid crystal film of the display board is heated at the point of contact. A high frequency electric field is applied to make the NCAP liquid crystal film transparent. The electric mat applies a low frequency voltage between the mat body and the rear electrode of the display board, and by bringing the mat body into contact with the front electrode of the display board, the NCAP liquid crystal of the display board is activated at the point of contact. In the invention of claim 2, characterized in that the NCAP liquid crystal film is formed by applying a low frequency electric field to the film, the electric pen is provided with a heater that heats the tip of the pen, and the mat body is attached to the electric mat. A heater is provided for heating.

"Function" In general, in an NCAP liquid crystal film in which minute liquid crystal spheres (liquid crystal capsules) are dispersed in a polymer matrix, when no electric field is applied to the film, the liquid crystal molecules in the liquid crystal sphere line up along the outer wall of the liquid crystal sphere. Due to the birefringence of liquid crystal molecules, incident light is scattered on the surface and inside of the liquid crystal sphere, making it opaque. They are aligned along the direction of the electric field and the incident light travels straight through them, making them transparent.

On the other hand, the NCAP liquid crystal film, which is a mixture of low-molecular liquid crystals in a matrix of polymeric liquid crystals, takes advantage of the film-forming function and memory properties of polymeric liquid crystals and the high-speed response of low-molecular liquid crystals. When a low-frequency electric field with a frequency and intensity determined by the mixing ratio of molecular liquid crystal and low-molecular liquid crystal, temperature, etc. is applied, the arrangement of liquid crystal molecules is disturbed by ion conduction, and incident light is scattered, making it opaque.
When a high-frequency electric field with a frequency and intensity determined by similar conditions is applied, there is no ion conduction, the liquid crystal molecules are aligned in a uniform homeotropic pink orientation, and the incident light is not scattered, making it transparent. Moreover, by selecting the mixing ratio of polymer liquid crystal and low-molecular liquid crystal, memory properties are imparted, and even after the low-frequency electric field or high-frequency electric field is removed, the memory property remains unchanged until the opposite high-frequency electric field or low-frequency electric field is applied. remains opaque or transparent.

Therefore, in the display board device of the invention of claim 1 configured as described above, the NCA in which the low molecular liquid crystal is mixed in the matrix consisting of the high molecular liquid crystal is used.
Since memory properties are imparted to the P liquid crystal film, when the pen tip is brought into contact with the front electrode and a high frequency electric field is applied to the NCAP liquid crystal film at the point of contact to make the NCAP liquid crystal film transparent, Even after the pen tip is removed from the point and the high-frequency electric field is removed, the NCA remains at the point of contact.
The P liquid crystal film remains transparent, and by scanning the front board with the pen tip, characters and pictures are displayed on the display and board. In addition, when the mat body is brought into contact with the front electrode and a low frequency electric field is applied to the NCAP liquid crystal film at the point of contact to make the NCAP liquid crystal film opaque, the mat body separates from the contact point and the low frequency electric field is applied to the NCAP liquid crystal film at the point of contact. Even after the electric field is removed, the NCA remains at the point of contact.
The P liquid crystal film maintains an opaque state, and characters and pictures displayed on the front board are erased by scanning the front board with the mat body.

The display board device of the invention of claim 1 uses a special display board, an electric pen, and an electric mat, so it does not generate odors or dust, and the NCAP liquid crystal film of the display board has a high Since the structure is such that low-molecular liquid crystals are stably held in a matrix of molecular liquid crystals, there is no possibility of liquid leakage. Furthermore, by making the rear electrode of the display board a transparent electrode, placing a colored board such as a colored film or colored acrylic board behind it, and placing a backlight behind it, it is possible to easily add color to characters and pictures. can be displayed without causing color unevenness.

