JP2012081723A - Original seal, and original seal manufacturing apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an original seal having superior authentication capability, capable of being preferably used as a registered seal or a bank seal even if the original seal is a self inking seal, and to provide an original seal manufacturing apparatus for manufacturing this seal.SOLUTION: The original seal has a seal surface formed with the handwriting signature or the photograph of his/her face. Since the handwriting signature by using a brush or the photograph of his/her face is one and only and therefore has high authentication capability, it is expected that this original seal is used as a registered seal or a bank seal even if the original seal is a self inking seal. The original seal manufacturing apparatus 1 includes: a block-copy manufacturing unit 2 for manufacturing a block-copy of the seal surface by reading the handwriting signature or the photograph of his/her face and conditioning this read image input data and a seal surface form; and a seal surface manufacturing tool 3 for working upon the seal surface of a seal material based on block-copy data from this block-copy manufacturing unit 2. Thus, the original seal manufacturing apparatus 1 can manufacture a precise engraved seal or a precise self inking seal.

Description

  The present invention relates to a stamp (including a stamp) which is a penetrating stamp or an engraved stamp, and a stamp manufacturing apparatus for manufacturing a stamp surface of the stamp.

  Conventional seals include engraving marks made by engraving non-porous stamps such as wood, rubber, metal, ceramics, glass, ivory, etc., and porous stamps such as various thermoplastic elastomers. A penetrating mark or the like produced by engraving or optically baking is known.

  Conventionally, the production of these stamps has been independent of the production process under the printing plate, the production process of the printing surface, and the assembly process, and each of them is complicated. Therefore, a block is made by a block making unit provided with an input unit, a display unit, a storage unit, and a processing unit, and a printing material is formed with a laser beam based on the block by a printing surface preparation unit comprising a control unit and a laser processing machine. There has been proposed a stamp manufacturing apparatus in which a stamp surface is manufactured by engraving and the stamp surface is incorporated into a holder (see, for example, Patent Document 1).

JP 2000-43391 A

Problems to be solved by the invention

  By the way, since the stamp creation apparatus described in Patent Document 1 can produce stamps one by one, a stamp dealer does not need to store a large amount of existing stamps and is expected to reduce the economic burden. The

  However, in recent years, there is a demand for having a stamp unique to itself and using it as a registered seal or a bank seal even though it is a penetrating seal.

  The present invention has been made in view of the above-described conventional situation, and provides an original stamp excellent in authenticity and an original stamp manufacturing apparatus for manufacturing the stamp.

Means for solving the problem

  As a result of various studies by the present inventor, it has been found that there is no need for two stamps with excellent authenticity, and that a handwritten signature is optimal. Even if the handwritten signature is made by the same person, it is difficult to obtain the same one and it is unique. In addition, it is considered that the face photograph is not anyone other than the person himself and has high authenticity.

  The present invention is an original stamp whose stamp face is formed by a handwritten signature or a facial photograph. The stamp surface may be a sculpture stamp made of a non-porous printed material and a handwritten signature or a face photograph formed by engraving. At that time, it is preferable that the handwritten signature or the face photograph is engraved with image electronic information with an accuracy of 300 dpi or more, and the imprint by this is clear without blank portions being crushed.

  The original stamp of the present invention may be one in which the material of the stamp face is a porous printed body and a handwritten signature or a face photograph is formed by engraving. In this case, the stamped surface is preferably a sculptured image of electronic information of a handwritten signature or a facial photograph with an accuracy of 300 dpi or more, and can be printed with a clear imprint without collapsing the blank portion.

  In addition, the original stamp of the present invention may be a porous printed material in which the material of the stamp surface is subjected to a light-sensitive treatment, and may be formed by optically printing a handwritten signature or a facial photograph. At that time, the stamp surface is preferably formed by printing image electronic information of a handwritten signature or a facial photograph with an accuracy of 300 dpi or more, and can be printed with a clear imprint without collapsing the blank portion.

