WO1990014299A1 - Applicateur de film de transfert - Google Patents

Applicateur de film de transfert Download PDF

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Publication number
WO1990014299A1
WO1990014299A1 PCT/JP1990/000634 JP9000634W WO9014299A1 WO 1990014299 A1 WO1990014299 A1 WO 1990014299A1 JP 9000634 W JP9000634 W JP 9000634W WO 9014299 A1 WO9014299 A1 WO 9014299A1
Authority
WO
WIPO (PCT)
Prior art keywords
transfer
film
tape
reel
transferred
Prior art date
Application number
PCT/JP1990/000634
Other languages
English (en)
Japanese (ja)
Inventor
Takumi Murasaki
Yoshio Matsuoka
Masato Kuroda
Masanori Honda
Original Assignee
Fujikagakushi Kogyo Kabushiki Kaisha
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Fujikagakushi Kogyo Kabushiki Kaisha filed Critical Fujikagakushi Kogyo Kabushiki Kaisha
Priority to KR1019910700074A priority Critical patent/KR920701028A/ko
Publication of WO1990014299A1 publication Critical patent/WO1990014299A1/fr

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H37/00Article or web delivery apparatus incorporating devices for performing specified auxiliary operations
    • B65H37/002Web delivery apparatus, the web serving as support for articles, material or another web
    • B65H37/005Hand-held apparatus
    • B65H37/007Applicators for applying coatings, e.g. correction, colour or adhesive coatings
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H35/00Delivering articles from cutting or line-perforating machines; Article or web delivery apparatus incorporating cutting or line-perforating devices, e.g. adhesive tape dispensers
    • B65H35/04Delivering articles from cutting or line-perforating machines; Article or web delivery apparatus incorporating cutting or line-perforating devices, e.g. adhesive tape dispensers from or with transverse cutters or perforators
    • B65H35/06Delivering articles from cutting or line-perforating machines; Article or web delivery apparatus incorporating cutting or line-perforating devices, e.g. adhesive tape dispensers from or with transverse cutters or perforators from or with blade, e.g. shear-blade, cutters or perforators

