SEAL MANUFACTURING APPARATUS

Technical Field

This invention generally relates to a seal making device and more particularly to a seal making device, by which a person other than an expert and a professional can make a desired seal easily. In the instant specification, the term "seal making device" should be construed as including a relief or intaglio figure plate making device for making a plate, one or both of the front and back sides of which are engraved with relief or intaglio figures or patterns.

Background Art

Seals in a broad sense, which include a seal engraved with a person's surname or full name, a larger stamp engraved with a mark indicating an office to which individuals belong and a signet, are usually made by experts or professionals. Further, no matter whether such seals are hand-made or machine-made, each of them is usually made by selectively incising a part of the surface of one end of a cylindrical or plate-like body.

Incidentally, a seal is sometimes made by forming, for example, a mold of a resin, on a surface of which is engraved with a relief or intaglio figure projecting or hollowing in inverse relation to the unevenness of the intaglio or relief figure engraved on a surface of the seal, and thereafter injecting a fluid material such as rubber into the mold and then solidifying the fluid material to form an engraved member having substantially the same unevenness as such an intaglio figure.

However, there are many kinds of seals which corporations and individuals wish to have. For instance, a seal indicating an addressee to which letters are frequently mailed, a stamp indicating a title of account, and a seal which is given to a new employee, are often required by them. In case of requesting an expert or a professional to make such a seal, stamp or badge, money matters and the term of making a seal or the like sometimes come into problem.

Further, recently, relief or intaglio figures are sometimes formed on the surfaces of, for example, a door-plate mounted on a door of a person's private room, a plate put up at an entrance of a building and a decoration worn on a person's chest, similarly as in the aforesaid cases of the seals or the like. In such cases, similar matters and problems often occur.

Therefore, there is a demand for a person other than an expert and a professional to make a desired seal or the like easily. Previously, a seal making device (strictly speaking, a seal making kit), by which a person other than an expert and a professional can make a seal, has been on the market.

U.S. Patent No. 4,714,957 discloses: (1) an apparatus for making a stamp, comprising image data outputting means composed of a liquid crystal TV circuit and an image data processing circuit, a photosensitive resin layer, a light source emitting photoactive light rays and being disposed oppositely to the photosensitive resin layer, a liquid crystal display panel disposed between the light source and the photosensitive resin layer, and a projection lens placed between the liquid crystal display panel and the photosensitive resin layer; (2) an apparatus for making a stamp, comprising a photosensitive resin layer formed on a substrate, means for producing an imprint figure to be formed on the photosensitive resin layer, and means for writing the imprint figure on the photosensitive resin layer by irradiating the photosensitive resin layer with photoactive light rays; and (3) an apparatus for making a stamp, comprising a photosensitive resin intended to form a stamp, means for making an exposure film to be used in making a stamp, and exposure means for irradiating photoactive light rays on the photosensitive resin through the exposure film.

Japanese Patent Application Laying-open No. sho 62-54254 discloses a method for making a relief, comprising the steps of applying a water-soluble photosensitive resin onto a substrate, drying the applied photosensitive resin layer, performing recording with an ink onto the dried photosensitive resin layer, and thereafter setting a part of the photosensitive resin layer other than a part of the photosensitive resin layer, recorded with the ink, by irradiating radiant rays on the photosensitive resin layer.

Japanese Patent Application Laying-open No. Hei 2-179783 discloses a method for making a seal, comprising the steps of exposing a photosensitive resin while using a heat transferring medium, which has been used for performing printing onto a substance to be transferred and comprises a transparent film covered with a heat transferring ink, as a negative, and removing an unexposed portion of the photosensitive resin.

This conventional seal making device (not shown) employs a film of the ultraviolet sensitive type, an ultraviolet irradiating unit, a planar ultraviolet setting resin member and a stock. Further, a seal is made by using this conventional seal making device as will be described later. Incidentally, the ultraviolet irradiating unit comprises a casing in which an ultraviolet fluorescent lamp is provided, a timer by which a user sets a time to light the ultraviolet lamp, a transparent plate mounted on the top surface of the casing and transmitting ultraviolet light, and an openable lid for preventing the transmitted ultraviolet light from coming out of the transparent plate. Furthermore, the ultraviolet setting resin member comprises a base layer, which is not sensitive to ultraviolet light, and an ultraviolet setting resin layer. Incidentally, the base layer is thinner than the ultraviolet setting resin layer.

