JPH06262744A - Seal making device - Google Patents

Abstract

PURPOSE:To manufacture a required real simply in a short time even by a person other than a professional worker. CONSTITUTION:A resin made seal face member 42b wherein a part which receives a light beam of a specific frequency component becomes different in a state from the other part as a seal face member 42 and either part can be eliminated by action on a specific fluid, is applied. Then, a print seal pattern transfer control means controls print seal pattern transfer optical means 50, 51, 52, 53, 54, 55, 56, 57 according to print seal pattern information taken in by an information processing means, irradiates the resin made print face member with a light beam of a specific frequency component while scanning the resin made print face member, and varies a state of a part corresponding to the print seal pattern of the resin made print face member or the other part.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a seal making apparatus, and more particularly to a seal making apparatus which enables a person other than a seal making expert or a specialist to easily make a desired seal (imprint).

[0002]

2. Description of the Related Art Not only stamps for imprinting a person's name or his name, but also general stamps including so-called stamps larger than this are often created by specialists or specialists. Whether or not, the seal is often created by selectively engraving one end surface of the rod. Further, it is also practiced to form a stamp by forming a mold having unevenness opposite to that of the stamp from resin, for example, and then pouring a fluid into the mold to solidify it to form a stamp face member.

However, there are many stamps that corporations and individuals desire to own. For example, various seals are often required, such as a seal for stamping an addressee to be frequently mailed, a seal for stamping accounting account items, and a seal for distributing to new employees. In such a case, when an expert or a professional contractor is requested to create a seal, there may be a problem in terms of money or time until preparation.

Therefore, it has been required that even a person other than a seal-making expert or a specialist can easily make a desired seal, and conventionally, a seal-making device (that can be made by a person other than an expert) ( Strictly called a kit) is already on the market.

It is considered that the seal created by the seal creating apparatus is often applied to the use where the rubber stamp is used, and the same applies to the embodiments of the present invention described later.

Although not shown in the drawing, this conventional stamp making device includes an ultraviolet-sensitive film, an ultraviolet irradiation device, and
A flat UV curable resin member and a rootstock were provided, and a stamp was prepared as follows. It should be noted that the ultraviolet irradiation device includes a housing containing an ultraviolet fluorescent lamp, a timer for allowing the user to set the lighting time of the ultraviolet fluorescent lamp, and a transparent mount provided on the upper surface of the housing for transmitting ultraviolet light. It is composed of a mounting plate and an openable / closable lid for preventing the ultraviolet rays transmitted through the transparent mounting plate from leaking to the outside. The ultraviolet curable resin member is composed of a base layer that does not react with ultraviolet rays and an ultraviolet curable resin layer, and the base layer is thinner than the ultraviolet curable resin layer.

When a seal is to be produced by this conventional seal making apparatus, first, a character or a pattern (hereinafter referred to as a seal imprint pattern) transferred to the ultraviolet translucent paper such as tracing paper by imprinting is applied. ) To write the original picture.

Then, on the transparent mounting plate of the ultraviolet irradiation device,
After placing the original image and the UV-sensitive film on top of each other, close the lid and set the irradiation time according to the quality of the paper on which the original image was drawn with a timer to set the ultraviolet light from the ultraviolet fluorescent lamp for a predetermined time. Only irradiate. The film thus exposed is washed with a predetermined liquid (water in a commercially available apparatus) to obtain a negative film in which the imprint pattern is positive-negative inverted.
That is, a negative film in which the imprint pattern portion is transparent to ultraviolet rays and the other portions are brown (ultraviolet ray cut color) is obtained.

Next, the negative film and the ultraviolet curable resin member are placed on the transparent mounting plate of the ultraviolet irradiating device in a superposed manner and the lid is closed, and the ultraviolet light from the ultraviolet fluorescent lamp is closed for a predetermined time. Only irradiate. By this irradiation, the ultraviolet-irradiated portion (corresponding to the imprint pattern) of the ultraviolet-curable resin member is cured and the other portions are not cured. After such curing treatment, the UV curable resin member is washed with a predetermined liquid (water in a commercially available apparatus) to remove the non-cured portion, so that the UV curable resin layer in the imprint pattern portion is not covered with other portions. The stamp face member protruding from the base layer is completed.
The stamp face member thus completed is further irradiated with ultraviolet rays to fix the stamp face.