Definitions

  • the present invention relates to a transfer film transfer device, and more specifically, it is intended to easily erase characters and images, and to easily attach characters and images, and contains a pigment and a binder.
  • Coating film transfer used to transfer a coating film in which an agent, a dispersing agent, etc. are appropriately blended and the shape is maintained in a film form to a surface to be transferred.
  • a film-like glue film is transferred to the transfer surface of one paper. It relates to a transfer film transfer tool such as a glue film transfer tool used for printing.
  • the present invention has been created by paying attention to such circumstances, and is capable of solving the above-mentioned problems and providing a used tape to a take-up reel. It is an object of the present invention to provide a transfer film transfer tool that can also be used to roll off a tape.
  • the characteristic structure of the transfer film transfer tool according to the present invention is that the transfer film capable of being transferred to the surface to be transferred is shaped into a film by pressurization or heating. Winding of the held tape before delivery Flexible delivery reel and free winding and removal of the delivered tape A winding reel and
  • the transfer film is easily and surely transferred to the transfer surface by bringing the transfer film into contact with the transfer surface. It becomes possible to take pictures.
  • the structure can be made into a cylinder, it can be made inexpensive.
  • the winding speed of the tape by the winding reel is always constant.
  • the speed is set to be equal to or higher than the feeding speed of the tape by the feeding reel,
  • the speed difference between the two speeds is absorbed by utilizing the slip generated on the peripheral surface of the rolling element, which is the frictional contact portion. It is preferable to have
  • the take-up speed is always the same as the feeding speed, depending on the diameter ratio of the two reels or the form of the friction transmission means. Since the speed is set to be higher than the delivery speed, the tape delivered from the delivery reel does not loosen after being used. It will be wound up on the winding reel.
  • the speed difference between the two speeds is absorbed by using the burr, the speed difference is absorbed by the delivery reel. Even if the amount of the stored tape and the position of the tape wound on the take-up reel change according to the usage of the tape, Said velocity difference is phased based on absorption using said slippage. be killed.
  • the driving portion of the transfer film transfer tool has the friction transmission means as a main element, has a cylindrical structure, and has a small number of parts.
  • the tape since the tape is wound around the winding reel without slack after being used, it can be reliably wound. becomes. Also, since the velocity difference is canceled based on the absorption using the beam, the used tape is less likely to break, for example. This eliminates the problem and ensures that the material is wound onto the winding reel and processed. Moreover, since the main part of the transfer film transfer tool has a simple structure and a small number of parts, the cost of the transfer sleeve transfer tool can be reduced.
  • a delivery pulley provided with the transfer film transfer tool of the present invention so as to be freely rotatable with the delivery reel, and the take-up reel are integrally rotatable.
  • a winding endless body that functions as a friction transmission means for the two pulleys is wound around the mutual engagement with the winding side pulley that is freely provided, and
  • the diametrical dimension thereof is adjusted such that the winding speed of the tape by the winding reel is always equal to the tape winding speed by the delivery reel.
  • the speed difference between the two speeds is equal to or greater than the sending speed of the loop, and the speed difference between the two speeds is the difference between the loop endless body and the two pulleys. It may be constructed so as to utilize and absorb slippage that occurs at least in part.
  • the mutual contact between the delivery pulley and the winding pulley The diametrical dimensions of the roll are made different by a screw so that the take-up speed is always equal to or higher than the feed-out speed. After being used, the tape delivered from the delivery reel is wound up on the take-up reel without slack.
  • the speed difference between the two speeds is absorbed by using the burr, the speed difference is wound and stored on the delivery reel. Even if the amount of tape wound on and the amount of tape wound on the take-up reel change according to the usage of the tape, The speed difference will be canceled based on the absorption using the bearing.
  • the main part of the transfer film transfer tool consists of both the pulleys and the circular endless body wound around them, and has a structure of It is simple and has a small number of parts.
  • the tape After the tape is used, it is wound around the take-up reel without slack, so that it is possible to take up the tape reliably. Become. Also, since the speed difference is canceled based on the absorption using the beam, the used tape is less likely to break, for example. It is possible to reliably wind and process the winding reel. Moreover, since the main part of the transfer film transfer tool has a simple structure and a small number of parts, the cost of the transfer film transfer tool can be reduced. and can be connected.
  • the pressing head includes a surface pressing portion capable of pressing the transfer film toward the transfer surface in a surface contact state, and a surface pressing portion on the transfer surface.
  • the pressed transfer film is brought into line contact in the width direction thereof.
  • the pressing head is pressed against the transfer surface, thereby causing the pressing head to resist the biasing force of the biasing means.
  • the surface pressing portion can be switched to a posture of pressing the transfer film toward the surface to be transferred. Then, the transfer film is pressed against the surface to be transferred by the surface pressing portion, and the pressing head is moved to bring the transfer film into contact with the surface to be transferred. It is to make them wear it. After this adhesion is completed, when the pressure head is moved away from the surface to be transferred, the pressing part concentrates and presses a portion of the transfer film on the side of the surface to be transferred.
  • the pressing head By the urging force of the urging means, the direction of movement of the pressure head of the transfer film after the end of adhesion Since the pressing part can hold the end edge strongly pressed against the surface to be transferred, the pressing head can be separated from the surface to be transferred.
  • tension acts on the transfer film as it is easily moved the end of adhesion of the transfer film is pressed along the straight line-shaped pressed part where the pressure is concentrated. Therefore, the transfer film can be easily separated, and the end of the adhesion end of the transfer film can be formed in a fixed straight shape.
  • the pressure action of the surface pressure portion of the pressure head spreads the transfer with a substantially uniform adhesive force.
  • the film can be reliably adhered, and when separated in the feeding direction of the transfer film, the pressing action of the pressing part of the pressing head
  • the end of the adhesion of the transfer film is formed into a substantially constant shape. It is possible to transfer the transfer film to the transfer surface satisfactorily and reliably.
  • a tape as a transfer material is wound around the delivery reel in a bancake shape, and the outer peripheral surface of this non-cake-like transfer material and the outer peripheral surface of the tape wound on the take-up reel.
  • the reduction in the diameter of the cake-like transfer material and the winding of the transfer tape taken up by the rolling body for take-up are caused by the use of the transfer tape. Regardless of the diameter expansion, the transfer tape unwinding speed and take-up speed can be maintained at almost the same speed.
  • the pressurizing portion transfers the entire width of the transfer film provided on the tape onto the surface to be transferred
  • the winding reel Since only the base material from which the transfer film has been removed is wound on the base material, the winding posture is less likely to be disturbed, and the pressure contact state by the pressure contact mechanism is stable. It is convenient because it has the effect of making it easier to
  • a linear edge along the width direction of the tape is formed on the downstream edge of the pressing surface formed on the pressing head in the running direction of the pressing head.
  • a ridge is formed to connect the pressing surface and the straight edge.
  • the edge is used as a fulcrum, and the pressure head moves downward in the running direction. Since the case can be swung to the side, at the transfer end position, the pressure head of the coating film pressed by the pressure surface can By applying strong pressure to the surface to be transferred with the edge, a strong linear bond can be formed along the width of the edge at the end of the transfer of the coating film. When tension acts on the coating film as it is moved away from the surface to be transferred, the coating film tends to break along the strong linear adhesive part, and the transfer of the coating film ends. It is formed into a constant shape with straight ends.
  • the coating film can be reliably transferred from the transfer start position to the transfer end position by the pressure surface of the pressure head with substantially uniform adhesive strength, and Also, the transfer end edge of the coating film can be formed in a substantially constant shape.
  • a traveling means for causing the tape sent out from the storage section to travel along a fixed route, and a tape traveling along the fixed route.
  • a scraper portion is pressed against the transfer coating film on the tape to scrape the transfer coating from the base material, and the scraper portion separates the transfer coating from the base material.
  • the transfer coating film does not adhere to the transfer surface. Regardless of the magnitude of the adhesive strength and the adhesive strength to the base material, once the transfer coating is adhered to the surface to be transferred, it is difficult to peel off. It is easy to reliably transfer the coating film for transfer to the surface to be transferred.
  • the transfer coating film can be used.
  • the coating film can be smoothly run from the screen to the pressing surface.
  • the pressing portion is formed on the peripheral surface of a pressing roller for winding and guiding the transfer coating film peeled off by the scraper portion to the transfer surface side.
  • a force cutter capable of cutting the transfer coating film formed by the pressure roller and wrapped around the pressure roller is provided, the transfer The transfer end shape of the transfer coating film can be formed in a fixed shape.
  • the head when the head is provided so as to be able to change the width of the tape or the width of the heating in the width direction of the tape with respect to the coating film, the following operation is performed. It is preferable because it has a useful effect.
  • the transfer width of the coating film can be changed by changing the pressure or heating width of the head. can. Therefore, a tape with a constant coating width is used. Even so, it is possible to provide a convenient coating film transfer tool capable of changing the transfer width of the coating film according to the width of the desired transfer surface range.
  • a transfer portion for transferring the heat-sensitive transfer coating film of the tape onto the surface to be transferred while softening or melting it by heating is sent out from the storage portion.
  • the heat-sensitive transfer coating of the tape is in contact with the tape, and the heat-sensitive transfer coating rotates while softening or melting the heat-sensitive transfer coating, and the heat-sensitive transfer coating is softened or melted.
  • It is configured by providing a heating roller for transferring and holding the transfer coating film from the base material to its peripheral surface in a softened or melted state, and the heating roller When the heat-sensitive transfer coating film transferred and held on the peripheral surface is transferred to the surface to be transferred as it rotates, the following functions and effects are obtained. .
  • the ripening transfer coating film is transferred and held from the substrate to the peripheral surface of the heating roller, and the ripening transfer coating film transferred and held on the peripheral surface of the heating roller. is transferred to the transferred surface.
  • thermal transfer coating is expected.
  • the substrate is transferred and held in a softened or molten state on the peripheral surface of the heating roller, and the sensitive transfer coating transferred and held on this peripheral surface is applied to the surface to be transferred. Since the image is transferred, even if the heating roller as a heating member rises from the surface to be transferred unattractively and the heating is interrupted, the surface to be transferred is once The heat-sensitive transfer coating adhered to the surface is difficult to peel off, and therefore the transfer surface is less damaged.
  • the electrothermal transfer coating to be transferred is heated. It is softened or melted by heating in a position sandwiched between the roller and the surface to be transferred, and the peripheral surface of the heat roller is in a softened or melted state. Even if the peripheral surface of the heating roller unexpectedly rises from the surface to be transferred, the heat-sensitive transfer coating will not heat up.
  • the peripheral surface of the roller and the sensitive transfer coating that is about to be adhered to the surface to be transferred are easily separated from each other, and once adhered to the surface to be transferred, The electrothermal transfer coating film is not easily peeled off from the transferred surface.
  • a storage section for storing a tape in which a heat-sensitive adhesive layer is formed on one side of a base material so as to be fed out;
  • a heating and pressing member for coating that heats and presses the maturity-sensitive adhesive layer to apply it to the surface to be coated, and the heating and pressing member for coating is placed on the surface to be coated.
  • Adhesive mechanism for supplying to the hot pressing surface of the hot-pressing member and reheating and pressing the heat-sensitive adhesive layer applied to the surface to be coated. If the structure is provided with the heating and pressing means, the following effects are obtained.
  • the tape runs out of the storage section.
  • a maturing adhesive layer is applied to the maturing and pressing surface of the heating and pressing member for application , and the applied sensitive adhesive layer is successively applied . It is hot pressed and applied to the surface to be coated.
  • the adhesive is applied to one of the surfaces to be adhered, which is the surface to be coated. Since the maturing adhesive layer can be pre-applied by heating and pressing, the maturing adhesive layer can slide independently on the surface to be adhered. There is no such problem, and the bonding position can be bonded in a state where it is difficult to shift from the desired position.
  • the tape having a heat-sensitive adhesive layer formed on one side of the base material is protruded as the application heating and pressing member travels, and the heat-sensitive adhesive layer is applied to the tape.
  • the adhesive layers are sequentially applied to the heated and pressed surface, and can be applied to the surface to be coated, and the heat-sensitive adhesive layer applied to the surface to be coated.
  • the adhesive layer can be heated and pressed again by the bonding heating and pressing means to complete the bonding work, and the bonding work can be performed efficiently and simply as a whole. Wear.
  • the case provided with the coating agent transfer means is provided with a film removing means capable of removing the coating agent film transferred to the surface to be transferred, the case can be Even if the transfer agent is transferred outside the transfer region due to a mistake in manufacturing the transfer film, the transfer film outside the transfer region can be quickly removed by the above-mentioned groin removing means. It has the effect of
  • the film removing means can be freely switched between a use posture protruding outside the case and a non-use posture retracted inside the case.