In the case of making a seal by using this conventional seal making device, first, characters or patterns (hereunder referred to as an imprint figure), which should be transferred onto paper if the seal is completed and the completed seal is impressed thereon, are drafted on ultraviolet transmittible paper such as tracing paper and thus an original picture of the imprint figure is drawn up.

Thereafter, the original picture and the film of the ultraviolet sensitive type are piled up on the transparent plate of the ultraviolet irradiating unit. Then, the lid is closed. Further, a time for irradiating ultraviolet light is set according to the quality of paper, on which the original picture is drafted, by using the timer. Subsequently, ultraviolet light is irradiated from the ultraviolet lamp onto the film for the set time. The film exposed in this manner is then washed by predetermined kind of liquid (in the case of the device being on the market, this liquid is water) so as to obtain a negative film on which the imprint figure is reversed. Namely, on this negative film, the dark tone portions of the imprint figure appear transparent to ultraviolet light and the remaining portions thereof appear brown (namely, the color obtained as the result of ultraviolet absorption).

Next, this negative film and the ultraviolet setting resin member are piled up on the transparent plate of the ultraviolet irradiating unit. Then, the lid is closed and ultraviolet light is irradiated from the ultraviolet lamp onto the film for a predetermined time. This results in that portions (corresponding to the dark tone portions of the imprint figure), on which the ultraviolet light is irradiated, of the ultraviolet setting resin member are hardened. In contrast, the remaining portions of the ultraviolet setting resin member do not become hard. Upon completion of such a setting processing, the ultraviolet setting resin member is washed by the predetermined kind of liquid (in the case of the device being on the market, this liquid is water) to remove the portions thereof, which do not become hard. Thereby, the engraved member, in which the hardened portions (corresponding to the imprint figure) of the ultraviolet setting resin layer project from the base layers of the remaining portions of the ultraviolet setting resin member, is completed. Subsequently, the fixation of the engraved member completed in this way is performed by further irradiating ultraviolet light thereon.

Then, this engraved member is fitted to the stock. Thus the seal is completed.

This conventional seal making device, however, has drawbacks in that a maker should perform a very large number of operations which include the operation of making an original picture and that thus the efficiency is low and the time required for making a seal is long.

These drawbacks are mainly due to the fact that although information on an imprint figure is included in an original picture, this information can not be utilized directly for making the engraved member, namely, a negative film should be made as an intermediate product.

Further, excepting a case that an original picture is made by handwriting an imprint figure intentionally, when the original picture is made by using a predetermined typestyle or typeface, a maker comes to use what is called a word processor or the like. Moreover, it becomes necessary to copy the imprint figure made by the word processor onto ultraviolet transmittible paper by using an electronic copying machine or the like. Thus, the operation of making an original picture requires much time and trouble.

Additionally, it is also necessary to set an ultraviolet irradiating time according to the thickness of ultraviolet transmittible paper and the dark tone of a draft of the original picture. This operation requires skill to some extent.

The present invention is accomplished in the light of the aforesaid problems of the conventional seal making device. It is, accordingly, an object of the present invention to provide a seal making device by which a person other than a specialist in making a seal can make a desired seal easily in a short time.

Disclosure of Invention

The aforesaid object of the present invention is achieved by an apparatus for making a seal according to claim 1.

The imprint figure information generating unit generates an imprint figure information signal representing a relief or intaglio figure used as a source of the imprint figure by, for example, reading an image of the relief or intaglio figure. Then, the imprint figure transfer controlling unit gives physical stimulation such as ultraviolet light to the resin layer. This results in change of the characteristics of a portion of the resin layer having suffered the physical stimulation. Thereafter, one of a portion of the resin layer having suffered the physical stimulation, and another portion thereof having suffered no physical stimulation is removed by the physical or chemical action of washing. As a consequence, the relief or intaglio figure is formed on the surface of the resin member in accordance with the imprint figure information.