Then, the stamp is completed by attaching the stamp member to the rootstock.

[0011]

However, according to the conventional seal-making device, if the work for producing the original image is included, the seal-maker has to perform a large number of works, resulting in poor workability. However, there is a problem that the production time becomes long.

Despite the presence of the imprint pattern on the original image itself, this information cannot be directly used for producing the stamp member, that is, it is necessary to produce the negative film as an intermediate member. Creation is a major cause of the above problems.

Further, unless an original image is intentionally created by handwriting, if an original image is to be created in a predetermined font, a so-called word processor or the like will be used, and the imprint pattern created by the word processor will be used in an electronic copying machine or the like. It was necessary to make a copy on an ultraviolet translucent paper by using the above method, and it took a lot of time and labor to create an original image.

Further, it is necessary to set the timer time in accordance with the thickness of the ultraviolet transparent paper, the density of the original, and the like, which requires some proficiency.

The present invention has been made in consideration of the above points, and it is an object of the present invention to provide a seal making apparatus which enables a person other than a seal making expert to easily make a desired seal in a short time. is there.

[0016]

In order to solve such a problem, in the present invention, the seal making device is constituted by the following respective means.

That is, (1) the information processing means for taking in the imprint pattern information, and (2) the part receiving the light beam of the predetermined frequency component is in a different state from the other part, and either one of the parts has a predetermined condition. A resin-made stamp face member that can be removed by the action of the fluid, and (3) a light beam of a predetermined frequency component on the part of the resin-made stamp face member or other parts according to the imprint pattern information, using an optical switch or polygon mirror. The seal imprint pattern transfer optical system means for scanning and irradiating, and (4) the seal imprint pattern transfer control means for controlling the seal imprint pattern transfer optical system means according to the seal imprint pattern information fetched by the information processing means.

[0018]

In the seal making device of the present invention, as the stamp member, the portion receiving the light beam of the predetermined frequency component is in a different state from the other portions, and either one of the portions can be removed by the action with the predetermined fluid. A resin stamp face member will be applied.

Information processing means (similar to the information processing structure of a word processor, personal computer, tape printer, etc.)
Captures the imprint pattern information instructed by the seal creator. According to the seal imprint pattern information thus captured, the seal imprint pattern transfer control means controls the seal imprint pattern transfer optical system means to irradiate the resin seal face member with a light beam having a predetermined frequency component while scanning the resin seal face member. The state of the portion or other portions according to the seal impression pattern of the member is changed. That is, the captured seal imprint pattern information is transferred to the stamp face member. The unevenness as a seal is completed by causing the stamp face member thus subjected to the transfer processing to act with a predetermined fluid.

Therefore, according to the present invention, it is not necessary to prepare an intermediate member such as a negative film, and the stamp can be prepared easily and in a short time.

[0021]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of a stamp making apparatus according to the present invention will be described below in detail with reference to the drawings. The seal stamp creating apparatus of this embodiment includes a stamp main body and a stamp stamping machine, and the stamp stamping machine is roughly composed of an electrical configuration section (an information processing section and a seal imprint transfer control section) shown in FIG. And the seal imprinting optical component shown in FIG. Note that FIG. 1 also shows the configuration of the stamp body. Further, FIG. 3 is a perspective view showing an example of the external configuration of the seal stamp creating apparatus. Further, FIGS. 4 and 5 are flowcharts showing the basic processing for creating a seal.

First, the electrical components of this embodiment will be described with reference to FIG.