In an NCAP liquid crystal film in which low-molecular liquid crystal is mixed in a matrix of polymeric liquid crystal, the strength of the high-frequency electric field that makes it transparent and the low-frequency electric field that makes it opaque are NCA.
It largely depends on the temperature of the P liquid crystal film, and the higher the temperature of the NCAP liquid crystal film, the weaker the electric field can make the NCAP liquid crystal film transparent or opaque.

In the display board device of the invention of claim 2,
In particular, when the pen tip and the mat body are heated by heaters, and the pen tip or the mat body is brought into contact with the front electrode, heat is transferred from the pen tip or the mat body to the NCAP liquid crystal film at the point of contact, and the NCAP liquid crystal film As the temperature increases, the NCAP liquid crystal film can be made transparent or opaque with a weak high-frequency electric field or low-frequency electric field, and low-voltage driving is possible by lowering the high-frequency voltage and low-frequency voltage applied to the pen tip and mat body. become.

・"Example" FIG. 1 shows an example of the display board device of the present invention, which has a transmissive structure that displays a colored display, and which heats the pen tip and mat body of an electric pen and an electric mat, respectively. This is the case where a heater is provided.

The display board IO in this example is a special NC
The AP liquid crystal film 11, front board 12, rear board 13, and colored board 14 are integrated.

The NCAP liquid crystal film 11 has a matrix composed of a polymer liquid crystal such as a silicon-based polymer liquid crystal mixed with a low-molecular liquid crystal such as a Schiff liquid crystal or a cyanobiphenyl liquid crystal, and a mixture ratio of the polymer liquid crystal and the low-molecular liquid crystal. A device that has been given memory properties through selection, etc. - For example, a mixture ratio of polymer liquid crystal and low molecular liquid crystal is 60:40 by weight, and a high frequency of 1 kHz and 40 V is generated at a temperature of about 60°C. It becomes transparent when a voltage is applied, and becomes opaque when a low frequency voltage of IHz and 40V is applied.

The front board 12 has a large number of fine front electrodes 12c embedded in a transparent insulating substrate 12i, penetrating the transparent insulating substrate 12i in the thickness direction, and arranged at fine pitches in the surface direction of the transparent insulating substrate 12i. It is arranged on one side of the NCAP liquid crystal film 11 in close contact with the NCAP liquid crystal film 11. As such a front board 12, a commercially available transparent silicone rubber sheet in which thin metal wires are embedded can be used.

The rear board 13 is completely transparent with a transparent conductive film 13c formed on one surface of the PET film 13i, and the NCAP is connected with the transparent conductive film 13c on the NCAP liquid crystal film ll side.
A transparent conductive film 13c is disposed on the other side of the liquid crystal film 11 in close contact with the NCAP liquid crystal film 11 and serves as a rear electrode. The rear electrode 13c is grounded.

The colored board 14 is a colored transparent or translucent board, such as a colored film, colored acrylic board, or colored cellophane paper, and is disposed on the rear side of the rear board 13.

Fluorescent lamps 31 and 32 are attached to the bottom of the case 20 as backlights, and the display board 10 is attached to the case 20 with the front board 12 facing the outside of the case 20.
stored inside. Fluorescent lamps 31 and 32 are connected to power plug 4
Connected to 0.

Further, when the oscillator 50 is connected to the power plug 40 and the power plug 40 is connected to a power outlet of a commercial AC power source, the NCA is connected between the lead wires 51a and 51b of the oscillator 50.
A high frequency voltage Hv of 1 kHz and 40 V that makes the P liquid crystal film 11 transparent is obtained, and a low frequency voltage Lv of IHz and 40 V that makes the NCAP liquid crystal film 11 opaque is obtained between the lead wires 52a and 52b. The lead wire 5
An electric pen 60 is connected to 1a and 51b, and the lead wire 52
Electric Matsudoor 0 is connected to a and 52b.