Therefore, in the case of the device of the present invention, it is not necessary to make an intermediate product such as a negative film. Thus a seal can be made easily and quickly.

Brief Description of Drawings

FIG. 1 is a block diagram for illustrating the configuration of an optical system for transferring an imprint of an embodiment of the present invention. FIG. 2 is a block diagram for illustrating the configuration of an electrical system of the embodiment of the present invention. FIG. 3 is a perspective view of the appearance of a seal making device in the case of the embodiments of the present invention. FIG. 4 is a flowchart for illustrating an imprint-figure-information input operation of the embodiment of the present invention. FIG. 5 is a flowchart for illustrating a process of transferring an imprint figure to the resin member of the embodiment of the present invention. FIG. 6 is a schematic sectional view of the light source of the embodiment of the present invention. FIG. 7 is a schematic sectional view of a modification of the light source of the embodiment of the present invention. FIG. 8 is a perspective view of a stamp made by the embodiment of the present invention. FIG. 9 is a perspective view of an example of a door plate or a badge indicating a company, which is made by the embodiment of the present invention. FIG. 10 is a perspective view of a name plate made by the embodiment of the present invention.

Best Mode for Carrying Out the Invention

Hereinafter, a seal making device according to the present invention will be described in detail by referring to the accompanying drawings.

This seal making device embodying the present invention comprises a main body 40 of a seal and a seal making unit 45. Further, the seal making unit is primarily comprised of an electrical system of FIG. 2 (which further comprises an information processing portion and an imprint transfer controlling portion) and an optical system for transferring an imprint, which is shown in FIG. 1. Incidentally, FIG. 1 also shows the structure of the main body 40 of a seal. Moreover, FIG. 3 is a perspective view of the appearance of this seal making device embodying the present invention. FIGS. 4 and 5 are flowcharts for illustrating fundamental processes for making a seal.

First, the electrical system of this embodiment of the present invention will be described hereinbelow by referring to FIG. 2.

This electrical system is mainly used to input imprint figure information and control the optical system for transferring an imprint and corresponds to a kind of an information processing system. Further, similarly as in the cases of other general purpose electronic information processing systems, this electrical system primarily comprises an input portion 10, a control portion 20 and an output portion 30. The control portion 20 performs a processing according to information input from the input portion 10 and a current processing stage or the like and controls the optical system for transferring an imprint, through the output portion 30 according to a result of the processing.

The input portion 10 comprises a keying input portion 11 which is provided with depressing keys, dialing keys or the like, an image reading portion 12 and a kind-of-seal detecting sensor 13. The keying input portion 11 is operative to generate character code data and various control data to be given to the control portion 20. Further, the image reading portion 12 is operative to read a draft and give image data to the control portion 20. Moreover, the kind-of-seal detecting sensor 13 is operative to detect a kind of the seal loaded into the device and give kind-of-seal information to the control portion 20. For example, each of the main body of the seal and a jig for loading thereof has a physical identification element such as a hole prescribing a kind of the seal. The kind-of-seal detecting sensor 13 reads the physical element and outputs the kind-of-seal information. Incidentally, the kind-of-seal sensor 13 may be omitted.

The output portion 30 is comprised of a drive circuit 31 for driving an ultraviolet irradiating light source 50 (to be described later), another drive circuit 32 for driving a liquid crystal panel portion 51 for transferring an imprint (to be described later) and a further drive circuit 33 for driving a display liquid crystal unit 34. Each of the drive circuits 31, 32 and 33 drives the corresponding portion or unit under the control of the control portion 20. Further, the display liquid crystal unit 34 corresponds to a display unit of an information processing system and is used to display a guidance message for a maker of a seal, imprint figure information or the like.

Incidentally, the ultraviolet irradiating light source 50, the liquid crystal panel 51 for transferring an imprint and drive control portions therefor will be described later (see FIG. 1).

The control portion 20 is comprised of, for example, a microcomputer, in which a CPU 21, a ROM 22, a RAM 23, a character generator ROM (hereunder abbreviated as a CG-ROM) 24, an input portion interface 25 and an output portion interface 26 are connected with one anther through a system bus 27.