This electrical component is mainly for taking in the seal imprint pattern information and controlling the seal imprint transfer optical component, and corresponds to a kind of information processing device, and other information. Similar to the processing device, it is mainly composed of an input unit 10, a control unit 20, and an output unit 30.
The control unit 20 executes processing according to the information from the input unit 10 and the processing stage at that time, and controls the optical component for seal imprint transfer via the output unit 30 according to the processing result or the like. Is.

The input unit 10 is composed of a key input unit 11 having a press key, a dial key, etc., an image reading unit 12, and a stamp type detection sensor 13 although the detailed structure is omitted. The key input unit 11 generates character code data and various control data to be given to the control unit 20. The image reading unit 12 reads a document and gives image data to the control unit 20. Seal type detection sensor 1
Reference numeral 3 is for detecting the type of the stamp loaded and providing stamp type information to the control unit 20. For example, the stamp body and its mounting jig are provided with physical identification elements such as holes that define the stamp type, and the stamp type detection sensor 13 reads the physical identification element and outputs stamp type information. To do. The stamp type detection sensor 13 may not be provided.

The output unit 30 is an optical component drive circuit group 3 for driving and controlling the respective components of an optical component for imprint transfer described later.
1 and a drive circuit 32 of the display device 33, and each drive circuit 31, 32 drives a corresponding component under the control of the control unit 20. The display device 33 corresponds to a display device in an information processing device, and displays a guidance message to the seal maker, seal imprint pattern information input by the seal maker, and the like.

Although the optical component drive circuit group 31 is composed of various drive circuits, they are collectively shown here. Among the elements of the optical component, there are various components that require drive control, as will be described later, and in practice,
There is a drive circuit for each of the components.

The control unit 20 is composed of, for example, a microcomputer, and has a CPU 21, a ROM 22,
RAM23, character generator ROM (CG-R
The OM) 24, the input interface unit 25, and the output interface unit 26 are connected via a system bus 27.

The ROM 22 stores various processing programs (see FIG. 4 and FIG. 5) for creating a seal executed by the CPU 21, and fixed data such as kana-kanji conversion dictionary data.

The RAM 23 is used as a working memory by the CPU 21, and also stores fixed data related to user input.

The CG-ROM 24 stores a dot pattern of characters and symbols prepared in the seal making machine, and corresponds to a dot pattern corresponding to code data specifying the characters and symbols. Is output. It should be noted that separate CG-ROM for display and imprint
May be provided.

The input interface unit 25 is the input unit 10.
The output interface unit 26 serves as an interface between the output unit 30 and the control unit 20.

The CPU 21 uses the RAM 23 as a working area for the processing program in the ROM 22 which is determined according to the input signal from the input unit 10 and the processing stage at that time, and also, if necessary, the ROM 22 and the RAM 2.
The fixed data stored in No. 3 is used as necessary for processing, and the processing status, processing result, etc. are displayed on the display device 33, and each unit of the optical configuration unit (FIG. 1) is driven to create a seal. Let me create it.

Next, the structures of the optical component for imprint transfer and the seal body will be described with reference to FIG.

The stamp main body 40 includes a stick-shaped base material 41 (not necessarily made of wood) 41 and a stamp face member convex portion which is attached to one end portion of the base material 41 and absorbs two pressing forces and pressing drag forces at the time of stamping. Sponge member 43 for enhancing the familiarity between the section and the paper
And a flat stamp member 42 provided on the surface of the sponge member 43. The stamp face member 42 is
UV-insensitive base layer 42a and UV curable resin layer 4
2b, and the ultraviolet curable resin layer 42b is exposed to the outside. The thickness of the ultraviolet curable resin layer 42b is selected to be the amount of protrusion required for the convex portion of the stamp surface to which the print meat adheres.

The stamp body 40 is detachably attached to the stamp making machine by an attachment mechanism (not shown). For example, the seal main body 40 having a rectangular cross section is attached so as to follow an orthogonal coordinate system (XY coordinate system) in which one corner of the rectangle coincides with a reference point, and the seal main body 4 having a circular or oval cross section.
0 is mounted on a stamp making machine in the same manner as the stamp main body 40 having a rectangular cross section by being loaded through a mounting jig, for example. In addition, it is preferable that ultraviolet rays do not leak to the outside when the seal is attached.