For example, as shown in FIG. 2, the electric pen 60 has a pen tip 62 made of a metal rod with a diameter of about 5 mm in one end of a case 61 made of plastic or the like, and the tip thereof is attached to the case 61. Inside the case 61, a heater 64 is arranged around the pen tip 62 via an insulator 63 made of ceramic fiber or the like, and a volume 65 with a switch is installed inside the other end of the case 61. , an operating knob 68 of the volume with switch 65 is arranged outside the case 61, and as shown in FIG. 4, a lead 1451a is connected to one end of the volume with switch 65 on the switch 66 side. The connection point between the volume 67 and the volume 67 is connected to one end of the heater 64 by a lead wire 69a, the adjuster of the volume 67 is connected to the pen tip 62 by a lead wire 69c, and the lead wire 51b is connected to the other end of the volume 67 side of the volume 65 with a switch. end and the other end of the heater 64. Therefore, switch 66
When turned on, the high frequency voltage Hv of 1 kHz and 40 V obtained between the lead wires 51a and 51b is directly supplied across the heater 64, current flows through the heater 64, and the pen tip 62 is heated by the heater 64. At the same time, by adjusting the volume 67, the pen tip 62
1 between the rear electrode 13c of the display board 10 and the rear electrode 13c of the display board 10.
A high frequency voltage Hv of kHz and 40V is applied.

In this case, the temperature of the pen tip 62 when heated by the heater 64 is set to about 60°C.

For example, as shown in FIG.
A mat main body 72 made of a conductive elastic material such as conductive rubber in which metal powder or conductive carbon powder is dispersed in rubber, a heater 73, and a switch 74 are attached to a case 71, as shown in FIG. The lead wire 52a is connected to one end of the switch 74, the other end of the switch 4 is connected to the mat main body 72, and also connected to one end of the heater 73, the lead wire 52b is connected to the other end of the heater 73, and the switch When 74 is turned on, IHz obtained between leads 52a, 52b.

A low frequency voltage Lv of 40V is supplied between both ends of the heater 73, current flows through the heater 73, the mat body 72 is heated by the heater 73, and a voltage is generated between the mat body 72 and the rear electrode 13c of the display board 10. IHz
, 40V low frequency voltage Lv is applied. In this case, the temperature of the mat body 72 when heated by the heater 73 is set to about 60°C.

In the display board device described above, the power plug 40 is connected to a power outlet, and the oscillator 50 has a frequency of 1 kHz between the leads 51a and 51b.

When a high frequency voltage Hv of 40V is obtained and a low frequency voltage Lv of IHz and 40V is obtained between the lead wires 52a and 52b, the switch 66 of the electric pen 60 is turned on and the pen tip 62 is heated by the heater 64. At the same time, the volume 67 is adjusted to generate a voltage of 1kHz, 40V between the pen tip 62 and the rear electrode 13c of the display board IO.
When a high frequency voltage Hv is applied and the pen tip 62 is brought into contact with the front electrode 12c of the front board 12 of the display board IO, heat is transferred from the pen tip 62 to the NCAP liquid crystal film 11 at the point of contact, causing the NCAP liquid crystal to rise. Membrane 11
temperature reaches about 60°C, and a high frequency electric field with an intensity equivalent to 40V at 1 kHz is applied to the NCAP liquid crystal film 11 at the point of contact, and the NCAP liquid crystal film 11 becomes transparent at the point of contact. The color of the colored board 14 becomes visible from the front board 12 side due to the light from the fluorescent lights 31 and 32. Since the NCAP liquid crystal film 11 is given a memory property, even after the pen tip 62 is separated from the point of contact and the high-frequency electric field is removed, the NCAP liquid crystal film 11 remains transparent at the point of contact. display board 10 by holding the state and thus scanning the front board 12 with the pen tip 62.
Text and pictures are displayed in color at the top.