In the ROM 22, there are stored various processing programs (see FIGS. 4 and 5) for making a seal, which should be executed by the CPU 21, a conversion table used for converting keyed code data into corresponding character codes and fixed data such as dictionary data used for kana-kanji conversion (for instance, converting a "kana" -code to a "kanji"-code) in the case of effecting Japanese word processing.

Further, the RAM 23 is used by the CPU 21 as a working memory, in which user input fixed data is stored.

Moreover, the CG-ROM 24 stores data representing dot-patterns of characters and symbols, which are prepared in the seal making unit. When inputting code data specifying a character or a symbol, the CG-ROM 24 outputs data representing a dot-pattern corresponding to the specified character or symbol. Incidentally, a CG-ROM for displaying data and another CG-ROM for transferring an imprint may be provided separately from each other.

Furthermore, the input portion interface 25 interfaces the input portion 10 with the control portion 20. On the other hand, the output portion interface 26 interfaces the output portion 30 with the control portion 20.

Additionally, the CPU 21 executes a processing program, which is determined according to an input signal issued from the input portion 10 and to a current stage of a processing, by utilizing the RAM 23 as a working storage area and, if necessary, properly using the fixed data stored in the ROM 22 or the RAM 23. Further, the CPU 21 causes the display liquid crystal unit 34 to display a processing situation and a result of the processing. Moreover, the CPU 21 drives the ultraviolet irradiating light source 50 and the liquid crystal panel portion 51 for transferring an imprint to make a seal.

Next, the configurations of the optical system and the main body of a seal will be described hereinbelow by referring to FIG. 1.

The main body 40 of the seal is comprised of a cylindrical stock 41 (which may be made of material other than wood), a sponge member which is mounted on an end portion of this stock 41 and is made of elastic material such as sponge or rubber suitable for absorbing a pressure and a resisting force when stamping paper with a seal and for making a convex portion of a seal face member get to fit well with the surface of paper and the seal face member 42 having a plate-like shape and provided on the surface of this sponge member 43. The seal face member 42 is comprised of a base layer 42a, which is insensitive to ultraviolet light, and an ultraviolet light setting resin layer 42b which is exposed to ultraviolet light. The thickness of the ultraviolet setting resin layer 42b is set to be equal to the height of a projection (namely, the convex portion) of the seal face member, to which seal or stamp ink adheres.

The main body 40 of the seal is detachably mounted on the seal making unit 45 by a fixture mechanism (not shown). Further, the main body 40 of the seal having, for example, a rectangular section is mounted thereon such that a corner of the rectangle is coincident with a reference point of an orthogonal coordinate system. Furthermore, the main body 40 of the seal having a circular or ellipsoidal section is loaded by way of a fixture jig into the seal making unit 45, similarly as in the case of the main body 40 of the seal having a rectangular section. Incidentally, it is preferable that when the main body of the seal is loaded thereinto, ultraviolet light is prevented from coming through the device.

The optical system for transmitting an imprint is comprised of the ultraviolet irradiating light source 50, the liquid panel portion 51 for transferring an imprint, which can control the transmission of ultraviolet and an objective lens 52 (which is often implemented by a complex or compound lens), and the source 50, the panel portion 51 and the lens 52 are arranged in this order. Further, the ultraviolet setting resin layer 42b is an object to be irradiated. Incidentally, a diffusing plate may be provided between the light source 50 and the main body 40 of the seal, with the intention of uniforming the light rays.

The ultraviolet irradiating light source (for example, a fluorescent lamp) 50 performs light emission only for a period of time when an on-command is given by the light source drive circuit 31 thereto. This period of time for light emission is set to be a time enough for causing a setting in the ultraviolet setting resin layer 42b. Incidentally, the ultraviolet irradiating light source 50 may be turned on or off by using an on-off switch or the like. Namely, the turning-on or turning-off of the ultraviolet irradiating light source 50 may be controlled by the CPU 21.