The mounting mechanism of the seal main body 40 (not shown) is movable at a predetermined pitch (line pitch) in the Y direction (sub scanning direction) shown in FIG.

The optical component for imprint transfer includes an ultraviolet irradiation laser light source 50, a beam concentrator 51, and an optical switch 52.
, Beam expander 53, cylinder lens 54, polygon mirror 55, fθ lens 56, and objective lens 57.
And each element is arranged in this order.

The ultraviolet irradiation laser light source 50 oscillates and outputs an ultraviolet laser beam during a period in which the control unit 20 instructs the output by a drive circuit (not shown) (see reference numeral 31). The laser beam output in this way is
It is focused by the beam concentrator 51 and is incident on the optical switch 52. The optical switch 52 connects and disconnects the laser beam by a drive circuit (not shown) (see reference numeral 31), and the control command is issued by the control unit 20. The intermittent laser beam is made to have a predetermined spot shape by the beam expander 54, and then the change of the spot shape due to the reflection of the polygon mirror 55 is compensated by the cylinder lens 54, and the polygon mirror 55 is compensated.
Is incident on.

The polygon mirror 55 is rotated at a constant speed by a drive circuit (see reference numeral 31) and a drive mechanism (motor) 58 (not shown). Direction (main scanning direction)
To deflect and scan. The rotation of the polygon mirror 55 is also performed under the control of the control unit 20, and is performed in synchronization with the intermittent operation by the optical switch 52 described above. The scanning laser beam reflected by the polygon mirror 55 is reflected by, for example, an fθ lens 56 having a toroidal lens configuration.
After being converted so that the scanning speed on the irradiation target (ultraviolet curable resin layer 42b) becomes constant, this objective lens 56 is passed through the objective lens 57 having a double spherical lens configuration, for example.
UV curable resin layer 42b whose surface coincides with the focal plane of
Is irradiated.

Therefore, the interruption of the laser beam by the optical switch 52 is performed in accordance with the information of one line in the predetermined direction (main scanning direction) of the imprint pattern, and the stamp body 40 (hence, the ultraviolet curing resin layer 42b) is sub-scanned. By repeating the same process by shifting the line by one line in the direction, it is possible to selectively irradiate only the portion of the ultraviolet curable resin layer 42b corresponding to the imprint pattern with ultraviolet rays. That is, the imprint pattern can be transferred to the ultraviolet curable resin layer 42b.

As in the conventional case, the ultraviolet curable resin layer 42b
Can be removed by a predetermined liquid (for example, water: gas may be used) other than the hardened portion.

The seal-making apparatus having the above-mentioned electrical components shown in FIG. 2 and the seal-imprint transfer optical components shown in FIG. 1 has, for example, the appearance shown in FIG. In the external appearance example shown in FIG. 3, the key input unit 11 is provided on the operation panel surface.
And mounting structure 60 for the display liquid crystal device 34 and the seal body 40
And are arranged at appropriate positions, and the image reading unit 12 is connected to the seal-making machine main body 61 via a cable.

Next, with reference to FIG. 4, an example of a process of fetching the seal imprint pattern information, which is mainly performed by the CPU 21, will be described.

For example, when the key input unit 11 gives an instruction to take in the imprint pattern information, the CPU 21 causes the ROM
3 starts the seal imprinting pattern information acquisition processing program stored in FIG. 22. First, the seal type information is displayed on the display device 33, and the seal type information selected by the seal creator from the key input unit 11 is displayed. Take in (step 100). Here, the stamp type is defined by a stamp surface shape such as a rectangle, a circle, and an oval shape, and a size such as a large shape, a medium shape, and a small shape. It is set.

Next, the CPU 21 causes the display device 33 to display a message asking whether the seal imprint pattern information is to be key-inputted or image-inputted, and fetches the information of the input method selected by the stamp creator from the key input unit 11. Then, the selected input method is judged (step 101).