  • the scraping member comprises the scraping member
  • the scraping member which constitutes the film removing means is not used when the scraping member is not used. It is possible to avoid hurting fingers, etc. with the sharp part of the film, and to ensure safety during normal transfer film transfer formation work. There is an effect that can be done.
  • the film removing means is an adhesive layer having a larger adhesive force than the adhesive force between the transfer surface and the transfer film.
  • a tape formed on one side of a base material, a tape storage section for storing the tape so that the tape can be pulled out, and the tape storage section.
  • the adhesive layer of the tape fed out from the tape is composed of a pressure head for pressing against the transfer film, the transfer The pressure head presses the adhesive scraps of the tape against the excess transfer film that has been transferred outside the area, and in this state, the pressure head is pressed against the transfer film.
  • the tape After performing a movement operation to the upper side in the direction of tape ejection with respect to the surface, the tape is moved relatively away from the surface to be transferred. As a result, the excess transfer film can be peeled off at once, so that such film removal work can be performed quickly. effective.
  • the case is provided with a rotatable film removing member for removing the transfer film transferred to the transfer surface, and a rotatable film removing member for removing the transfer film transferred to the transfer surface.
  • the transfer operation error is prevented. Therefore , even when the transfer film is transferred outside the transfer region of the transfer surface , the film removing member is brought into contact with the transfer film outside the transfer region . By manually forcibly rotating the film removing member in this state, the unnecessary transfer film outside the transfer region is quickly removed. be able to.
  • the film removing member can be Since it is a rotation type by artificial operation, it can be transcribed outside the transcription region with less effort while achieving simplification and miniaturization of the structure as a whole. It is possible to quickly and easily remove unwanted transfer ligaments.
  • the concave part of the coating film is taped more skillfully than the position corresponding to the head in the running path of the tape fed out from the storage part. If a removing means for freely changing the width of removal from the group is provided, the following effects can be obtained.
  • the side portion of the coating film can be removed from the tape by the removing means.
  • the transfer width of the coating can be changed by pressurizing or heating it.
  • the transfer width of the coating film can be changed according to the width of the desired transfer surface range. become a good thing.
  • FIG. 1 is a longitudinal view showing an actual example of a transfer film transfer tool according to the present invention.
  • 2 is a perspective view showing the state of use thereof;
  • FIG. 3 is a vertical sectional side view showing another embodiment;
  • FIG. 4 is another embodiment;
  • Fig. 5 is a vertical cross-sectional view of the main part of Fig. 4,
  • Fig. 6 is an explanatory diagram showing the state of use,
  • Fig. 7 is another implementation
  • Fig. 8 is a plan sectional view of the main part of Fig. 7, and
  • Figs. 9 (a), (b) and (c) are Fig. 10(a),
  • (b) is a plan sectional view of a main part showing a transfer film transfer tool of another embodiment;
  • FIG. 11 is 12 is a cross-sectional view taken along the line XII--XII of FIG. 11, and FIG. 13 is a main part of FIG. 12.
  • Fig. 14 is a cross-sectional side view of the main part of still another embodiment;
  • Fig. 15 is a plan view of the main part;
  • Fig. 16 is a plan view of the main part; 16 is a cross-sectional view along line XVII--XVII of FIG. 16,
  • FIG. 18 is a cross-sectional plan view of FIG. 14,
  • FIG. 19 is a cross-sectional plan view showing only the case, and
  • FIG. Fig. 2 is a partially cutaway plan sectional view of a transfer film transfer tool of another embodiment, Fig. 21 (a), (b) ,
  • FIG. 22 is a partially cutaway plan cross-sectional view of the transfer film transfer tool of another embodiment
  • FIG. 24 is a cross-sectional view taken along line XXIII-XXIII of FIG. 22
  • FIG. 24 is a cross-sectional view taken along line XXIV--XXIV of FIG. 22
  • FIG. Fig. 26 shows a partially cutaway plan sectional view of a transfer film transfer tool of still another embodiment XXVI - XXVI line section of Fig. 27
  • FIG. 27 is a partially cutaway plan view
  • FIG. 28 is another embodiment.
  • FIG. 28 is another embodiment.
  • FIG. 29 is a partial cross-sectional view taken along line XXIX--XXIX of FIG. 28;
  • FIG. 30 is a cross-sectional view of the essential parts of FIG. 28;
  • FIG. 32 is a partially cutaway plan cross-sectional view of a transfer film transfer tool of another embodiment;
  • FIG. 1 is a cross-sectional view taken along the line XXXIII--XXXIII,
  • FIG. 34 is a partially cut-away plan cross-sectional view of a transfer device of yet another embodiment, and
  • FIG. Fig. 36(a) and (b) are explanatory diagrams of the method of use,
  • Fig. 37 is a part of the transfer film transfer tool of another embodiment.
  • FIG. 10 is a cutaway plan sectional view
  • FIG. 38 is a partially cutaway plan view of the transfer film transfer tool of still another embodiment
  • FIG. Fig. 40 is a cross-sectional view taken along line XXXX - XXXX in Fig. 38
  • Fig. 42 is the same as Fig. 41
  • FIG. 43 is a partially cutaway plan view showing the work of removing the unnecessary pressure-sensitive transfer ink film
  • Fig. 44 is another embodiment.
  • FIG. 45 is a partially enlarged cross-sectional view of the transfer film transfer tool
  • FIG. 45 is a plan cross-sectional view of the transfer film transfer tool of still another embodiment
  • FIG. Top view, Figure 47 shows unnecessary pressure-sensitive transfer fins.
  • FIG. 48 is a cross-sectional plan view of a transfer film transfer tool of another embodiment, and FIG. 49 is an unnecessary pressure-sensitive transfer ink.
  • FIG. 50 is a cross-sectional plan view of a transfer film transfer tool of still another embodiment, and FIG. 51 is an unnecessary pressure-sensitive transfer fin.
  • a cross-sectional view of the main part showing the work of removing the black film Fig. 52 is a cross-sectional plan view of a transfer film transfer tool of another embodiment, and Fig. 53 is a main part showing the work of removing an unnecessary pressure-sensitive transfer ink film.
  • Fig. 54 is a plan sectional view of a transfer film transfer tool of still another embodiment;
  • Fig. 55 is a side sectional view of essential parts; Fig.
  • Fig. 57 is a cross-sectional view of essential parts showing the work of removing the pressure-sensitive transfer ink film
  • Fig. 8 is a side cross-sectional view of essential parts
  • Fig. 59 is a side cross-sectional view of essential parts of a transfer film transfer tool of still another embodiment
  • Figs. Fig. 62 is a cross-sectional view of the essential parts of a transfer film transfer tool of another embodiment
  • Fig. 63 is an expanded cross-sectional view of Fig. 62
  • Fig. 64 is a partially cut-away plan cross-sectional view of a transfer film transfer tool of still another embodiment
  • Fig. 65 is its Fig. 66 is an enlarged view of the main part
  • Fig. 66 is a side view showing the main part
  • Figs. , and Fig. 68 is a side view showing the main part thereof.
  • (1) is a white mesostatic transfer coating that is lightly adhered to a substrate and held in a film shape. It is an image correction tea (1).
  • a pressure head (5) that presses the pressure-sensitive transfer coating film of the tape (1) fed from the reel (2) against the transfer surface (4); is the case (6)
  • the main part of the coating film transfer tool which is an example of the transfer film transfer tool of the present invention, is constituted by being provided in the.
  • Both the delivery reel (2) and the winding reel (7) are substantially ring-shaped and serve as a core for winding the tail (1).
  • the main bodies (2a) and (7a) extend concentrically from the main bodies (2a) and (7a) and are installed at appropriate positions in the case (6).
  • the bodies ( 2 a ) and ( 7 a ) of both reels ( 2 ) and ( 7 ) are said to have an inner diameter ratio of 1:1.
  • the diameter ratio is determined by the winding speed of the tape (1) by the take-up reel (7) is always the speed of tape (1) by the delivery reel (2) (Specifically, even when the tape (1) is hardly fed from the feeding reel (2) It is set so that the winding diameter of the unloading tape is larger than the winding diameter of the delivery tape.
  • the inner bodies (2a) and (7a) of them are Spherical rolling elements (
  • the rolling elements ( 10 ) are also moved from the side of the delivery reel ( 2 ) to the take-up reel ( 7 ) side to prevent it from coming off, and to secure a frictional force at the contact portion of the edge. It is designed to be One side of the rolling element ( 10 ) has a circumferential surface which is formed in contact with the main body of the delivery reel ( 2 ) .
  • the rolling elements ( ⁇ 0 ) constitute friction transmission means ( F ) between the delivery reel ( 2 ) and the take - up reel ( 7 ) Then, the ratio between the delivery speed of the delivery reel (2) and the take-up speed of the take-up reel (7) is The speed difference is absorbed by the slippage that occurs on the peripheral surface of the rolling element ( 10 ) that is in frictional contact. .
  • the tape (1) delivered from the delivery reel (2) passes through the pressure head (5) where it is coated with a coating film.
  • the tape is transferred under pressure to the rolling surface (4) and then wound onto the take-up reel (7). ) is twisted along its running path, so to eliminate the slack in the tape (1) due to the twist, the delivery link Conical roller guide rollers ( 11 ) and ( 12 ) are provided on both the reel ( 2 ) side and the winding reel ( 7 ) side .
  • the outer diameter ratio of the rain reels ( 2 ) and ( 7 ) is always the same as the take-up speed. Since the speed is set to be higher than the speed, the tape delivered from the delivery reel does not loosen after being used. Instead, it is wound on the winding reel. Also, the speed difference is absorbed and canceled by utilizing the slip on the peripheral surface of the rolling element (10). Moreover, the driving portion of the transfer film transfer tool has the friction transmission means (F) using the rolling body as a main element, and has a simple structure and is easy to use. The number of items is also small.
  • the shape of the rolling element (10>) need not be spherical, and may be, for example, an abacus bead shape.
  • the friction transmission means (F) is inscribed in the inner surface of the delivery reel (2) and rotates integrally with the take-up reel (7).
  • the winding reel ( 7 ) is configured by a small - diameter cylindrical rolling element ( 13 ) provided in an extended state 5 .
  • the rotational force of the delivery reel ( 2 > is frictionally transmitted to the take - up reel ( 7 ) via the small - diameter cylindrical rolling element ( 13 ) .
  • the take-up reel (7) rotates at a higher speed than the delivery reel (2), and the tape (1) by the take-up reel (7)
  • the take-up speed of the tape is always equal to or higher than the feeding speed of the tape (1) by the feeding reel (2).
  • the difference is absorbed by the slip occurring on the peripheral surface of the rolling element (13).
  • the above example is a coating film transfer tool used for retouching the image of a rooster.
  • it can also be applied to a plaster transfer tool used for pasting letters and images, and to a paste film transfer tool used for adhering paper to paper. ' is also applicable.
  • the transfer film transfer device is of a type in which after the transfer film is separated from the tape, the head contacts the transfer film to transfer the same.
  • the present invention can also be applied to a transfer film transfer tool of the type in which the transfer film is heated with a head and transferred. Clarification is applicable.
  • the driving force is primarily transmitted to the delivery reel, but the driving force is transmitted to the take-up reel side.
  • the primary transmission drives the take-up reel to rotate, and the rotational force is frictionally transmitted to the delivery reel side via the above-mentioned rolling elements. It may also be a transfer film transfer tool in which a delivery reel is adapted to rotate.
  • (1) is a white pressure-sensitive transfer coating film (la) that is in light contact with the substrate (lb). It is a tape (1) for correcting a rooster image which is worn and held in a film shape. Then, the image correction tape ( 1 ) is wound around a delivery reel ( 2 ) in a roll shape and stored so as to be delivered. (3) and pressing the pressure-sensitive transfer coating film (1a) of the tape (1) delivered from the storage part (3) against the transfer surface (4).
  • a pressure head (5) and a pressure head (5) are provided in a case (6) to provide an example of the transfer film transfer tool of the present invention. It constitutes the main part of the coating film transfer tool.
  • the tape (1) passes from the delivery reel (2) through the pressurizing surface (5a) side of the pressure head (5) to the delivery reel (2).
  • winding reel ( 7 ) rotatable about an axis substantially parallel to the rotation axis of the winding reel ( 7 );
  • the reel (7) is interlocked with the interlocking mechanism (21) provided on one side of the case (6) so that the delivery reel (2) of the tare (1) is connected.
  • the base material (1b) after the coating film (1a), which is a transfer film is transferred by the pressure head (5) along with the delivery from the pressurizing head (5). It is configured to be wound onto a take-up reel (7).
  • the interlocking mechanism ( 21 ) comprises a delivery side pulley ( 18 ) rotatably provided integrally with the delivery reel ( 2 ) and the take-up reel ( 7) and a winding pulley (19) provided rotatably integrally with both pulleys (18) and (19) are in friction contact with each other.
  • a rubber belt ( 20 ) as a circular endless body that turns around and functions as a friction transmission means is wound around the rubber belt ( 20 ). It is done.
  • the diameters of the two halves (18) and (19) are such that the winding speed of the tape (1) by the winding reel (7) is constant. to the tail by the delivery reel (2)
  • the speed difference between the two speeds is between the rubber belt (20) and the two pulleys (18), ( 1) It is designed to absorb by utilizing the slippage that occurs at least in part of the gap between the
  • the diameter dimension between the delivery side pulley (18) and the winding side pulley ⁇ 19) is are made different so that the take-up speed is always equal to or higher than the delivery speed.
  • the tape (1) sent out from the tape (1) is wound on the take-up reel (7) without slack.
  • the speed difference between the two speeds is calculated by at least a part of the speed difference between the rubber belt (20> and both the pulleys (18) and (19). Since the tape is absorbed by utilizing the slippage caused by the tape, the tape wrapped around the delivery reel ( 2 ) is stored. The amount of the tape (1) and the amount of the tape (1) wound on the winding reel (7>) change according to the usage of the tape (1). Even so, the speed difference will be canceled based on the absorption using the beam.
  • the looping endless body may be other than the rubber belt, and may be, for example, a string-like body. However, it is useless to use a chain or the like that cannot cause slippage.
  • the coating film transfer tool used for image correction in addition to the coating film transfer tool used for image correction, It can also be applied to a coating film transfer tool used for sticking characters or rooster images, and can also be applied to a paste film transfer tool used for adhesion between papers.
  • a transfer film transfer tool of a type in which a head is brought into contact with the transfer film after the transfer film is separated from the tape to transfer the same can also be applied to a transfer film transfer tool of the type in which a transfer film is heated by a head and transferred.
  • the driving force is primarily transmitted to the delivery reel falling, but the driving force is first transmitted to the take-up reel. Next, the power is transmitted to rotate the winding reel, and the rotational force is transmitted to the delivery reel by friction via the early and the orbiting endless body.
  • the present invention can also be applied to a transfer film transfer tool in which a delivery reel is rotated.