The on-state and off-state of each of cells placed in a two-dimensional arrangement are established by the liquid crystal panel drive circuit 32 under the control of the control portion 20. Each cell set in an on-state transmits ultraviolet light emitted from the light source 50. In contrast, each cell set in an off-state prevents the transmission of the ultraviolet light emitted by the light source 50. Here, the turning-on and turning-off of each cell are effected such that an image represented by the cells becomes similar to the imprint figure, as will be explained later in the description of an operation of the device. Thus, an ultraviolet image transmitted by the liquid crystal panel portion 51 for transferring an imprint becomes an image of the imprint figure.

Incidentally, a liquid crystal panel is, generally, used in a display device and transmits visible light. However, there is a liquid crystal panel of the type that uses an ultraviolet region as a transmission region. The liquid crystal panel of such a type may be applied by itself or together with an ultraviolet transmitting filter to the liquid crystal panel portion 51 for transferring an imprint.

The objective lens 52 is used to form an ultraviolet image of the imprint figure on the ultraviolet setting resin layer 42b. Further, it is preferable that the focal plane of the objective lens 52 is slightly shifted from the surface of the ultraviolet setting resin layer 42b. If the focal plane of the objective lens 52 exactly coincides with the surface of the ultraviolet setting resin layer 42b, the contour of the imprint figure becomes rugged upon arranging the cells of the liquid crystal panel portion 51 for transferring an imprint. However, bundles of light emitted from the cells slightly overlap with one another if the focal plane of the objective lens 52 is shifted slightly from the surface of the ultraviolet setting resin layer 42b. Thereby, the contour of the imprint figure can be prevented from becoming notched.

Similarly as in the case of the conventional device, portions other than a set or hardened portion of the ultraviolet setting resin layer 42b can be removed therefrom by using a predetermined kind of liquid (for example, water (incidentally, some kind of gas may be used instead of liquid)).

The seal making device having the electrical system of FIG. 2 and the optical system of FIG. 1 present an appearance as illustrated in, for instance, FIG. 3. In the case of the appearance of FIG. 3, the keying input portion 11, the display liquid crystal unit 34 and a fixture mechanism 55 for the main body 40 of the seal are placed at appropriate positions on a console panel, respectively. Further, the image reading portion 12 is connected to a main body 56 of the seal making unit.

Next, an example of an operation of reading the imprint figure information to be performed mainly by the CPU 21 will be described hereunder by referring to FIG. 4.

When it is ordered by the keying input portion 11 that an operation of reading the imprint figure information should be performed, the CPU 21 starts executing a program which is stored in the ROM 22 and is used for performing the operation of reading the imprint figure information as illustrated in FIG. 4. First, the CPU 21 causes the display liquid crystal unit 34 to display kind-of-seal information and reads the kind-of-seal information selected by a maker of a seal or an operator through the keying input portion 11 (step 100). Here, it is supposed that kinds of seals are defined on the basis of the shape of the face of the seal (for example, a rectangle, a circle and an ellipsoid) and the size of the face of the seal (for instance, a large size, a middle size and a small size) and that the kinds of seals to be handled by this seal making device are predetermined.

Next, the CPU 21 causes the display liquid crystal unit 34 to display a message inquiring which of a keying input method and an image input method the maker chooses. Then, the CPU 21 reads information on the input method selected by the maker from the keying input portion 11 and identifies the selected input method (step 101).

Here, if the image input method is selected, the CPU 21 causes the display liquid crystal unit 34 to display a message requesting the maker to set a draft in the image reading portion 12 and subsequently activate the image reading portion 12. Thereafter, the CPU 21 takes in image data read by the image reading portion 12 (step 102). Subsequently, the CPU 21 instructs the display liquid crystal unit 34 to display the read image and the contour of the face of a seal of the indicated kind while superposing the read image on the contour of the face. Further, the CPU 21 requests the maker to specify a portion of the read image to be used as an imprint figure. Then, the CPU 21 takes in data representing the indicated part to be used as the imprint figure. Moreover, the CPU 21 instructs the display liquid crystal unit 34 to display that part as an imprint figure image. Then, an operation of inputting the imprint figure information is terminated (step 103).