  An original stamp producing apparatus for producing an original stamp of the present invention comprises a block making unit that reads a handwritten signature or a face photograph, adjusts the read image input data and a stamp form, and prepares a template of the stamp. A printing surface preparation means for processing a printing surface on a printing material on the basis of the data of the printing block from the printing material preparation means is provided. At that time, the stamp face preparation means may be either an NC controlled laser beam machine or an NC controlled electron beam machine, and can produce an accurate engraving mark or penetrating mark. In addition, an optical printing machine that produces a positive film based on the original data from the underlay preparation means, irradiates this positive film with a xenon flash, and prints a handwritten signature or a photograph of the face on the surface of the print, may be used. Can do.

The invention's effect

  The original stamp of the present invention is a stamp that is unique and excellent in authenticity because the stamp surface is created with a handwritten signature or a facial photograph. In particular, when a handwritten signature or a facial photograph is made of image electronic information with an accuracy of 300 dpi or higher, the reproducibility is high and a clear imprint that does not collapse the blank portion is obtained. As a result, it is expected that penetrating stamps may be adopted as seal registrations and bank stamps.

  The original stamp production apparatus of the present invention can produce a highly reproducible printing surface regardless of whether the printing surface production means is a laser processing machine, an electron beam processing machine, or an optical printing machine. The accuracy of the marking surface can be increased as the diameter of the laser beam of the laser beam machine and the beam diameter of the electron beam machine are smaller.

BRIEF DESCRIPTION OF THE DRAWINGS It is explanatory drawing of embodiment of the original stamp production apparatus of this invention, and shows the block diagram which illustrates notionally the whole structure. FIG. 5 is an explanatory diagram of an embodiment of the original stamp production apparatus of the present invention, and shows a flowchart for conceptually explaining an operation program.

  Hereinafter, embodiments of the present invention will be described with reference to FIGS. 1 and 2.

  In FIG. 1, reference numeral 1 denotes an original stamp production apparatus, which includes a platemaking production means 2 and a stamp surface production means 3. The block making unit 2 includes an input unit 4, a display unit 5, a storage device 6, and an arithmetic processing unit 7. The input unit 4 includes an optical reading unit such as a scanner that reads image data of a handwritten signature or a facial photograph, and a keyboard and a mouse that cause the arithmetic processing unit 7 to perform various commands. The display means 5 is a liquid crystal display device or the like that displays various data on the screen. The storage means 6 is composed of a hard disk device or the like, and stores a composition making program, graphic data, and composition data after composition. The arithmetic processing means 7 includes a microprocessor, a ROM, a RAM, and the like. The arithmetic processing means 7 reads a block program and executes it, processes input image data or develops it into an arbitrary layout, and displays various data. And display processing.

  The stamp surface preparation means 3 is a laser processing machine controlled by the NC control device, and engraves the stamp surface on the stamp material based on the block data created by the block preparation means 2. In addition, it may replace with a laser processing machine and may be an electron beam processing machine or a printing apparatus having a xenon lamp for irradiating a positive film.

  An example of the production of the block and the printing surface according to the present embodiment will be described below in accordance with the flowchart shown in FIG.

  An instruction to start the composition creation is given by the input means 4 such as a mouse (S1). The arithmetic processing means 7 reads the program stored in the storage means 6 and displays a stamp type selection screen on the display means 5 (S2). On the stamp type selection screen, a stamp surface shape such as square, rectangle, circle, ellipse, oval, etc., a stamp surface direction such as vertical writing and horizontal writing, and a printing size having predetermined conditions are selected and commanded with a mouse or the like (S3). . Based on the determined conditions, a predetermined stamp form is read from the storage means 6 and developed on the display means 5. At that time, a layout that has been patterned in advance so as to correspond to the stamp form is registered in the storage means 6, and when a stamp face shape, a stamp face direction, and a stamp face size are selected, several layouts conforming to the layout are selected as the stamp face. A layout selection screen is displayed so as to be expanded on the display means 5 and further selected on the display means 5 (S4).

  Next, a predetermined layout is selected from a plurality of layouts on the layout selection screen and commanded by the input means 4 such as a mouse (S5). The arithmetic processing means 7 displays a character input screen composed of a field for inputting characters and figures in accordance with the selected layout and a preview area for displaying a preview of the produced stamp face (S6).

Next, a handwritten signature or a face photograph as a seal face is input to each field by the input means 4 such as a keyboard (S7). The arithmetic processing means 7 develops a handwritten signature or a face photo in accordance with the layout selected previously, creates a stamp, and displays a preview of the stamp in the preview area (S8).