  • Fig. 7 shows a tape for correcting a rooster image in which a white pressure-sensitive transfer film (la) is lightly adhered to a base material (lb) and the shape is maintained in a film form.
  • the pressure-sensitive transfer film (1a) of the tape (1) sent out from the tape (1) is pressurized against the transfer surface (4), and the transfer groin (la) is applied to the transfer surface (4). ) is provided with a pressing head (5) in the case (6).
  • the tape (1) passes from the delivery reel (2) through the pressing head (5) and extends substantially parallel to the rotation axis of the delivery reel (2).
  • the winding is hung on a winding reel (7) rotatable around a vertical axis.
  • the delivery reel ( 2 ) and the take - up reel ( 7 ) are interlocked by an interlocking machine tank ( 21 ) provided on one side of the case ( 6 ) .
  • the transfer film ( la ) is transferred by the pressing head ( 5 ) as the tape ( 1 ) is connected and delivered from the delivery reel ( 2 ). It is configured to take up the base material (lb) after being rolled onto a take-up reel (7).
  • the interlocking mechanism (21) consists of a large diameter dovetail (18) fixed to the delivery reel (2>) and a take-up reel (7). It consists of a small-diameter pulley (19) and a rubber transmission belt (20) hung in line with the winding reel (7). Make the number of revolutions higher than the number of revolutions of the delivery reel (2) so that the winding diameter of the tape (1) relative to the reels (2>, (7) The winding speed by the take-up reel (7) is always faster than the delivery speed from the delivery reel (2) despite the fluctuations.
  • the speed difference between the winding speed by the take-up reel (7 ⁇ and the delivery speed from the delivery reel (2) is measured by the transmission belt A large tension acts on the tare (1) due to absorption by the slip between the tee (20) and the pulleys (18) and (19). While preventing this, the winding reel ( 7 ) is configured to reliably wind the winding reel ( 7 ).
  • the tape (1) comprises a base material (1b) made of resin or paper on which exfoliated debris is formed by silicone resin or the like, and a face is attached to the base material (1b).
  • a transfer film (1a) composed of a mixture of a binder, a binder, a dispersant and the like is lightly adhered via the release layer to form a film. It retains its shape and adheres to the surface to be transferred (4) via an adhesive layer formed on the transfer film (la).
  • the pressing head (5) includes a surface pressing portion (5a) capable of pressing the transfer film (la) against the surface to be transferred (4) in a state of surface corrosion,
  • a line press capable of pressing the transfer film ( 1 a ) pressed against the transfer surface ( 4 ) in a line contact state in the width direction against the transfer surface ( 4 ). It is configured in a substantially triangular shape in a side view with a pressure portion (5b).
  • the pressing head (5) is attached to the case (6) so as to be rotatable about the horizontal axis (X), and A spring as a biasing means for moving and biasing the pressing portion ( 5 b ) to a posture of pressing the transfer film ( la ) toward the transfer surface ( 4 ). (S) is provided. By pressing the pressing head (5) against the transfer surface (4), the pressing head (5) is pushed against the biasing force of the spring (S).
  • the surface pressing portion (5a> switches to the first posture in which the transfer film (la) is pressed against the transfer surface (4),
  • the biasing force of the spring (S) The line pressing head (5>) is rotated clockwise to switch to the second posture where the line pressing part (5b) presses the transfer film (1a) side. It is grown so that it can be used.
  • Figs. 9(a), (b) and (c) the case (6) is held by hand, and the pressing head (5) is pressed against the surface (4) to be transferred. After switching the pressing head (5> to the first posture, the case (6) is moved to cover the desired range of the transfer surface (4). A transfer film (la) is adhered to the substrate via an adhesive layer (not shown).
  • the pressure head (5 ) is switched to the second posture by the biasing force of the spring (S).
  • the edge of the transfer film after the completion of adhesion which is on the downstream side in the direction of movement of the pressing head, is pressed against the surface to be projected (4) by the line pressing part (5b). Therefore, it is possible to reliably separate the adhesion terminal end of the transfer film (1a>) along the straight line pressing part ⁇ 5b), As shown in FIG. 9(c), the terminal end of the transfer film (la) can be transferred in a linear and substantially constant shape.
  • the pressure head (5) is sprung. With the urging force of the ring (S) switched to the second posture (see Fig. 9 ⁇ b>), push the case (6) downward. By pressing, the end of adhesion of the transfer film (la) may be actively cut at the tip of the pressing part (5b). and (29) shown in Fig. 8 is a stock for restricting the rotation of the pressure head (5). Rotating clockwise from the second posture Stokno (29) is designed to prevent contact.
  • the surface pressing portion (5a) and the edge pressing portion (5b) of the pressing head (5) were integrally formed, but they were formed separately. You can practice with things.
  • the line pressing part (5b) is moved by the spring (S> to the posture of pressing the transfer film (1a) toward the transfer surface (4).
  • the surface pressing portion (5a) of the pressing head (5) was elastically deformable.
  • a line press made of a hard material such as metal or hard plastic is attached to the tip of this surface pressing part (5a).
  • the transfer film (1a) was attached to the base material (1b) using the tape (1>), but the transfer film (1a) itself When the tensile strength of is sufficiently large, the base material (1b) is omitted and the transfer film (1a) composed only of the transfer film (1a) is used. You can
  • Fig. 11 shows a case (6) in which a pressing head (1) having a pressing surface (5a) as a transfer part is connected to a case (6).
  • a resin transfer tape holder in which a delivery reel (2) and a take-up reel (7) are rotatably supported.
  • Substrate ( 1 ) having a pressure-sensitive transfer layer ( 1 a ) capable of being transferred to the transfer surface ( 4 ) under pressure on one side of b) is attached to the transfer tape ( 1 ) With the surface facing radially inward, load the transfer material (1) wrapped in a cake shape onto the delivery reel (2). and rotatably support the transfer material (1).
  • a feeding section (P) capable of feeding the transfer tape (1) by rotation of the transfer material (1) is constituted, and the feeding section (P ) is fed out from the transfer tape (1) and passes through the guide (39), and is wrapped around the pressing surface (5a) of the pressing head (5). Further, it is hung on the take-up reel (7) and wound around its peripheral surface by the rotation of the take-up reel (7). Configured.
  • the pivoted part (7b) which is the rotation axis of the winding reel (7>), is formed in a state of penetrating straight through the inner and outer surfaces of the case (6>). It is movably supported along the elongated hole (7c) toward the rotation axis (X) of the delivery reel (2).
  • a thin plate material integrally formed with the case (6) in a state of protruding from the inner surface of the long hole (7c) (7d) is forcibly elastically deformed into a doglegged shape in the plane direction including the axis of the rotating shaft (7b>) to form a compression panel.
  • the rotating shaft (7b) is pressed by the biasing force of the compression panel (7d), and the outer peripheral surface of the pancake-like transfer material (1) and the winding reel (7 ) is configured with a press-contact mechanism (100) for press-contacting the outer peripheral surface of the transfer tape (1) in a wound state.
  • the pressure contact by the pressure contact mechanism (100) interlocks the rotation of the pancake-like transfer material (1) with the rotation of the take-up reel (7).
  • the entire case is moved in the direction of the arrow so that the transfer film (5b) is pressed against the transfer surface (4), thereby transferring the transfer film (5b).
  • b) is transferred to the surface to be transferred (4) with its full force, and the transfer tape (1) is pulled out from the projecting portion (P).
  • the take-up reel (7) is rotated to take off the base material (1b).
  • the transfer tape ( 1 ) is tensioned in the traveling path between the pressure head ( 5 ) and the winding reel ( 7 ), and the transfer tape is Even if the unrolling speed of the loop (1) becomes slightly faster than the take-up speed, consideration should be given to prevent sagging. ing,
  • the tension as shown in Fig. 13, is applied to a swinging arm protruding into a through hole (6c) formed in the case (6).
  • a rocking shaft member (6h) is provided with an L-shaped oscillating shaft member (6e) and a pressing member (6d) protruding toward the inner surface of the case.
  • (6) is integrally formed, and the swing arm (6e) is forcibly elastically deformed to push the pressing member (6d) onto the transfer tape (1). It works by applying it.
  • Fig. 19 shows a case ( 6 ⁇ , and in this state, there is a thin member ( ⁇ d ) that should function as a compression panel and a vibration to give tension.
  • ⁇ d a thin member that should function as a compression panel and a vibration to give tension.
  • Each of the moving arms (6e) is integrally connected to the case (6) in a state in which it is not elastically deformed.
  • the rotation shaft (7b) of the winding reel (7) is oriented toward the rotation shaft core (X) of the delivery reel (2).
  • a compression panel (7d) that is pressed by a squeegee is shown, and a thin plate is formed integrally with the case (6) in a cantilevered manner along the long hole (7c).
  • the plate material (7d) is forcibly elastically deformed into a doglegged shape in the plane direction perpendicular to the axis of the rotating shaft (7b) to form a compression panel. It is a thing,
  • Figs. 16 and 17 show the outer peripheral surface of the non-cake-like transfer material (1) and the transfer tape wound on the winding reel (7).
  • Another embodiment of the pressure contact mechanism (100) for pressure contact with the outer peripheral surface of the loop (1) is shown, and the long hole (7 A hole (6 g) connected to c) is formed in the case (6), and the thin film is protruded in a cantilevered manner along this hole (6 g).
  • the plate material (6f) is integrally formed with the case (6), and the thin plate material (6f) is forcibly moved along the direction of movement of the rotating shaft (7b). By elastically deforming it, it is brought into contact with the rotating shaft (7b>) and presses the winding reel (7>).
  • the transfer tape (1) is wrapped in a cake shape with the adhesive surface facing radially outward.
  • Ru no. Attach the cake-shaped transfer material (1) to the delivery reel (2)
  • An example of the case where it is made to do is shown.
  • the pressure contact mechanism may be configured to movably support the rotating shaft of the delivery reel and press and energize the delivery reel.
  • the transfer tape After passing through the transfer section, the transfer tape is lightly adhered so as to be taken up by the winding reel. It may be possible to prevent the transfer tapes from slipping against each other when the tape is rotated.
  • the transfer part is not limited to one that transfers the entire width of the transfer layer provided on the substrate onto the surface to be transferred.
  • the transfer film is not limited to a pressure-sensitive transfer film, and may be a pressure-sensitive thermal transfer film or a paste.
  • a heating element should be attached to the pressing surface of the transfer part.
  • a winding reel is made of a resilient material such as rubber, and its rotating shaft is supported at a fixed position to hold the winding. It may be constructed so as to be press-contacted by the tensile deformation of the reel to be taken.
  • Fig. 20 shows a modified rooster image in which a white pressure-sensitive transfer coating (la) is lightly adhered to a base material (1b) to retain its shape in a film.
  • a storage area (3) that stores the regular tape (1) in a roll shape around the delivery reel (2) so that it can be delivered, and a storage section.
  • a coating film transfer tool having a pressing head (5) for pressing the coating film (1a) for transfer onto the transfer surface (4) and a case (6) are provided. show.
  • Said tare (1) passes from the delivery reel ⁇ 2) to the pressing surface (5a) side of the pressing head ⁇ 5) to the delivery reel (2).
  • the winding reel ( 7 ) is rotatable around an axis substantially parallel to the rotation axis of ( )
  • the winding reel ( 2 ) and the winding reel ( 7 ) and ( 7 ) are interlocked by the interlocking mechanism ( 21 ) provided on the inner side of the case ( 6 )
  • the delivery reel ( 1 ) of the tape ( 1 ) is connected. 2 )
  • the base material ( lb ) after the coating film ( 1 a > has been transferred ) is picked up by the reel ( 7 ).
  • the interlocking mechanism (21) consists of a large diameter dovetail (18) fixed to the delivery reel (2) and a Consists of a rubber power transmission belt (20) wrapped around a small diameter pulley (19) fixed to a take-up reel (7)
  • the number of revolutions of the take-up reel (7) is set higher than that of the delivery reel (2), and the reel (2) of the tape (1), Despite the variation in winding diameter with respect to ( 7 ), the winding speed by the take-up reel ( 7 ) is less than that from the delivery reel ( 2 ).
  • the winding reel (7) is configured to reliably wind the winding reel (7) while preventing a general tension from acting on (1).
  • the pressure head (5) has a linear edge along the width direction of the tape at the edge of the pressure surface (5a) on the downstream side in the direction of travel of the pressure head.
  • a Jedge (49) is formed and includes a pressing surface (5a>) and a straight edge (49), and the outer peripheral surface (6i ) and the imaginary surface (T) in contact with the case (6) intersect with each other.
  • the tape (1) is coated with a resin or paper substrate (1b) on which a release layer 0 made of silicone resin or the like is formed,
  • the coating film (1a) which is formed by SS-combining pigments, binders, dispersants, etc., is bonded via the release layer to retain its shape as a film. It is adhered to the surface to be transferred (4) via the adhesive layer formed on the coating film (la).
  • the edge (49) is used as a fulcrum to swing the case (6) toward the downstream side in the tape feeding direction.
  • the coating film (la), which is the transfer film, is pressed against the transfer surface (4).
  • the coating film (la) is attached to the surface to be transferred via the adhesive layer.
  • the tape (1) is forcibly delivered from the delivery reel (2), and at the same time, the coating film (1a ) is transferred, the substrate (1b) is taken up by a take-up reel (7).
  • the edge (49) is turned into a point and the case (6) is pushed by the pressing head.
  • the edge (49) oscillates to the upper hand side in the traveling direction, and the edge (49) presses the end of the coating film (la) at the end of the transfer, so that the end of the end of the transfer is removed.
  • Adhesive force between ( la > and transfer surface ( 4 ) is sufficiently increased along the width direction of edge ( 4 9 ).
  • the tensile strength of the pressure-sensitive transfer coating itself is sufficiently large, it is possible to form an ovalized tape with the pressure-sensitive transfer coating alone without a substrate. May be used.
  • Fig. 22 shows a modified image in which a white pressure-sensitive transfer film (1a) is lightly adhered to a base material (1b) and is kept in a film shape.
  • a storage unit ( 3 ) is provided for storing the regular tape ( 1 ) wound around the delivery reel ( 2 ) in a roll shape so that it can be delivered. It was sent out from the storage part (3) into the case (6) with a screen ( 5 c ) which is pressed against the coating film ( la ) 1 » of the tape ( 1 ) and peels off the coating film ( la ) from the base material ( lb ); and a pressing surface (5a) for pressing and transferring the coating film (la) peeled off by the scraper part (5c) onto the surface to be transferred (4).
  • the transfer film transfer tool with which the lead (5) is connected is shown.
  • a rotating roller (27) is supported on the back side of the pressing surface (5a) of the head (5), and the tail (1) is fed from the delivery reel (2).
  • the winding is hung on the rotating roller (27) and its end is fixed to the take-up reel (7).
  • the scraper part (5c) is urged by the plate knife (27a).
  • the delivery reel (2) is provided with a main body (2a) as a pair of left and right rotating wheels, which is connected to the main body (2a).