For example, when the maker manipulates a cursor key, the image of the contour of the face corresponding to the indicated kind of a seal is move to the direction indicated by the cursor key. When manipulating a defined key, a part of the read image surrounded by the displayed contour of the face of the seal at that time is input as an indicated imprint figure.

In contrast, in a case where the keying input method is identified as an selected method for inputting the imprint figure information, the CPU 21 causes the display liquid crystal unit 34 to display a message requesting the maker to specify attribute information representing the attributes of the imprint figure and thereafter takes in the specified attribute information of the imprint figure (step 104). Further, the information representing the attributes of the imprint figure includes, for example, information concerning whether or not the imprint is surrounded by a frame, information regarding which of column writing and horizontal writing should be used, information representing the number of lines, information representing the (absolute or relative) size of each character, information indicating which of what is called a negative engraving (corresponding to a reverse display) and what is called a positive engraving (corresponding to a non-reverse display) should be employed, information representing a typeface, information concerning whether or not the imprint figure should be intentionally made to be blurred as a whole, and information indicating the size of the contour of the imprint figure portion. The CPU 21 takes in these kinds of information as the attribute information. However, some attributes can not be designated due to constraints on, for example, the size of a designated seal. For instance, in the case of a small seal, a multi-line pattern is inhibited.

Thereafter, the CPU 21 prompts the maker with an indication displayed by the display liquid crystal unit 34 to input character information. Further, the character information inputted through the keying taken portion 11 is taken by the CPU 21 by performing a processing similar to that performed in an information processing system such as a word processor (step 105). Incidentally, the indication displayed in this input processing is not a representation like an imprint figure image. Further, when the termination of the inputting of the character information is directed, the CPU 21 performs a conversion processing on the input character information according to the indicated various attributes and subsequently, the CPU 21 instructs the display liquid crystal unit 34 to display the converted information as an imprint figure image in order to permit the maker to verify the imprint figure image. Then, the operation of inputting the imprint figure information is finished (step 106). Incidentally, the indication of the input characters may be changed to the indication of the imprint figure image of characters having been input until then and vice versa in response to the keying operation effected by the user.

When finishing the operation of inputting the imprint figure information, the maker of the seal may initiate an operation of transferring the imprint figure to the seal face member 42 immediately. Alternatively, the imprint figure may be once stored in the RAM 23 (or an external storage device).

For example, even in a situation that the imprint figure image is displayed on the screen of the display liquid crystal unit 34 (incidentally, such a situation includes a case that the imprint figure image stored in a storage device is read therefrom and displayed on the screen), the maker can instruct a transfer of the imprint figure onto the seal face member 42 by using the keying input portion 11. At that time, the CPU 21 can start executing a transfer processing program of FIG. 5, which is stored in the ROM 22, for transferring the imprint figure onto the seal face member 42.

The, first, the CPU 21 receives information delivered from the kind-of-seal detecting sensor 13 to verify whether or not the main body 40 of the seal is loaded into the seal making unit 45 and whether or not the kind of the main body 40 of the seal loaded into the unit 45 is matched with the indicated kind of the seal (step 200).

At that time, if it is detected that no seal is loaded into the unit 45 or that an erroneous kind of a seal is loaded thereinto, the CPU 21 performs an error processing, namely, the CPU 21 instructs the display liquid crystal unit 34 to display a message requesting the loading of a correct kind of a seal or the replacement of the main body 40 of the seal (step 201).

In contrast, if the validity of the main body 40 of the seal loaded into the unit is affirmed, the turning-on or turning-off of each of the cells of the liquid crystal panel portion 51 is established according to the imprint figure which is a current object to be transferred (step 202). In the case of this embodiment, each of the cells respectively corresponding to portions of the imprint figure are set to be in an on-state and in contrast, each of the cells corresponding to the background of the imprint figure are set to be in an off-state. Thereafter, the CPU 21 causes the ultraviolet irradiating light source 50 to emit light for a predetermined period of time (step 203). Further, when the predetermined period of time has elapsed, the CPU 21 instructs the display liquid crystal unit 34 to display messages indicating that the irradiation of the ultraviolet light is finished and that the ultraviolet setting resin layer 42b of the main body 40 of the seal should be washed by the predetermined kind of liquid (or water) and finishes the operation of transferring the imprint figure, which comprises the sequence of the steps (step 204).