Here, when the image input is selected, a message for setting a document on the image reading unit 12 and activating the image reading unit 12 is displayed on the display device 33, and the image reading unit 12 reads it. Image data is captured (step 102). And the read image,
The contour outline of the stamp surface related to the designated stamp type is displayed on the display device 33 in an overlapping manner, the portion to be used for the seal imprint pattern in the read image is requested, the designated seal imprint pattern portion is taken in, and only that portion is imprinted. Display device 3 as a pattern image
3 and the imprint pattern information acquisition processing is terminated (step 103). For example, the seal creator may enter the key input unit 11
When the cursor key of is operated, the outline contour display of the stamp surface related to the designated seal type is moved in that direction, and when the enter key of the key input unit 11 is operated, the outline contour display of the stamp surface at that time is surrounded. The part of the read image is taken in as designated as the imprint pattern.

On the other hand, when it is recognized that the key input method has been selected as the input method of the seal imprint pattern information, the CPU 2
1 displays a message requesting that the attribute information of the seal imprint pattern be specified on the display device 33, and takes in the attribute information of the specified seal imprint pattern (step 104). The attributes of the imprint pattern are, for example, whether the imprint is a framed imprint, vertical writing or horizontal writing, number of lines, character size (absolute value or relative value may be specified), intaglio (reverse display in display) Or corresponding to non-inverted display.
Whether or not to perform character outer shape conversion processing (circularization processing, etc.) with a typeface of a character, a circular seal, etc., whether to create the whole in a graze, the outer size of the imprint pattern part, etc., Capture this information. Some attributes do not allow specification due to restrictions such as the size of the specified seal. For example, in the case of a small seal, prohibition of multiple lines is performed.

After that, the CPU 21 requests the stamp creator to input the character information by the display on the display device 33, and the character information input through the key input unit 11 by the same processing as an information processing apparatus such as a so-called word processor. Take in (step 105). It should be noted that the display in this input process is not a seal imprint pattern image display. When the end of inputting the character information is instructed, the CPU 21 converts the input character information according to various specified attributes and displays it as a seal imprint pattern image on the display device 33 for confirmation by the seal creator. Then, the process of capturing the seal imprint pattern information is completed (step 106). In addition, with input character display,
It is also possible to switch the display of the seal imprint pattern image of the characters input up to that point in time according to the user's key operation.

The stamp creator may start the transfer process to the stamp face member 42 immediately after finishing the input operation of the seal imprint pattern information, or to once store it in the RAM 23 (or an external storage device). You can also

For example, in the state where the seal imprint pattern image is displayed on the display device 33 (including the case where the stored image is read and displayed), the seal creator uses the key input unit 11 to print the seal member. Transfer to 42 can be commanded. At this time, the CPU 21 starts the transfer processing program stored in the ROM 22 to the stamp member 42 shown in FIG.

First, the CPU 21 fetches information from the stamp type detection sensor 13 and specifies that the stamp body 40 is mounted on the stamp making machine 45 and the type of the stamp body 40 mounted. It is confirmed (step 200).

Here, when the result of not mounting or wrong mounting is obtained, an error process for displaying a message requesting mounting or a message requesting replacement of the stamp main body 40 being mounted is displayed on the display device 33. Perform (step 201).

Seal body 40 attached to this
If the validity is confirmed, the oscillation of the ultraviolet irradiation laser light source 50 is started in the state where the optical switch 52 is closed, the rotation of the polygon mirror 55 is started, and the initial position is set. The seal imprinting optical component is made operable, for example, the mechanism for driving the stamp main body 40 in the sub-scanning direction is made operable (step 202). When laser oscillation and rotation of the polygon mirror 55 are stable,
The total number N of scanning lines corresponding to the stamp type is obtained, and the line position parameter i is set to the initial value (1) (step 203).