  • the peripheral surface (2d) covered with the non-slip rubber protrudes outward from the case (6) and rolls on the transferred surface (4>). Therefore, the delivery reel (2) is configured to rotate, and the delivery reel (2) and the take-up reel (7) are separated from each other by the delivery reel (2). between the large diameter pulley (18) fixed to the winding reel (2) and the small diameter pulley (19) fixed to the take-up reel (7>). It is interlocked via a rubber transmission belt (20) wrapped around the case (6) so that the case (6) can be held by hand to rotate the rotating wheel.
  • the number of revolutions of the take-up reel (7) is adjusted to the number of revolutions of the delivery reel (2). More than the winding reel (7) regardless of the variation in the winding diameter of the tape (1) relative to the reels (2), (7)
  • the winding speed by the winding reel (2) is always faster than the winding speed from the delivery reel (2), and the take-up reel (7)
  • the speed difference between the winding speed and the delivery speed from the delivery reel (2) is calculated by the transmission belt (20) and the pulleys (18), (1 9) By absorbing the slip with the tape (1), the take-up reel (7 ) so that it can be reliably wound.
  • the pressing surface (5a) of the head (5) and the peripheral surface (2d> of the rotating wheel (2a) are brought into contact with the surface to be transferred (4), as shown in Fig. 22.
  • the tape (1) runs due to the action of the running means (R).
  • the tare runs on a strip whose base material (1b) is clamped between the screen, the ' part (5c) and the rotating roller (27). While being taken up by the take-up reel ( 7 ), the coating film ( 1 a ) is separated from the base material ( lb ) by the scraper section ( 5 c ) and pressed. The surface (5a) is pressed against the transfer surface (4) and transferred. When the tensile strength of the coating film (1a) is small, the separation start position by the screen (5c) and the pressure surface (5a) It is desirable that the pressing start position is as close as possible.
  • the tape (1) comprises a base material (1b) made of resin or paper on which a release layer made of silicone resin or the like is formed, and a pigment , a binder, a dispersant, etc., are adhered via a release layer to retain the shape of a film, and the coating film ( It is adhered to the surface to be transferred (4) via the adhesive layer formed on la).
  • the coating film transfer tool presses only the coating film after it has been peeled off from the substrate onto the surface to be transferred, the coating film once adhered to the surface to be transferred can be removed.
  • the paint film is not only difficult to peel off , but when the paint film ( la ) is removed by the scraper ( 5 c ) , the paint film ( la ) is slightly Since the light is refracted from the surface, the thin film-like coating (la) loses its holding power due to the shearing force caused by the refraction.
  • the adhered part of the coating film and the part of the non-adhered coating film are reliably separated by the presser cap of the transfer surface ( 5 a ), and the coating film ( la ) End of transfer Transfer can be finished with a good shape without jagged edges.
  • the surface of the screen (5), the part (5c) and the pressing surface (5a) of the head (5) are coated with a coating that does not adhere to the coating film (la). It is coated with a well-known fluororesin.
  • Fig. 25 shows an embodiment in which the screen's ' part (5c) and the pressing surface (5a) are provided on separate members, and the peripheral surface is the pressing surface.
  • the pressure roller (37) formed in (5a) is supported in the case (6), and the base material (1
  • the coating film ( la ) peeled off from b) is wrapped around the pressure roller (37) and guided to the surface to be transferred (4) side, and the pressure roller (37) ) is pressed against the surface to be transferred (4) and transferred.
  • a cutter (31) that can be elastically deformed in the near and far directions with respect to the peripheral surface of the pressing roller (37). It is connected to the case (6), and at the transfer end position, the case (6) is tilted to press the cutter (31) against the transferred surface (4). By doing so, it is elastically displaced to the pressure roller (37) side so that the coating film (la) can be cut by the blade portion (31a). Then, the transfer end shape of the coating film (1a) is configured to be formed in a straight line substantially orthogonal to the width direction of the tape.
  • the case (6) is transferred while moving it to the left in FIG. Reverse the winding direction to the reels (2) and (7) of (1) from the embodiment shown in FIG.
  • the tape (1) should be wrapped so that the coating film (1a) side is aligned with the reel axis.
  • the head ( 5 ) or the pressure roller ( 37) is made of a heat-resistant material, a heating element is attached to the pressing surface (5a), and the coating film transfer tool is made oval.
  • FIG. 27 shows a rooster image in which a white pressure-sensitive transfer coating (1a) is lightly adhered to a substrate (1b) so that its shape is maintained in a film form.
  • Storage section (3) for storing the regular tape (1) wound around the delivery reel (2) in a roll so that it can be delivered, and a storage section A pressure head (5) presses the coating film (1a) of the tape (1) sent out from (3) against the surface to be transferred (6).
  • FIG. 6 shows the transfer film transfer device provided, the tape ( 1 ) passes from the delivery reel ( 2 ) to the pressure surface of the pressure head ( 5 >) Passing through (5 a) side, the winding reel (7) is rotatable around the axis substantially parallel to the rotation axis of the delivery reel (2). Then, an interlocking mechanism (21 ⁇ , and the tape ( 1 ) is fed out from the delivery reel ( 2 ).
  • a take-up reel (7) is configured to take up the substrate (lb) after being transferred,
  • the speed motor (21) is fixed to a large diameter pulley (18) fixed to a delivery reel (2) and a take-up reel (7>). It consists of a rubber power transmission belt (20) wrapped around a small diameter pulley (19) and a take-up reel (7).
  • the number of revolutions is set higher than the number of revolutions of the delivery reel (2) so that the fluctuation of the winding diameter of the tape (1) with respect to the reels (2) and (7) is In spite of this, the winding speed by the take-up reel (7) is always faster than the delivery speed from the delivery reel (2).
  • the speed difference between the winding speed by the take-up reel (7) and the delivery speed from the delivery reel (2) should be transmitted. Excessive tension acts on the tape (1) due to absorption by the slip between the root (20) and the pulleys (2a), (19).
  • the winding reel ( 7 ) is configured to reliably wind the winding reel ( 7 ) while preventing the winding.
  • the pressure head (5) has a linear shape along the width direction of the tape at the downstream end of the pressure head (5) in the running direction of the pressure surface (5a).
  • the edge (32) of the case (6) is formed and includes the pressure surface (5a) and the straight edge (32), and the outer peripheral surface of the case (6)
  • the imaginary surface (T) in contact with (6i> intersects with the case (6>).
  • the pressure head (5) consists of a fixed head (A) fixed to the case (6) and a Extending/retracting heads (B), (C) sliding against the base (6) are provided, and the retracting heads (B), ⁇ C) are attached Proceed and retract as appropriate so that the pressure surfaces (Bl) and (C1) are flush with the pressure surface (A1) of the fixed head (A), and the pressure head ( 5) It is configured so that the pressure width in the width direction of the tape against the coating film (la) can be changed.
  • each of the advance/retreat heads (B) and (C) has a Long through-holes (B2>, (C2) are formed through the holes, and these through-holes (B2), (C2) are connected to the inner peripheral surface and the fixed head (A).
  • the protruding/retracting heads (B) and (C) are moved across the base of the locking pieces (A2) and (A3) so that the pressurizing surfaces (Bl) and (C1) of the protruding and retracting heads (B) and (C1)
  • the case (6) is fitted with springs (B3), (C3>) that urge it to retract inwardly, and the outside of the case (6) Retraction posture is achieved by the contact between the heads ( B 5 ) and ( C 5 ) of the retractable heads ( B ) and ( C ) facing the face side and the case ( 6 ) . being held
  • the heads (B5>, (C5) of the advancing and retreating heads (B), (C) resist the urging force of the shurling (B3), (C3).
  • the locking portions (B4) and (C4) connected to the extension/retraction heads (B) and (C) force the locking pieces (A2) and (A3) to be elastic. It descends while deforming, and when the locking parts (B4), (C4) and the locking pieces (A2), (A3) come into contact with the tip surfaces, the pressure surface ( B 1 ) and ( C 1 ) are held in a protruding posture in which they are substantially flush with the pressure surface ( A 1 ) of the fixed head ( A ).
  • one or both of the protruding and retracting heads (B) and (C) are provided with locking pieces (A2) and (
  • the operation parts (A4) and (A5) of A3) are pressed against the fixed head (A) gills, the locking parts (B4) and (C4) and the locking piece (A2 ), (A3) are released from contact with the tip, and the retracting heads (B), (C) are pulled by the biasing force of springs (B3), (C3).
  • Figures 28 and 29 show another embodiment of the pressure head (5).
  • Three types of pressurizing surfaces (5a) with different pressurizing widths are formed on the outer peripheral surface with phases shifted in the circumferential direction.
  • the head (5) is fitted and fixed to the elastically deformable supporting plates (6j) and (6k) connected to the case (6), and the pressure head (5 ) with respect to the support plates (6j) and (6k), the pressure surface to be in contact with the tape (1) (5a) is modified to change the pressure width in the width direction of the tape with respect to the coating film ⁇ la).
  • a rotating shaft member (5d) is connected to one end of the pressure head (5), and a rotating shaft ( ⁇ 5g) and a different diameter shaft (5e ) and a stepped shaft member ( 5f >) are connected, and one of the support plates ( 6j ) and ( 6k ) has a rotating shaft A fitting hole (6 m) into which the member (5d) is rotatably fitted is formed, and on the other hand, the rotating shaft portion (5 A fitting hole ( 6o) are formed.
  • one or both of the support plates (6j) and (6k) can be made flexible. Disengage the different diameter shaft part (5e) from the different diameter bearing part (6n>) by deformation, and rotate the pressure head (5) to apply the desired pressure. With the wide pressure surface (5a) protruding from the case (6), the different diameter shaft portion (5e) and the different diameter bearing portion (6n) are fitted again. It is configured to be fixed together. In addition, another practical example will be explained.
  • Fig. 30 shows a heating head (41) for transferring the coating film (1a) in the heated portion to the transfer surface (4). ), and this heating head (41) has a heat resistance temperature of about 100 ° C to 200°C of polyester resin or the like as a strength member.
  • a metal foil (41b) as a heat-generating member is adhered to a heat-resistant resin sheet (41b), which is flexible.
  • the heat-generating member may be formed by vapor-depositing a metal on the sheet (41a).
  • raft contact members are detachably arranged side by side to form a pressurizing or heating head.
  • the pressure or heating width in the width direction of the tape may be changed.
  • a head for pressurization or heating is constructed by arranging a plurality of contact members side by side so as to be able to oscillate. It is also possible to change the pressure or heating width in the width direction of the tape against the coating film by rocking so as to retract from the surface.
  • the pressure head in the above example is equipped with a heating element. It's okay.
  • Fig. 31 shows a surface image repair in which a white heat-sensitive transfer coating (la> is lightly adhered to a base material (1b) and its shape is maintained in a film form.
  • a collecting section ( 3 ) is provided for winding the regular tape ( 1 ) around the feeding reel ( 2 ) in a roll shape and collecting it so that it can be fed out.
  • the heat-sensitive transfer coating film (1a) of the tape ⁇ 1) delivered from the collecting part (3) is heated and softened or melted into the case (6) where the tape is fed.
  • Shown is a coating film transfer tool provided with a head (5>) as a transfer part for transferring the material onto a transfer surface (4) while melting.
  • the above-mentioned tail (1) is wound from the delivery reel (2) to the rotating roller (27) and its end is stopped at the take-up reel (7). It is worn.
  • the delivery reel (2) is connected with a main body (2a) having a pair of left and right rotating wheels. , the peripheral surface (2d) coated with non-slip rubber protrudes outward from the case (6) and rolls on the transfer surface (4).
  • the delivery reel ( 2 ) is configured to rotate by At the same time, the delivery reel (2) and the take-up reel (7) are attached to a large diameter pulley ( 18) and a small diameter pulley (19) fixed to the take-up reel (7).
  • the number of revolutions of the take-up reel (7) is determined by the size of the pulleys (18) and (19). More than the winding reel (7) regardless of the variation in the winding diameter of the tape (1) with respect to the reels (2), (7)
  • the winding speed by the winding reel (2) is always faster than the winding speed by the take-up reel (7).
  • the speed difference between the winding speed and the delivery speed from the delivery reel (2) is calculated as the speed difference between the transmission belt (20) and the pulleys (18), (1). Absorbing with the lip prevents the tape (1) from being subjected to a large tension while ensuring the winding reel (7). It is made into a tank so that it can be taken.
  • the transfer section (5) includes a rotating roller (27) around which the tape (1) is wrapped, and It is configured by providing a rotatable heating roller (45) with the peripheral surface (45a) in contact with the coating film (1a) of the tape (1a). It is written.
  • the heating roller (45) has an electric heating element attached to its peripheral surface (45a), and as shown in FIG. , move between a nipping position S where the tape (1) is nipped in cooperation with the rotating roller (27) and a nipping release position where the nipping is released. It is movably pivotally supported and normally held in the release position by the plate panel (5d).
  • the heating roller (45) is brought into contact with the surface to be transferred (4) and moved to the clamping position S against the biasing force of the surface (45c). When it is moved, energization to the heating element is started.
  • the heating roller ⁇ 45 When the heating roller ⁇ 45) is brought into contact with the surface to be transferred (4) and pressed, the heating roller (45) moves to the sandwiching position and generates heat. Energization to the rest is started.
  • the peripheral surface ( 45 a ) of the heating roller ( 45 ) is in contact with the coating film ( 1 a ) to heat and soften or melt the coating film ( 1 a ) . It rotates while melting, and the softened or melted coating film (1a) rolls from the substrate (lb) to its peripheral surface (45a) in a softened or melted state. Move and hold.
  • the coating film (1a> transferred and held on the peripheral surface (45a) of the heating roller (45) is successively transferred to the surface to be transferred. It contacts (4) and is cooled, thereby being adhered to and transferred to the transfer surface (4).
  • the tape ( 1 ) is formed by adhering a sensitive transfer coating film ( 1 a ) to a base material ( lb ) made of resin or paper to maintain its shape in the form of a film. Then, the thermoplastic resin such as ethylene-vinyl tate copolymer contained in the coating film (1a) is softened or melted by heating to form a transfer surface. (4) to be glued.
  • the power supply for the heating element depends on the battery installed in the case (6), but it may be configured to use an external power supply.
  • Fig. 34 shows an ethylene monoacetate vinyl copolymer, an ethylene monoacrylate copolymer and a polymer as the base polymer.
  • amides, polyesters, polycarbonates, cellulose derivatives, polyvinylacetals, phenolic resins, etc. , waxes, plasticizers, tackifiers, antioxidants, fillers, etc. are appropriately added to form a heat-sensitive adhesive layer (1a), which is a transfer film.
  • the tape (1) formed on one side of the base material (1b) is wrapped around the delivery reel (2> in a roll shape and is capable of being delivered.
  • the thermal adhesive layer ( 1 a ) of the tape ( 1 ) fed out from the storage section ( 3 ) and the storage section ( 3 ) is heated and pressed to form a transfer surface.