Upon completion of the transfer processing (namely, the setting processing), the maker washes the ultraviolet setting resin layer 42b by using the predetermined kind of liquid. Thereby, portions of the layer 42b other than the hardened portions thereof are removed therefrom. As the result, convex and concave portions composing the relief or intaglio imprint figure are formed. Thus the seal is completed.

Incidentally, it is preferable that after the washing of the ultraviolet setting resin layer by using the predetermined kind of liquid, the main body 40 of the seal is once again loaded into the seal making unit 45 and further ultraviolet light is irradiated again onto the main body 40 thereof to ensure the hardening of the setting resin layer. In such a case, each of the cells of the liquid crystal panel portion 51 is put into an open state.

FIGS. 8 to 10 illustrate examples of a seal, a door plate and a name plate made by this seal making device (namely, the first embodiment of the present invention), respectively.

FIG. 8 illustrates the example of the seal (or stamp). As shown in this figure, the seal face member 42, on the surface of which an alphabetical relief pattern "A & B" is formed, is fixed through the sponge member 43 to the stock having an ellipsoidal section.

FIG. 9 illustrates the example of the door plate or badge indicating a company, which is not required to have elasticity unlike the stamp. Thus, the seal face member 42, on which the alphabetical relief pattern is formed, is directly fixed to the stock 41. Incidentally, in the case of a room number plate fixed perpendicularly onto the frame of a door facing a passage, the relief figure as shown in FIG. 9 is formed on each of the front and back surfaces of the door.

FIG. 10 illustrates the example of the name plate which does not need to have elasticity. Thus, the seal face member 42, on which the alphabetical relief pattern is formed, is directly fixed to the stock 41.

Incidentally, in the cases of the door plate or badge of FIG. 9 and the name plate of FIG. 10, it is preferable for increasing the visual discriminability thereof that the color of the ultraviolet setting resin layer 42b is made to be different from the color of the base layer 42a and the stock (or base plate) 41.

As described above, in the case of this embodiment, an operation of making a negative film is unnecessary unlike the conventional device. Moreover, information corresponding to an original picture can be easily created by using the keying input portion 11 or the like. Therefore, a person other than a specialist in making a seal can make a desired seal (or relief or intaglio figure plates such as a door plate, a badge indicating a company and a name plate) easily and quickly. Incidentally, even in the case of using the conventional seal making device, an original picture can be made by a word processor or the like. However, in such a case, for instance, an operation of copying the original picture onto tracing paper is necessary. In this respect, in the case of using the conventional device, more operations are needed as compared with a case of using this embodiment of the present invention.

Further, FIGS. 3 and 4 illustrate a fundamental process flow. This embodiment, however, has an information processing system. Therefore, on the middle of the fundamental process, the main body of the seal (thus, the size of the imprint) and the attributes of the imprint can be easily changed. For the similar reason, if the imprint figure information is once input, this embodiment can make or obtain various seals which are different in size from one another but have similar imprints.

Further, in the case of the aforementioned embodiment of the present invention, the hardened portions of the ultraviolet setting resin layer 42b, namely, the portions of the resin layer 42b left after the washing thereof by the predetermined kind of liquid are used as convex portions composing the relief or intaglio imprint figure. Therefore, when each of the cells of the liquid crystal panel portions 51 is turned on or off, no conversion of the input imprint figure information is required. Namely, it is not necessary to perform a character inverting processing (namely, a character mirroring processing). Thus, the burden of the information processing system of this embodiment is small.