Then, the image data (binary data) of the target imprint pattern line i is extracted, and the optical switch 52 is turned on / off in synchronization with the rotation of the polygon mirror 55, so that the imprint pattern of the line i is obtained. UV curable resin layer 42b
The position of the line i is scanned and irradiated to partially cure the line i (step 204). When the ultraviolet curable resin layer 42b cannot be sufficiently cured by one scanning, the scanning of the same line may be repeated a plurality of times. When the scanning transfer process (curing process) for the line i is completed, it is confirmed that the scanning transfer process for all the lines is not completed, the seal body 40 is moved by one line, and the line parameter i is set to 1
It increments and returns to the above-mentioned step 204 (steps 205 and 206).

By repeating the transfer processing (curing processing) for each line, the processing for all the lines is completed, and a positive result is obtained in step 205. At this time, the CPU 21 completes the transfer processing. In addition, a message instructing to wash the ultraviolet curable resin layer 42b of the stamp body 40 with a predetermined liquid (water) is displayed on the display device 33, and a series of imprint pattern transfer processing is completed (step 207).

The seal maker makes the seal main body 40 after the curing process.
By washing the ultraviolet curable resin layer 42b with a predetermined liquid, portions other than the imprint pattern are removed to form irregularities forming the imprint pattern, and the stamp is completed.

After cleaning with a predetermined liquid, the stamp body 4
It is preferable to attach 0 to the seal making machine 45 again and irradiate it with ultraviolet rays to ensure the curing of the resin.

Therefore, according to the embodiment,
The work of creating a negative film is unnecessary, and since the information corresponding to the original image can be easily created using the key input unit 11, even a person other than a seal-making expert can easily and quickly create a desired seal. Can be created. Although it is considered that a conventional stamp making apparatus also creates an original image by a word processor or the like, a work of copying the original image on a tracing paper or the like is necessary, and the work in this respect is more than that in the embodiment.

Although FIGS. 4 and 5 show the basic processing flow, since the embodiment has an information processing configuration,
It is possible to easily change the size of the seal body (hence the size of the seal imprint) or the attributes of the seal imprint on the way. For the same reason, although the sizes of the seals are different, various seals whose seal imprints are similar can be obtained by one input process of the seal imprint pattern information.

Further, in the above-described embodiment, since the ultraviolet curable resin layer 42b in which the convex portions constituting the imprint pattern are left by curing is applied, when the cells of the imprint transfer panel section 51 are turned on / off. In addition, it is not necessary to convert the input imprint pattern information, that is, it is not necessary to perform the reverse character processing (mirror character processing), and the information processing load is small.

The present invention is not limited to the embodiment, but various modifications can be made. Some of the modified embodiments are as follows.

(1) The seal making machine 45 may also be provided with a constituent portion for performing the cleaning step of the cured resin layer 42b with a predetermined fluid. For example, the seal main body 40 after the curing process (imprint transfer process) is moved, and the leading end of the seal main body 40 is immersed in a predetermined liquid stored in the storage container so that the portion other than the cured portion is automatically removed. May be.

(2) Only the stamp face member 42, which is separate from the base 41, is mounted on the stamp making machine and the ultraviolet curable resin layer 42 is attached.
The curing treatment of b may be performed. in this case,
It is preferable to provide an adhesive layer, which is usually covered with a release paper, on one of the base 41 and the stamp face member 42 so as to facilitate the subsequent bonding between the base 41 and the stamp face member 42.
Further, the stamp face member 42 may be wound around a rotary drum and moved in the sub scanning direction.

(3) A commercially available information processing apparatus may be applied as a part of the constituent elements of the present invention. For example, a word processor, a personal computer, or a tape printer may be applied as an information processing configuration other than the optical configuration unit for transferring a seal imprint, and each unit of the optical configuration unit may be controlled via a cable.

(4) The transfer in the sub-scanning direction may be performed by moving the entire optical system portion from the laser light source 50 to the objective lens 57 instead of moving the stamp body 40.