  Next, when adjusting / changing the character font, tally, etc., switch to the adjustment screen, specify the character bar line to be adjusted, change the character series, character aspect ratio, Directly specify with a mouse or the like and move it up, down, left, or right to adjust the appearance (S9). The preview is confirmed again, and if it is not necessary to readjust the stamp, the preparation of the block is completed (S10). In order to save the composition, a save command is input to determine the stamp, and at the same time, the composition is filed and stored in the storage means 6.

  After the preparation of the block is completed, the block data is supplied to the control device of the stamp surface creating means 3, and the laser beam machine is operated to create the stamp surface. Of course, after the prepared block is stored in the storage unit 6, the laser processing machine or the like may be operated by receiving the supply of block data from the storage unit 6.

  Next, examples and comparative examples of the original stamp of the present invention will be described below.

  The first comparative example is a case where image electronic information with a sign of “Hagiwara” is engraved with an accuracy of 75 dpi on a stamping material having a diameter of 10 mm. This engraving mark was engraved with a micro cutting tool controlled by NC. The imprint of the signature of “Hagiwara” by the old stamp, the stamp, and the ten-faced typeface was clear and the blank part was not crushed. The imprint of the signature of “Hagiwara” with a brush brush was obscured because the blank area was crushed, and the signature of “Hagiwara” was difficult to identify. Therefore, when engraving with an accuracy of 75 dpi, it is not possible to deal with free-format fonts such as the “Hagiwara” signature by brush, but it must be “Hagiwara” signatures by old stamps, seals, and fonts.

  The first embodiment is a case where image electronic information of a sign “Hagiwara” by a brush is engraved with a precision of 300 dpi on a stamping material having a diameter of 10 mm. This engraving mark was engraved with an NC-controlled laser beam machine. The imprint of the signature of “Hagiwara” with a brush was clear without losing the blank part, and the signature of “Hagiwara” could be sufficiently identified.

  The second embodiment is a case in which image electronic information of a sign “Hagiwara” by a brush is engraved with a precision of 600 dpi on a stamping material having a diameter of 10 mm. This engraving mark was engraved with an NC-controlled laser beam machine. The imprint of the sign of “Hagiwara” by the writing brush was clear without breaking the blank portion, and the sign of “Hagiwara” was better identified than the first embodiment.

  The third embodiment is a case in which image electronic information of a sign “Hagiwara” by a brush is engraved with a precision of 1,000 dpi on a stamping material having a diameter of 10 mm. This engraving mark was engraved with an NC-controlled laser beam machine. The imprint of the sign of “Hagiwara” by the writing brush was clear and the blank portion was not crushed, and the sign of “Hagiwara” was better identified than the third embodiment. It is more preferable to engrave image electronic information with an accuracy of 1,000 dpi or more.

  The second comparative example is a case in which image penetrating information having a diameter of 10 mm is produced with an accuracy of 75 dpi of a sign “Hiryu”. This penetration mark was produced by baking a positive film with a xenon flash. The imprint of the sign “Hiryu” by the old, stamp, and ten-faced typefaces was clear with no collapsed blanks. The imprint of the sign “Hiryu” with a writing brush was difficult to identify because the blank part was crushed and unclear. Therefore, when producing with an accuracy of 75 dpi, in order to identify an imprint, it is not possible to use a free-format font such as a sign called “Hiryu” by a brush, but “Hiryu” by an old stamp, a seal font, or a font. I have to sign.

  The fourth embodiment is a case in which image electronic information of a sign of “Hiryu” using a brush with a penetrating mark having a diameter of 10 mm is produced with an accuracy of 300 dpi. This penetration mark was produced by baking a positive film with a xenon flash. In the seal imprint using this penetrating seal, the blank part was not crushed and the sign “Hiryu” by the brush was fully discernable.

  The fifth embodiment is a case in which image electronic information of a sign of “Hiryu” with a brush with a penetrating mark having a diameter of 10 mm is produced with an accuracy of 600 dpi. This penetration mark was produced by baking a positive film with a xenon flash. In the seal imprint using this penetrating seal, the blank portion was not crushed and the sign “Hiryu” by the brush was better identified than in the fourth embodiment.