  • the tape (1) passes from the delivery reel (2) through the heating and pressing surface (5a) side of the head (5) to the delivery reel (2).
  • is hung on a take-up reel ( 7 ) rotatable around an axis substantially parallel to the center of rotation of ( 7 ) and ( 7 ) are interlocked with an interlocking machine ellipse ( 2 1 ) provided on one end face side inside the case ( 6 ), and the tape ( 1 ) delivery reel ( 2)
  • the adhesive layer (1a) is applied to the heating/pressing surface (5a) of the head (5>) as it is delivered from A feeder (K) is provided for winding the substrate (1b) after the layer (1a) has been applied onto a take-up reel (7).
  • the interlocking mechanism (21>) is fixed to a large diameter reel (2a) fixed to a delivery reel (2) and to a take-up reel (7). It consists of a large-diameter pulley (19) and a rubber power transmission belt (20) which are wound on the take-up reel (7). Make the number of revolutions higher than the number of revolutions of the delivery reel (2) so that the winding diameter of the tape (1) with respect to the reels (2) and (7) Despite the variation, the winding speed by the take-up reel (7) was always faster than the delivery speed from the delivery reel (2). At the same time, the speed difference between the winding speed by the take-up reel (7) and the delivery speed from the delivery reel (2) is measured as a transmission belt. A large tension acts on the tape (1) as it is absorbed by the slip between the creto (20) and the pulleys (2a) and (19). to ensure that the winding reel (7) configured to be taken
  • a ratchet gear (110a) is connected to the inner peripheral surface of the case (6) of the small-diameter pulley (19).
  • a ratchet pawl (110b) that engages with the ratchet gear (110a) is fitted and fixed to the case (6), and the tape (1)
  • a ratchet mechanism (110) is provided to prevent the take-up reel (7) from rotating in the event that the delivery reel (2) is pulled.
  • the base material (1b) once wound on the take-up reel (7) is prevented from being ejected, and the base material (1b) is wound as described later.
  • the head (5) can also be used as a heating and pressing means for bonding.
  • a hot air heating element is attached to the heating and pressing surface (5a) of the head (5), and when the switch (SW1) is pushed in with a finger, the case (6) It is configured so that the heat generating body is connected to the internal battery from the internal battery, but the switch (SW 1) is operated by connecting the heat generating body to an external power supply.
  • the tank may be configured so that it is energized by the action.
  • the case (6) is held by hand and the edge (32) of the head (5) is pressed against one of the surfaces to be adhered. Align it with the thick side of the desired adhesion area of the coating surface (4) and press it, and push in the switch (SW1) and move it in the direction of the arrow.
  • the tape (1) is forcibly discharged from the delivery reel (2) by the supply device 3 ⁇ 4 (K) and adhered to it.
  • the adhesive layer ( la ) is applied to the heated pressing surface ( 5 a ) and the adhesive layer ( 1 a ) is softened or dissolved and applied to the coated surface ( 4 ). It is done. At this time, the substrate (1b) after the adhesive eyebrows (la) have been applied is taken up by the take-up reel (7).
  • a thin adherend (4c) such as thin paper constituting the other adherend surface (4a) is applied. Place it on top of the adhesive layer (1a) that has already been applied and press it with the heating and pressing surface (5a) of the head (5>). While pushing the tip (SW1) in, as shown by the arrow, run in the direction opposite to when the adhesive layer (la) was applied. In the state in which the application of the adhesive layer ( la ) is suspended , the already applied adhesive layer ( 1 a ) is attached to both surfaces ( 4 > and ( 4 a ) ) By softening or melting again , both surfaces to be adhered ( 4 > , ( 4 a ) are adhered via the adhesive layer ( 1 a ) ,
  • the heating and pressing member for coating (5) is also used as the heating and pressing means for bonding.
  • the ratchet mechanism (110) acts to force the base material (1b) taken on the take-up reel (7) to There is no danger of being thrown out,
  • Fig. 37 shows the ratchet mechanism (110) provided in the above embodiment for preventing the take-up reel (7) from rotating in reverse.
  • a heating iron (51) as a heating and pressing means for bonding is attached to the case (6) separately from the head (5). Without applying the agent layer ( la ) to the surface ( 4 ) to be coated, When the adhesive ( 1 a ) applied to the surface is heated and pressed to bond the surfaces ( 4 ) and ( 4 a ) together, switch ( SW 2 ) to It is pushed in and passed through a heating iron (51), and heated and pressed by this heating iron (51).
  • Figures 38 to 40 show still another embodiment, and as shown in Figures 38 and 40, the delivery reel (2) has a pair of left and right reels.
  • Rotating wheels (2a) which are main bodies, are connected, and a peripheral surface (2d) coated with non-slip rubber protrudes outward from the case (6).
  • the delivery reel (2) is constructed such that the delivery reel (2) is rotated by being rolled on the surface (4) to be coated by ) and the winding reel (7) are connected to a large diameter pulley (18) fixed to the delivery reel (2) and to the winding reel (7). and a small-diameter pulley (19> that Holding the case (6) by hand and moving the peripheral surface (2d) of the rotating wheel in contact with the surface (4) to be coated while rolling.
  • the adhesive layer (1a) is applied to the heating and pressing surface (5a), and at the same time the tape is adhered.
  • (K) is an ellipse.
  • the case (6) has a rotary mouth roller (27) on which the tape (1) is wound, and a rotary roller (27) on which the tape is wound.
  • Heating roller as a heat-pressing member for application that can be rotated with the peripheral surface ( 45 a >) in contact with the adhesive layer ( la ) of the tape ( 1 )
  • the heating roller (45> is provided with an electric heating element on the peripheral surface (45a), which is the heating and pressing surface.
  • the tape (1) is moved to the nipping position in cooperation with the rotating roller (27), and the nipping is released. It is pivotally supported so as to be able to move between the holding release position and the holding release position, and is normally held at the holding release position by the plates (45c).
  • the heating roller (45) is brought into contact with the surface (4) to be coated and moved to the narrow holding position against the biasing force of the plate panel (45c). When pressed, power supply to the heating element is started.
  • the heating roller (45) when the heating roller (45) is brought into contact with the surface (4) to be coated and pressed, the heating roller (45> moves to the holding position. Then, energization to the ripening body is started, and in this state, the rotating wheel (18) is brought into contact with the surface to be coated (4), and the state is as shown in Fig. 38. When it is moved to the left by the movement of the tape (1), the tape (1) runs due to the action of the feeder tank (K).
  • the peripheral surface ( 45 a ) of the heating roller ( 45 > contacts the adhesive layer ( 1 a > ) and heats or softens the adhesive layer ( 1 a > ) . rotates while being melted, and the softened or melted adhesive layer (1a) is softened or melted from the substrate (lb) to its peripheral surface (45a). It is held transferable in the state.
  • the heating roller (45) rotates, the adhesive layer (1a) transferred and held on its peripheral surface (5a) is gradually displaced. Next, it is pressed against the surface to be coated (4) and is thereby coated on the surface to be coated (4).
  • the adhesive layer (1a) is softened or melted from above again to bond the two adhesive surfaces (4) and (4a) together, ,
  • the switch (SW2) is pushed in and a separately provided heating iron (51) as a means of heating and pressing for adhesion and apply heat and pressure with this heating iron (51) to bond.
  • the adhesive applicator according to the present invention is used to adhere a thin adherend such as paper to an arbitrary location after applying a maturing adhesive layer to the adherend.
  • Fig. 41 shows a correction S film transfer tool for erasing characters or a rooster image formed on a transfer surface (4) such as a recording paper or display plate.
  • a synthetic resin case (6) which can be held with one hand is provided with a coating transfer means (E) for transferring the coating to the transfer surface (4) in the form of a film;
  • a film removing means (H) is provided for removing the substrate transferred to the surface to be transferred (4).
  • Tape ( 1 ) lightly adhered in layers this A delivery reel (2) on which an unused portion of the tape (1) is wound into a roll, and the used portion of the tape (1) is A take-up reel (7) for taking up rolls presses the pressure-sensitive transfer ink (la) of the tape (1) against the transfer surface (4).
  • a pressing head (5) is provided, and the tape (1) unrolled from the delivery reel (2) is pushed by the pressing head (5).
  • a plurality of tape guides (36) passing in front of the pressure surface (5a) and guiding the winding reel (7) are the main constituent members. It is provided as
  • the delivery reel (2) and the take-up reel (7) are rotatably attached to the case (6) around axes parallel to each other.
  • the pressure head (5) is placed on the case (6) in a state of facing the opening (a) formed in the lower part of the case (6). attached to the base (6).
  • a large-diameter pulley (18) formed on the delivery reel (2) and a small-diameter pulley formed on the take-up reel (7) A rubber transmission belt (20) is wound around the reel (19), and the rotation speed of the take-up reel (7) is The number of revolutions of the delivery reel (2) is set higher than the number of revolutions of the delivery reel (2), and regardless of the decrease in the tape winding diameter of the delivery reel (2), The tape winding speed by the take-up reel (7) should always be faster than the tape ejection speed by the delivery reel (2).
  • the speed difference between the tape winding speed and the tape feeding speed is transmitted between the transmission belt (20) and the small diameter pulley. (19), the absorption by the slip between the tape (1) prevents a large tension from being applied to the tape (1), , so that the tape (1) can be reliably wound by the winding reel (7).
  • a linear edge ( 32 ) is formed at the upper end of the pressing surface ( 5 a ) of the pressing head ( 5 ) in the direction of tape feeding and delivery.
  • the pressure-sensitive transfer ink ( 1 a > of the tape ( 1 ) is composed of a suitable mixture of a pigment, a compounding agent, a dispersing agent and the like.
  • the film-like substrate (lb) is a resin (serono, polyimide, boron, etc.) on which a release layer is formed by silicone resin or the like. steel, polyethylene, polystyrene, polypropylene, etc.) or paper (condenser paper, dalacine paper, synthetic paper, (e.g., laminate paper, etc.)
  • the film removing means (H), as shown in Figs. 42 and 43, comprises a slit formed in the plate portion (6j) of the case (6).
  • a manipulator (38) that can be moved up and down along a line (6s), and is detachably engaged with and held by this manipulator (38).
  • a thin metal fitting member ( 59 ) that moves up and down along the inner surface of the side support portion ( 6 j ) as the operation tool ( 38 ) is manufactured . and as main constituent members.
  • the operating tool (38) is fastened and fixed to the falling plate portion (6j) at an arbitrary position within the slit forming range.
  • a screw (38a) for fixing.
  • the scraping member (59) moves the opening (a) of the case (6) by vertical movement of the operating tool (38). It is constructed so that it can be freely switched between a use posture protruding outside through the case (6) and a non-use posture stored in the case (6).
  • the case (6) is held with one hand, and the edge (32> of the pressing head (5) is placed on the transfer surface (4). Align with the starting position and attach the pressing surface (5a) of the pressing head (5) to the surface to be transferred (4) via the tape (1>).
  • the pressure head (5) is moved to the upper side in the direction of feeding the tape,
  • the pressure-sensitive transfer ink (la) of the tape (1) is transferred to the surface to be transferred ⁇ 4) in the form of blisters (transferred to the surface to be transferred (4)).
  • the same number as the pressure-sensitive transfer ink (la) is attached to the coated film).
  • the tape (1) is forcibly delivered from the delivery reel (2) as the pressing head (5) moves.
  • the pressure-sensitive transfer ink (1a) is applied by the take-up reel (7) that rotates in conjunction with the delivery reel (2).
  • the film-like base material (1b) after being transferred to the transfer surface (4) is rolled off.
  • the operating tool (38) is operated downward to switch the scraping member (59) from the non-use posture to the use posture.
  • the screw (38a) is tightened to fix the operating tool (38) to the plate portion (6j).
  • the contacting member (59) of the heat removing means (H) was formed in a flat straight line in the width direction of the tape. 4 As shown in the figure, the scraping member (59) is positioned downward to the central position in the width direction of the tape.
  • the scraping member (59) is formed in a curved arc shape, and when the scraping member (59) is brought into contact with the transfer surface (4), the scraping member ( 59) may be configured to be linearly deformed in the width direction of the tape.
  • the cutting edge of the scraping member (59) firmly adheres to the transfer surface (4) in the width direction of the tape. , the unnecessary pressure-sensitive transfer ink film (1a) transferred outside the transfer region can be more reliably scraped off.
  • Figs. 45 to 47 show another embodiment in which the scraping member (59> of the film removing means (H) is provided at the upper part inside the case (6). An example is shown.
  • both sides of the scraping member (59) in the upper part of the case (6> and switched to the use posture The guide portions (17), (17) for regulating the scraping margin of the scraping member (59) are integrally connected to each other.
  • the scraping allowance (h) between the top surface of the guide portions (17), (17) and the cutting edge of the scraping member (59) is It is recommended to set the film thickness to be the same as or slightly larger than the film thickness of the pressure-sensitive transfer ink (1a) to be transferred to the surface (4).
  • the scraping member (59) is provided with an adjustment function for finely adjusting the scraping margin (h) by the scraping member (59). It may be carried out by attaching it to an operation tool (38) that operates to switch between the posture and the non-use posture.
  • Figures 48 and 49 show another embodiment in which the scraping member (59) of the film removing means (H) is integrally formed on the upper part of the case (6). show.
  • a cover (40) for covering the scraping member (59) is detachably provided on the top of the case (6). be.
  • the scraping member (59) is configured in an L shape having substantially the same width as the upper portion of the case (6), and , The base end of this scraping member (59) is pivotally attached to one end leg on the upper surface of the case (6) so that the scraping member (59) can move freely.
  • (26) in the figure is a magnet that attracts and holds the scraping member (59) in the non-use posture.
  • FIGS. 52 and 53 show another embodiment in which the film removing means (H) is adapted to the adhesive removing method.
  • the adhesion force between the transfer surface (4) and the pressure-sensitive transfer ink (la) is greater than Adhesive layer (111a) with high adhesive strength A tape (51) formed on one side of an ilm-shaped base material (111b) and a tape (111) that can be protruded.
  • a tape storage unit (112) provided with a winding core (112a) for winding in a roll shape in a state, and the tape storage unit (112 )
  • the adhesive eyebrow ( 1 1 1 a ) of the tape ( 1 1 1 ) that is pulled out from the surface ( 1 1 1 ) is transferred outside the transfer area of the transfer surface ( 4 )
  • a pressing head (113) is provided to press against the unnecessary pressure-sensitive transfer ink film (1a>).
  • a hook (114) that covers the tape (111) is detachably provided, and the hook (114) has a front The used part of the tape (111) sandwiched between the case (6) and the cano attached to it (114)
  • a wave-shaped cutting edge (115) for cutting is integrally formed.
  • the tip of the pressure head (113) is attached to the unnecessary tape (111) transferred outside the transfer area via the tape (111>).
  • the pressure head (113) is moved to the upper hand side in the direction of tape ejection while being pressed against the mechanical pressure transfer ink film (1a).