• (1) The objective lens 52 may be composed of a zoom lens. Further, the expansion and reduction of the imprint may be performed by utilizing the function of the zoom lens. In this case, a drive system for moving a part of the zoom lens becomes necessary. Incidentally, in the case of performing the expansion and reduction of the imprint figure by using such an optical system, a smoothing of the contour of the imprint figure can be achieved far better than in a case where the expansion and reduction thereof is effected by performing an information processing on a bit map. Furthermore, a processing time can be reduced, in comparison with a case where the expansion and reduction thereof is effected by performing an information processing on a line map. Moreover, the magnification factor can be set freely.
• (2) A composing element for carrying out a step of washing the Setting resin layer 42b by using the predetermined kind of fluid may be provided in the seal making unit 45. For example, the main body 40 of the seal, the setting processing (namely, the imprint transferring processing) of which is completed, may be moved in such a fashion that an end portion thereof is dipped into the predetermined kind of liquid, thereby automatically removing portions other than the hardened portions thereof.
• (3) Only the seal face member 42 separated from the stock 41 may be loaded into the seal making unit 45 and thereafter the hardening of the ultraviolet setting resin layer 42b may be performed. In this case, it is preferable to dispose an adhesive layer, which is usually covered by released paper, on one of the stock 41 and the seal face member 42, whereby the adhesion between the stock 41 and the seal face member 42 is facilitated.
• (4) Information processing system put on sale may be employed as a part of composing elements of the device of the present invention. For example, a word processor, a personal computer and a tape printer may be employed as an information processing part of the device other than the optical system thereof for transferring the imprint. Further, information on the turning-on and turning-off of each of the cells of the liquid crystal panel portion 52 may given from the information processing part through cables thereto.
• (5) The display liquid crystal unit 34 and the liquid crystal panel portion 51 may be implemented by using a single liquid crystal device.
  
  

  For example, as illustrated in FIG. 6, a device capable of transmitting ultraviolet and visible light is employed as the liquid crystal unit 51. Moreover, an ultraviolet irradiating light source 501 having a parabolic mirror and an visible light irradiating light source 502 is disposed in the device separately from each other. Furthermore, when serving as a display unit, a back-lighting of the liquid crystal unit 51 (34) is performed by a swinging mirror 503 using visible light which is irradiated from the visible light irradiating light source 502. When transferring the imprint, a back-lighting of the liquid crystal unit 51 is performed by using ultraviolet light which is irradiated from the ultraviolet irradiating light source 501. Alternatively, as illustrated in FIG. 7, a device capable of transmitting ultraviolet and visible light is employed as the liquid crystal unit 51 (34). Moreover, an ultraviolet irradiating light source 501 and a visible light irradiating light source 502, which have a parabolic mirror 504 in common, is provided in the device. Furthermore, when serving as a display unit, a back-lighting of the liquid crystal unit 51 is performed by a swinging mirror 505 using visible light which is irradiated from the visible light irradiating light source 502 and further reflected by the mirror 505. When transferring the imprint, a back-lighting of the liquid crystal unit 51 (34) is performed by using ultraviolet light which is irradiated from the ultraviolet irradiating light source 501 and further reflected by the mirror 505.

• (6) Only one of the image reading or input method and the keying input method may be employed as a method for inputting the imprint figure. For example, in the case of the seal making device which employs only the image reading method, image information read by the image reading portion may be given to the liquid crystal panel portion without any change.

In the foregoing description, seal making devices have been mainly described. However, the characteristic features of such devices can be directly applied to a relief or intaglio figure plate making device for making a relief or intaglio figure plate in which convex and concave portions representing a figure such as a character are formed on the surface of a plate-like substrate such as a name plate and a door plate. Therefore, as previously stated, in the instant specification, the term "seal making device" should be construed as including a relief or intaglio figure plate making device for making a plate, one or both of the front and back sides of which are engraved with relief or intaglio figures or patterns. Thus, the term "seal making device" recited in claims represents a concept including a relief or intaglio figure plate making device. Additionally, in the foregoing description, the terms "seal" and "stamp" are used. However, in a case where an object engraved with a relief or intaglio figure is a relief or intaglio figure plate, these terms should be construed as portions of the relief or intaglio figure plate, which portions correspond to a relief or intaglio figure.

Industrial Applicability

As described above, the seal making device according to the present invention is suitable for easily and quickly making a desired relief or intaglio figure plate such as a seal or stamp, a name plate and a door plate, regardless of whether the relief or intaglio figure plate is for business use or for private use, and independent of the size and shape of the relief or intaglio figure.