With characters, pictures, etc. displayed on the display board 10 in this manner, the switch 74 of the electric mat door 0 is turned on to heat the mat body 72 with the heater 73, and the rear electrode of the display board 10 is placed on the mat body 72. 13c IH2, 40V low frequency voltage L
v is applied, and the mat main body 72 is connected to the front electrode 1 at the point on the display board 10 where characters, pictures, etc. are displayed.
2C, heat is transferred from the mat body 72 to the NCAP liquid crystal film 11 at the point of contact, and the NCAP
When the temperature of the P liquid crystal film 11 reaches about 60°C, the voltage of 40V at IHz is applied to the NCAP liquid crystal film 11 at the point of contact.
A low-frequency electric field with an intensity corresponding to that is applied, and the NCAP liquid crystal film 11 becomes opaque at the point of contact, so that the color of the colored board 14 is no longer visible. And N.C.A.P.
Since the liquid crystal film 11 is given memory properties, even after the mat main body 72 is separated from the point of contact and the low frequency electric field is removed, the NCAP liquid crystal film 11 remains in an opaque state at the point of contact. hold and therefore the mat body 7
The characters, pictures, etc. displayed on the display board 10 are erased by scanning the portion of the front board 12 where the characters, pictures, etc. are displayed in step 2.

In the above-mentioned display board device, since the special display board 10, electric pen 60, and electric mat door 0 are used, no odor or dust is generated. Furthermore, since the NCAP liquid crystal film 11 of the display board 10 has a structure in which low-molecular liquid crystal is stably held in a matrix made of high-molecular liquid crystal, liquid leakage does not occur. Furthermore, characters, pictures, etc. can be easily displayed in color, and color unevenness does not occur in this case.

In addition, when the pen tip 62 and the mat body 72 are heated by the heaters 64 and 73, respectively, as in the illustrated example, the high frequency voltage and low frequency voltage applied to the pen tip 62 and the mat body 72 are controlled as described above. This enables low-voltage driving.

In the illustrated example, the rear electrode 13c of the display board 0 is made into a transparent electrode, and the colored board 1 is placed behind it.
4 is arranged, and fluorescent lights 31 and 32 are arranged behind it as a backlight, thereby creating a transmissive display board device that displays a colored display, but a reflective display board device may be made into

"Effects of the Invention" As described above, according to the invention of claim 1, there is no generation of odors, dust, etc., and there is no occurrence of liquid leakage or color unevenness when displaying in color. .

Furthermore, according to the second aspect of the invention, low-voltage driving is possible in which the high-frequency voltage and low-frequency voltage applied to the pen tip and the mat body are particularly low.

[Brief explanation of the drawing]

1 is a diagram showing an example of the display board device of the present invention, FIG. 2 is a sectional view showing the electric pen, FIG. 3 is a sectional view showing the electric mat, and FIG. 4 is a sectional view showing the electric pen. Figures 5 and 6, which show connections between a pen and an electric mat, are sectional views showing essential parts of an example of a display board device proposed in Japanese Patent Application No. 63-326523.

Claims (2)

[Claims] (1) An NCAP liquid crystal film in which a low-molecular liquid crystal is mixed in a matrix made of a polymer liquid crystal and has a memory property, and a transparent insulating substrate is provided on one side of the NCAP liquid crystal film in the thickness direction. a display board having a front board in which a large number of fine front electrodes are embedded in the NCAP liquid crystal film, and a rear electrode provided on the other side of the NCAP liquid crystal film; has a pen tip to which a high frequency voltage is applied between the pen tip and the front electrode, and by bringing the pen tip into contact with the front electrode, a high frequency electric field is applied to the NCAP liquid crystal film at the point of contact, and the NCAP liquid crystal film is and a mat body to which a low frequency voltage is applied between the rear electrode and the NCAP, and by bringing the mat body into contact with the front electrode, the NCAP is made transparent at the point of contact.
A display board device comprising: an electric mat that applies a low frequency electric field to the liquid crystal film to make the NCAP liquid crystal film opaque. (2) The display board device according to claim 1, wherein the electric pen has a heater that heats the pen tip, and the electric mat has a heater that heats the mat body.