(5) As the curable resin layer 42b, a curable resin layer 42b that is cured by a physical factor other than ultraviolet rays can be applied. For example, a visible light curable resin or a thermosetting resin can be used. When the visible light curable resin is used, the seal body 40 is distributed in a state in which the visible light curable resin layer is covered with the visible light cut release paper, and the release paper is removed only during the imprint transfer process. Is preferred. Also, when a thermosetting resin is used, a laser beam may be used as a heat source.

(6) As the resin forming the printing surface, a resin capable of removing a portion to which predetermined physical characteristics are added with a predetermined liquid may be applied.

(7) Enlargement and reduction of the imprint pattern may be performed by optical processing instead of information processing. For example, the imprint pattern can be enlarged or reduced by appropriately combining the constant rotation speed of the polygon mirror 55, the intermittent basic cycle of the optical switch 52, and the feed amount in the sub-scanning direction.

(8) As a method of inputting the imprint pattern, only image reading may be possible or only key input may be possible. For example, in a seal making apparatus that only reads an image, the image information read by the image reading unit may be directly applied to the optical switch for control. In such a case, the CPU itself may be omitted, or The input control and transfer control by the CPU can be omitted.

[0070]

As described above, according to the seal-making device of the present invention, as the stamp member, the portion receiving the light beam of the predetermined frequency component is in a different state from the other portions, and either one of the portions is received. Is applied with a resin-made stamp face member that can be removed by the action of a predetermined fluid, and the stamp imprint pattern transfer control unit controls the stamp imprint pattern transfer optical system unit in accordance with the stamp imprint pattern information captured by the information processing unit. Since the light of the frequency component is irradiated onto the resin stamp face member while scanning, the state of the portion corresponding to the stamp imprint pattern of the resin stamp member or the other part is changed, and the stamp imprint pattern is transferred to the stamp face member. A person other than a seal-making expert can easily create a desired seal in a short time.

[Brief description of drawings]

FIG. 1 is a block diagram showing an optical configuration unit for imprint transfer according to an embodiment.

FIG. 2 is a block diagram showing an electrical component of the embodiment.

FIG. 3 is a perspective view showing an external configuration example of an embodiment.

FIG. 4 is a flowchart illustrating a process of capturing seal imprint pattern information according to the embodiment.

FIG. 5 is a flowchart showing a process of transferring a stamp surface pattern to the stamp surface member of the embodiment.

[Explanation of symbols]

10 ... Input unit, 20 ... Control unit, 21 ... CPU, 22 ... R
OM, 23 ... RAM, 30 ... Output section, 40 ... Seal body,
42 ... Stamp face member, 42b ... UV curable resin layer, 50 ... UV irradiation laser light source, 52 ... Optical switch, 55 ... Polygon mirror.

 ─────────────────────────────────────────────────── ─── Continued front page (72) Kenji Watanabe 2-10-18 Higashi-Kanda, Chiyoda-ku, Tokyo Inside King Jim Co., Ltd. (72) Inventor Tomoyuki Ichikawa 2-10-18 Higashi-Kanda, Chiyoda-ku, Tokyo In stock company King Jim (72) Inventor Yuichiro Taniguchi 2-10-18 Higashi-Kanda, Chiyoda-ku, Tokyo In stock company King Jim (72) Inventor Chieko Aida 2-10-18 Higashi-Kanda, Chiyoda-ku, Tokyo Company King Jim

Claims (1)

[Claims] 1. An information processing means for taking in imprint pattern information and a portion where a light ray of a predetermined frequency component is received are in a different state from other portions, and either one of them is removed by an action with a predetermined fluid. A seal imprint pattern transfer optics capable of scanning and irradiating the resin stamp face member and the portion of the resin seal face member corresponding to the seal imprint pattern information or other parts with the light beam of the predetermined frequency component by scanning using an optical switch or a polygon mirror. A seal stamp creating apparatus comprising: a system unit; and a seal imprint pattern transfer control unit that controls the seal imprint pattern transfer optical system unit in accordance with the seal imprint pattern information captured by the information processing unit.