  The sixth embodiment is a case where image electronic information of a sign of “Hiryu” with a brush with a penetrating mark having a diameter of 10 mm is produced with an accuracy of 1,000 dpi. This penetration mark was produced by baking a positive film with a xenon flash. In the seal imprint using this penetrating seal, the blank portion was not crushed and the sign “Hiryu” by the brush was better identified than in the fifth example. Moreover, it is more preferable to produce image electronic information with an accuracy of 1,000 dpi or more.

  The third comparative example is a case where a penetrating mark having a diameter of 10 mm is produced with the image electronic information of Tadayuki Otani's face photograph with an accuracy of 75 dpi. This penetration mark was produced by baking a positive film with a xenon flash. In the imprint using this penetrating seal, the blank area was crushed and the face photo of Tadayuki Otani could not be identified.

  The seventh embodiment is a case where an infiltration mark having a diameter of 10 mm is produced with image electronic information of Tadayuki Otani's face photograph with an accuracy of 300 dpi. This penetration mark was produced by baking a positive film with a xenon flash. In the imprint using this penetrating seal, the blank area was not crushed and the face photo of Tadayuki Otani could be fully identified.

  The eighth embodiment is a case where an infiltration mark having a diameter of 10 mm is produced with an image electronic information of Tadayuki Otani's face photograph with an accuracy of 600 dpi. This penetration mark was produced by baking a positive film with a xenon flash. In the imprint using this penetration mark, the blank part was not crushed and the face photograph of Tadayuki Otani could be identified better than the seventh example.

  The ninth embodiment is a case where a penetrating mark having a diameter of 10 mm is produced with image digital information of Tadayuki Otani's face photograph with an accuracy of 1,000 dpi. This penetration mark was produced by baking a positive film with a xenon flash. In the imprint using this penetrating seal, the blank portion was not crushed and the face photograph of Tadayuki Otani could be identified better than in the eighth example. Moreover, it is more preferable to produce image electronic information with an accuracy of 1,000 dpi or more.

DESCRIPTION OF SYMBOLS 1 Original stamp production apparatus 2 Block preparation means 3 Stamp surface preparation means 4 Input means 5 Display means 6 Storage device 7 Arithmetic processing means

Claims (11)

An original stamp characterized in that the stamp surface is formed with a handwritten signature or a facial photograph. The original stamp according to claim 1, wherein the stamp surface is made of a non-porous printed material, and a handwritten signature or a face photograph is formed by engraving. 3. The original stamp according to claim 2, wherein the stamp surface is engraved with an accuracy of 300 dpi or more on image electronic information of a handwritten signature or a facial photograph. 2. The original stamp according to claim 1, wherein the stamp surface is made of a porous printed material, and a handwritten signature or a face photograph is formed by engraving. The original stamp according to claim 4, wherein the stamp surface is engraved with an image electronic information of a handwritten signature or a facial photograph with an accuracy of 300 dpi or more. 2. The original stamp according to claim 1, wherein the stamp surface is a porous printed material whose material is subjected to a light-sensitive treatment, and a handwritten signature or a face photograph is optically printed. 7. The original stamp according to claim 6, wherein the stamp surface is formed by printing image electronic information of a handwritten signature or a facial photograph with an accuracy of 300 dpi or more. 2. An original stamp making apparatus for producing an original stamp according to claim 1, wherein the original stamp making device reads a handwritten signature or a face photograph, and adjusts the read image input data and a stamp form to produce a stamp block. An original stamp producing apparatus comprising: a printing surface producing means for processing a printing surface on a printing material on the basis of block data from the printing plate producing means. 9. The original stamp manufacturing apparatus according to claim 8, wherein the stamp surface manufacturing means is an NC-controlled laser processing machine. 9. The original stamp manufacturing apparatus according to claim 8, wherein the stamp surface manufacturing means is an NC-controlled electron beam processing machine. 9. The printing surface producing means according to claim 8, wherein the printing surface producing means is an optical printing machine for producing a positive film based on the printing data from the plate making means and irradiating the positive film with a xenon flash to print a handwritten signature or a face photograph on the printing surface. Original stamp production equipment.

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