  • the adhesive layer (111a) of the tape (111) is adhered to the unnecessary pressure-sensitive transfer ink film (la). .
  • the tape (111) is moved away from the surface (4) to be transferred, thereby removing unnecessary pressure.
  • the transfer ink film ( la ) can be peeled off from the transfer surface ( 4 ) and transferred onto the adhesive layer ( 11 la ) of the tape ( 111 ) . Wear
  • the tape (111) a commercially available sellotape or the like can be used.
  • the film removing means (H) of the scraping removal method or adhesive removal method was explained, but the method is limited to this removal method.
  • a removal method using a sand eraser or a rough surface may be adopted.
  • the film removing means (H) can remove the coating agent film (1a> transferred to the transfer surface (4). Any refined material may be used as long as the coating material is of a However, it is also possible to use the impression transfer type.
  • the coating agent an opaque transfer ink for erasing characters and a rooster image formed on the transfer surface (4)
  • the covering thorns may be a transparent adhesive for gluing.
  • the tape-like base material (1b) on which the transfer ink (la) is formed in layers was used.
  • the ink (la) itself may be formed into a film, or may be applied in a form of applying liquid ink.
  • the coating agent transfer means (E) It may have any structure as long as it can transfer the coating agent ( la ) to the transfer surface ( 4 ) in the form of a film.
  • Figs. 54 and 55 are for covering and erasing characters and a rooster image formed on a transfer surface (4) such as a recording paper or a display plate.
  • Fig. 2 shows a S-coated transfer tool for modification of .
  • This is a synthetic resin case (6) that can be held with one hand, and a coating agent (1a) is transferred in the form of a film onto the transfer surface (4).
  • a film removing member (58) and a rotational force applying means (L) for applying a rotational force to the heat removing member (58) by manual operation are provided. It is provided.
  • white pressure transfer ink which is an example of the coating agent (1a) is applied to the film substrate (1b).
  • a plurality of tape guides (46) are provided as main components.
  • the delivery reel (2) and the take-up reel (7) are rotatably attached to the case (6) about axes parallel to each other.
  • a large - diameter pulley ( 18 ) formed on the delivery reel ( 2 ) and a small - diameter pulley formed on the take - up reel ( 7 ) A rubber transmission belt (20) is wound over (19) and the winding reel (7) rotates at 0.
  • the number of revolutions of the reel (2) is set higher than the number of revolutions of the reel (2), so that the winding speed is reduced regardless of the decrease in the tape winding diameter of the delivery reel (2). It is configured so that the tape winding speed by the reel (7) is always faster than the tape winding speed by the delivery reel (2).
  • the speed difference between the tape winding speed and the tape winding speed is calculated as the speed difference between the power transmission belt (20) and the small diameter pulley (1). Absorbing by slipping at IS1 prevents the above-mentioned tare (1) from being subjected to excessive tension,
  • the winding reel ( 7 ) is configured to reliably wind the tape ( 1 ).
  • the pressing surface (5a) of the pressing head (5) is formed with a straight edge (32) at the upper and lower ends in the tape feeding direction.
  • the pressure - sensitive transfer ink ( la ) of the tea ( 1 ) comprises a suitable blend of a pigment , a binder , a dispersant and the like , and
  • the film-like base material (1b) is made of a resin (serono, polyimide, polyimide) having a release layer formed of silicone resin or the like. resin, polyester, polyethylene, polystyrene, polypropylene, etc.) or paper (condenser paper, Dalasin paper) , synthetic paper, laminated paper, etc.).
  • the rotational force applying means (L) is constructed as follows. That is, a first rotating shaft (69) for supporting the film removing member (58) and this first rotating shaft ( A second rotary shaft (72) equipped with a large diameter gear (71) that matches a small diameter gear (70) fixed to 69) is parallel to each other. One end of the second rotating shaft (72) protruding outward from the case (6) is provided with a rotating shaft (72). A rolling action knob (73) is mounted.
  • a forced contact type full band ( 14 ) is provided inside the cylindrical recess ( 61 ) formed in the inner surface of the case ( 6 ) . ing. The small-diameter side end of the spiral spring (14) is held by the second rotating shaft (72), and the three-coil spring (1 4> is locked and held in the recess (61).
  • the case (6) is held with one hand, and the edge (32) of the pressing head (5) is placed on the transfer surface (4) to transfer the coating material. Aligning with the transfer start position, the pressure surface (5a) of the pressure head (5) is brought in contact with the transfer surface (4) via the tape (1). ) In this state of pressing against the tape, as shown in FIG. The pressure-sensitive transfer ink (1a) of the tape (1) is transferred to the transfer surface (4) in the form of a film. The same number as the pressure-sensitive transfer ink (la) is marked on the film.
  • the tape (1) is forcibly fed out from the delivery reel (2) as the H'J pressure head (5) moves.
  • the pressure-sensitive transfer ink (la) is applied by the take-up reel (7) that rotates in conjunction with the delivery reel (2).
  • the film-like base material (1b) is rolled off, and then the edge of the press head' (5)
  • (32) reaches the transfer completion position of the coating material on the surface to be transferred (4>)
  • the case (6> is tilted with the aforementioned edge (32) as a fulcrum.
  • the edge (32) presses the transfer end position of the pressure-sensitive transfer ink (la>), and the pressure-sensitive transfer ink at the transfer end position mane Adhesive strength between the hook (1a) and the surface to be transferred (4) is sufficiently increased along the length of the edge (32).
  • the spiral spring (14) is elastically deformed to reduce its diameter one by one from the smaller diameter side. Rotational energy is accumulated in the coil spring (14).
  • the film removing member (58) is brought into contact with the unnecessary pressure-sensitive transfer ink film (1a) transferred outside the transfer area, and the state is changed.
  • the knob (73) is released in this state, the second rotating shaft (72) rotates along with the elastic return of the front knob (14), and further , the rotation of this is transmitted to the first rotating shaft ( 69 ) in an increased speed state through the large - diameter gear ( 71 ) and the small - diameter gear ( 70 ) .
  • the film removing member (58) is rotated at high speed until the none (14) returns to its original state.
  • the rotating film removing member (58) removes the unwanted pressure-sensitive transfer ink (1a) that has been erroneously transferred from the transfer surface (4). It can be scraped quickly and reliably.
  • Fig. 59 shows another practical example of the rotational force applying means (L), in which the film removing member (58) is placed in the upper part of the case (6).
  • a second rotating shaft (80) provided with a second rotating shaft (80) is installed in parallel to each other, and the case is mounted on the second rotating shaft (80).
  • An operating rotary plate (81) is attached to protrude outside through an opening formed in the top of (6).
  • a forced contact type coil spring ( 14 ) is provided in a cylindrical recess ( 62 ) formed on the inner surface of the case ( 6 > ) .
  • the small-diameter end of this full-wound panel (14) is locked and held by one end of the first rotary shaft (77), and the three-wound spring
  • the large diameter oblique end of (14) is locked and held in the recess (62) ,
  • the film removing member (58) includes a rod-shaped sand-erasing rubber (58a) and detachably holds the sand-erasing rubber (58a).
  • the holder (58b) is connected to the other end of the first rotating shaft (77). It is detachably attached to the cylindrical part (77a).
  • a storage chamber (V) is formed.
  • the pressure-sensitive transfer ink (la) is also transferred outside the transfer area due to a mistake in the transfer operation, it will be as shown in Fig. 60.
  • the case (6> is turned upside down and the rotary handle (81) for operation is brought into contact with the transfer surface (4). Move the case ( 6 ) while it is on.
  • the rotational force of the second rotary shaft (80) is transferred to the large-diameter gear (79) and the small-diameter gear ( 68), transmitted to the ⁇ spring (14) via the first rotating shaft (77 ⁇ , and this vortex coil (14) From there, the diameter of the 3 ⁇ 4S coil spring (14) is accumulated.
  • the sand eraser (58a) of the film removing member is removed from the unnecessary pressure-sensitive transfer image transferred outside the transfer region.
  • the 3 ⁇ 4ft coil spring (14) returns to its elasticity.
  • the sand eraser (58a) is rotated at high speed.
  • the rotational force imparting means (L) is of a type that accumulates rotational energy in the spiral spring (14>).
  • a crossed wheel (3) as shown in Figs. 3> inertial force may be used to accumulate rotational energy, and the film removal member (58) and the manual operation unit may be connected by a gear for increasing speed. It may be connected through a rotation transmission mechanism for increasing speed, such as a mechanism.
  • the rotational force application means (L) is to apply a rotational force to the film removing member (58) by manual operation. Anything that can be done with
  • the rotating force applying means (L) shown in Figs. 62 and 63 includes a rotating brush which constitutes the film removing member and which is housed in the case (6).
  • An operating rotary plate (35) protruding outside through an opening formed in the case (6) is attached to the third rotary shaft (34), An anti-slip rubber layer (35a) is formed on the outer peripheral surface of the operation rotary plate (35), and the second rotary shaft ( 28) has a large hoisted pawns car (33) is attached.
  • the film removing member (58>) is described by taking a brush type and a sand eraser type as examples. However, it is not limited to these structures. It may also be carried out using a blade with a tubular shape.
  • the Any structure can be used as long as the coating agent film (1a> transferred to the transfer surface (4) can be removed by rotation. may be implemented using
  • a pressure-sensitive transfer type coating agent was used as the coating agent, but a heat-sensitive transfer type coating agent may be used.
  • the coating agent an opaque transfer ink for erasing characters and a rooster image formed on the transfer surface (4) was used.
  • the coating may be a clear adhesive for gluing.
  • the tape-like base material (1b) on which the transfer ink (la) was formed in a layer was used.
  • the ink (la) itself may be formed into a film, or may be applied in a form of liquid ink.
  • the coating agent transfer means (E) is capable of transferring the coating agent (1a) to the transfer surface (4) in the form of a film. It can be anything as long as it is
  • Fig. 64 shows a modified rooster image in which a white pressure-sensitive transfer coating (la) is lightly adhered to a substrate (1b) and the shape of the film is retained.
  • a pressure head (5) for pressing the transfer film (la) of the tape (1) sent out from 3) against the transfer surface (4) is attached to the case (6).
  • the tape (1) passes from the delivery reel (2) through the pressure surface (5a) side of the pressure head (5) to the delivery reel (2).
  • the interlocking mechanism (21) is fixed to a large diameter pulley (18) fixed to the delivery reel (2) and to the take-up reel (7).
  • a winding reel (7) consists of a small diameter pulley (19) and a rubber transmission belt (20) wound around it.
  • the number of revolutions of the tape (1) is made larger than the number of revolutions of the delivery reel (2) to increase the winding diameter of the tape (1) with respect to the reels (2) and (7).
  • the winding speed by the take-up reel (7) is always faster than the delivery speed from the delivery reel (2) regardless of the variation of At the same time, the speed difference between the winding speed by the take-up reel (7) and the delivery speed from the delivery reel (2) is transmitted. Excessive tension acts on the tape (1) due to absorption by the slip of the root (20) and the early (2a), (19).
  • the winding reel ( 7 ) is configured to reliably wind the winding reel ( 7 ) while preventing the winding.
  • the tape (1) is a peeling layer made of silicone resin or the like.
  • a coating film ( 1a ) is adhered to retain its shape in a film form, and the coating film portion pressurized by the pressurizing head (5) is transferred to the transfer surface (4) via the adhesive layer. It is to be adhered to.
  • the traveling path of the tape (1) sent out from the storage section (3) includes a position above the position corresponding to the head (5). is provided with removing means (I) for removing the side portion of the coating film (1a) from the tape (1) in a freely changeable removal width.
  • the removing means (I) is, as specifically shown in FIGS.
  • a backup roll (90a) rotatably supported while being in contact with the entire width of a (1), and a joint with this
  • the tape ( 1 ) is then sandwiched between them .
  • It is rotatably pivoted in a state of local contact and is provided with an adhesive layer for adhering and peeling off the coating film ( la ) of the tape ( 1 ).
  • It is composed of a removing tool (90) whose main part is a combination of a pair of peeling rollers (0b) and (0c).
  • the stripping rollers (90b) and (90c) are respectively the aforesaid no, 'pick-up rolls (90a)', 'pulling to the side', and 'ne (9 0d) and (90e) are tension-biased to be in the active state, but these are both arm (90 f ) , (90s) It is configured to be pivotally supported on and swingable, and is separated from the above-mentioned tare (1) at the operation Leno, '1 (9Oh), (90i). They are designed so that they can each be held in a standby state. Therefore, the peeling rollers (90b>, (90c) can be separated from the tape (1) together or independently.
  • peeling rollers (90b) and (9Oc) are separated from the side of the coating film (la)
  • a state in which both of the peeling rollers (90b) and (90c) are in contact with the side portions can also be formed, and a plurality of these states can be formed.
  • peeling rollers ( 90 b ) and ( 90 c ) are provided at appropriate positions on their peripheral surfaces with peeling rollers ( 90 b ) and ( 0 c ) .
  • a scraper, ' (90 j), (9 Ok) is attached to scrape off the paint ( la ), and the scraper, ' ( 90"), (90k) to scrape off the coating film (la), and thus adhered and retained on the peeling rollers (90b>, (90c)
  • the coating film ( la ) prevents new adhesion and peeling of the coating film ( 1 a ) by the peeling rollers ( 90 b ) and ( 90 c ) . are designed to prevent
  • the coating film transfer tool of this embodiment even if the width of the coating (1a) of the tape (1) is constant, the tape (1) Since the removal width of the side portion of the coating film ( la ) can be freely changed using the removal tool ( 90 ), the coating film ( 1 a > It becomes possible to change the transfer width of
  • removing means (I) As the removing means (I), as shown in Figs. Scrape off and remove the side portion of the coating film ( la ) above the position corresponding to the head ( 5 ) in the running path of the tape ( 1 ). It is conceivable that a scraper-type removing tool (91) is provided so that the position in the width direction of the tape can be changed. Namely , a holding member ( 9 la ) attached to the case ( 6 ) is formed with a long hole , and the removal tool ( 91 ) is inserted in the long hole .
  • the stripping claw (91b) which is the main part of the tape (1), is inserted as a tape in contact with the tape (1), and the stripping claw (91b) is placed in its appropriate position. It is conceivable that the position in the width direction of the tape can be changed by tightening the bolt (91c) at the position.
  • the removal tool ( 9 1 ) can be used to remove the side portion of the coating film ( la ) so that the removal width can be freely changed , so that the transfer width of the coating film ( la ) can be changed. come to be able to
  • a pressure head (5) is used instead of the pressure head (5) to transfer the coating film (la) of the tare (1) to the surface to be transferred (4).
  • the present invention can of course be applied to the case of transferring a thermal transfer coating film using a film (not shown).
  • the transfer film transfer tool of the present invention can transfer characters and surface images.

Landscapes

  • Adhesive Tape Dispensing Devices (AREA)

Abstract

Applicateur de film de transfert permettant d'appliquer sur une surface un film de transfert coloré. Il n'existait pas, jusqu'à présent, un outil simple et bon marché permettant de transférer de manière efficiente un film de transfert coloré sur la surface désirée. L'applicateur ci-décrit se compose d'une bobine débitrice (2) qui déroule la bande (1) sur laquelle est fixé le film transférable par chaleur ou par pression sur la surface (4), d'une bobine réceptrice (7) sur laquelle s'enroule librement la bande déroulée (1), d'une tête (5) qui est en contact avec la bande (1) déroulée de la bobine débitrice (2) ou avec le film de transfert séparé de la bande (1) et qui les comprime ou les chauffe afin de transférer le film sur la surface (4), et d'un boîtier (6) dans lequel se logent la bobine débitrice (2), la bobine réceptrice (7) et la tête (5). L'applicateur ci-décrit permet, malgré son faible coût, de transférer de manière efficiente, aisée et précise le film de transfert sur la surface désirée. Il simplifie la fixation, l'effacement ou le collage de caractères ou d'images.
PCT/JP1990/000634 1989-05-20 1990-05-18 Applicateur de film de transfert WO1990014299A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
KR1019910700074A KR920701028A (ko) 1989-05-20 1990-05-18 전사막 전사구

Applications Claiming Priority (8)

Application Number Priority Date Filing Date Title
JP5818289 1989-05-20
JP5818389 1989-05-20
JP58186U 1989-05-20
JP58181U 1989-05-20
JP5818189 1989-05-20
JP58182U 1989-05-20
JP58183U 1989-05-20
JP5818689 1989-05-20

Publications (1)

Publication Number Publication Date
WO1990014299A1 true WO1990014299A1 (fr) 1990-11-29

Family

ID=27463616

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/JP1990/000634 WO1990014299A1 (fr) 1989-05-20 1990-05-18 Applicateur de film de transfert

Country Status (5)

Country Link
EP (1) EP0427870A4 (fr)
KR (1) KR920701028A (fr)
AU (1) AU628179B2 (fr)
CA (1) CA2033057A1 (fr)
WO (1) WO1990014299A1 (fr)

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EP0727378A1 (fr) * 1995-02-17 1996-08-21 TIPP-EX GMBH & CO. KG. Dispositif manuel pour appliquer un film d'un ruban porteur sur un substrat
JP2002283795A (ja) * 2001-03-28 2002-10-03 Fujicopian Co Ltd 塗膜転写具
JP2005119145A (ja) * 2003-10-16 2005-05-12 Seed:Kk 転写具および転写膜除去材
JP2007505760A (ja) * 2003-09-15 2007-03-15 サンフォード エル.ピー. クッション付きアプリケータ先端部を備えた移行テープディスペンサ
JP2007069384A (ja) * 2005-09-05 2007-03-22 General Technology Kk 転写具
JP2008279622A (ja) * 2007-05-09 2008-11-20 Nichiban Co Ltd 粘着転写具
USRE40631E1 (en) 1993-02-10 2009-02-03 Berol Corporation Correction tape dispenser
JP2014508083A (ja) * 2010-12-29 2014-04-03 サンフォード エル.ピー. 可変式クラッチ機構及び可変式クラッチ機構を備える修正テープディスペンサ
JP2015174316A (ja) * 2014-03-14 2015-10-05 ゼネラル株式会社 転写具

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US5178717A (en) * 1991-03-06 1993-01-12 Rodriguez Peter A Adhesive applicator
AU666874B2 (en) * 1991-10-02 1996-02-29 Fujicopian Co., Ltd. Instrument for transferring coating film
US5393368A (en) * 1993-02-10 1995-02-28 The Gillette Company Correction tape dispenser
US5499877A (en) * 1993-04-06 1996-03-19 Fujicopian Co., Ltd. Transfer ribbon cassette, a case for enclosing the cassette, and a paint film transfer device having the same
US5685944A (en) * 1994-04-28 1997-11-11 Fujicopian Co., Ltd. Film transfer apparatus and a film transfer roller used therein
DE9407305U1 (de) * 1994-05-02 1994-09-22 Czewo Plast Kunststofftechnik Gmbh, 93073 Neutraubling Vorrichtung zur Abgabe von Auftrags-Material
DE19533567B4 (de) * 1995-09-11 2008-04-24 SOCIéTé BIC Handgerät zum Auftragen einer Markierungsfarbe auf ein flaches Substrat
DE19546581C2 (de) * 1995-12-13 2000-01-20 Silu Verwaltung Ag Vorrichtung zum Aufbringen von klebendem Montageband
DE19609533C1 (de) * 1996-03-11 1997-02-27 Pritt Produktionsgesellschaft Getriebeanordnung zum Antrieb des Spulenkerns einer Aufwickelspule für ein Transferband eines Transferdispensers
JP2000514725A (ja) * 1996-06-05 2000-11-07 コーレス・ホールディング・ツーク・アクチェンゲゼルシャフト フォイルテープの片面上にあるフィルムを転送するための装置
ES2200549T3 (es) * 1998-08-19 2004-03-01 Pritt Produktionsgesellschaft Mbh Aparato para la transferencia de un material aplicado en forma de una pelicula sobre una cinta de soporte, sobre un substrato.
JP2995659B1 (ja) 1998-09-18 1999-12-27 株式会社トンボ鉛筆 塗膜転写具
JP3503052B2 (ja) 1998-09-25 2004-03-02 株式会社トンボ鉛筆 塗膜転写具における転写ヘッド
DE19905901A1 (de) * 1999-02-11 2000-08-17 Michael Grobbel Vorrichtung zum Abrollen und flächenhaften Aufbringen eines Films von einem Trägerband auf ein Substrat
JP2001162989A (ja) * 1999-12-08 2001-06-19 Seed Rubber Kogyo Kk 塗膜転写用ヘッド装置および塗膜転写具
US6675856B2 (en) * 2001-10-23 2004-01-13 Fujicopian Co., Ltd. Coating film transfer tool
BE1015087A3 (fr) * 2002-09-02 2004-09-07 Faco Sa Procede de decoration des cheveux et dispositif a cet effet.
DE102006031173B4 (de) * 2006-07-06 2011-04-14 Henkel Ag & Co. Kgaa Vorrichtung zum Übertragen eines Films von einem Trägerband auf ein Substrat
US20080302487A1 (en) * 2007-06-07 2008-12-11 Closure Medical Corporation Mesh dispenser
US8397784B2 (en) 2010-08-31 2013-03-19 Sanford, L.P. Correction tape dispenser with variable clutch mechanism
US8746313B2 (en) 2010-12-29 2014-06-10 Sanford, L.P. Correction tape re-tensioning mechanism and correction tape dispenser comprising same
US8746316B2 (en) 2011-12-30 2014-06-10 Sanford, L.P. Variable clutch mechanism and correction tape dispenser with variable clutch mechanism
JP6247199B2 (ja) 2014-12-09 2017-12-13 株式会社トンボ鉛筆 塗膜転写具
JP6321537B2 (ja) 2014-12-26 2018-05-09 株式会社トンボ鉛筆 塗膜転写具
US9969590B2 (en) 2016-06-24 2018-05-15 Tombow Pencil Co., Ltd. Horizontal-pull coating film transferring tool
JP7095856B2 (ja) 2017-07-04 2022-07-05 株式会社トンボ鉛筆 塗膜転写具
KR102418033B1 (ko) 2017-07-04 2022-07-07 가부시키가이샤 돔보 엔피쓰 도막 전사구
JP7219943B2 (ja) 2018-03-13 2023-02-09 株式会社トンボ鉛筆 感圧転写修正テープ
CN114474756B (zh) * 2022-01-27 2022-09-06 广东顶峰精密技术有限公司 一种泡棉组装治具

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Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
USRE40631E1 (en) 1993-02-10 2009-02-03 Berol Corporation Correction tape dispenser
EP0727378A1 (fr) * 1995-02-17 1996-08-21 TIPP-EX GMBH & CO. KG. Dispositif manuel pour appliquer un film d'un ruban porteur sur un substrat
JP2002283795A (ja) * 2001-03-28 2002-10-03 Fujicopian Co Ltd 塗膜転写具
JP4538647B2 (ja) * 2001-03-28 2010-09-08 フジコピアン株式会社 塗膜転写具
JP2007505760A (ja) * 2003-09-15 2007-03-15 サンフォード エル.ピー. クッション付きアプリケータ先端部を備えた移行テープディスペンサ
JP4505784B2 (ja) * 2003-10-16 2010-07-21 株式会社シード 転写具および転写膜除去材
JP2005119145A (ja) * 2003-10-16 2005-05-12 Seed:Kk 転写具および転写膜除去材
JP2007069384A (ja) * 2005-09-05 2007-03-22 General Technology Kk 転写具
JP2008279622A (ja) * 2007-05-09 2008-11-20 Nichiban Co Ltd 粘着転写具
WO2008140088A1 (fr) * 2007-05-09 2008-11-20 Nichiban Co., Ltd Dispositif de transfert d'adhésif
US8074695B2 (en) 2007-05-09 2011-12-13 Nichiban Co., Ltd. Adhesive transfer device
JP2014508083A (ja) * 2010-12-29 2014-04-03 サンフォード エル.ピー. 可変式クラッチ機構及び可変式クラッチ機構を備える修正テープディスペンサ
JP2015174316A (ja) * 2014-03-14 2015-10-05 ゼネラル株式会社 転写具

Also Published As

Publication number Publication date
AU5651290A (en) 1990-12-18
CA2033057A1 (fr) 1990-11-21
KR920701028A (ko) 1992-08-10
AU628179B2 (en) 1992-09-10
EP0427870A4 (en) 1991-11-21
EP0427870A1 (fr) 1991-05-22

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