JP6518906B2 - Coating film transfer tool - Google Patents

Description

  The present invention relates to a coating film transfer tool for transferring an adhesive coating film to a surface to be transferred from a paste transfer tape in which an adhesive coating film for adhesion is provided on a substrate tape.

  Conventionally, together with a coating film transfer tool for correction tape (hereinafter, correction coating film transfer tool) for transferring a correction coating film for correcting errors from a transfer tape, for adhesive transfer tape for transferring an adhesive coating film for bonding The coating film transfer tool (hereinafter, the glue film transfer tool) is used. In this specification, a transfer tape provided with a pressure-sensitive adhesive coating film for adhesion is conveniently expressed as a glue transfer tape, but the coating film of the glue transfer tape of the present invention may be a pressure-sensitive adhesive coating film. For example, it is not limited to glue.

JP, 2009-297909, A

  Conventionally, a paste film transfer tool has been disclosed in Patent Document 1 and the like. Since the correction film transfer tool is used to correct errors, there are cases where only one character is corrected, and the amount used per pass is small. For this reason, it is common for the use of the correction film transfer tool not to end over a long period of time after the consumer purchases the correction film transfer tool. On the other hand, a glue film transfer tool is used to stick an object to be attached such as a photo or newspaper cutout to a report sheet or a notebook. For example, when pasting a photo of L size (8.9 cm × 12.7 cm), it is necessary to transfer the paste over a length of about 43 cm if pasting to all four sides of the photo as shown in FIG. 3 is there. For this reason, when a photo of L size is pasted using a glued film transfer tool having a length of 6 m applied to the adhesive coating, it is 43 cm × 14 sheets = 602 cm, so 14 photos are pasted. I just finished using the glue transfer tape. Thus, the adhesive coating of the glue film transfer tool may be used up immediately after the consumer purchases the film transfer tool. Therefore, for the consumer, the glue film transfer tool has a sense of price increase compared to the correction film transfer tool. Therefore, the glue film transfer tool is not acceptable to many consumers as compared with the correction film transfer tool, and the market size is smaller.

  Incidentally, as shown in FIG. 4, by intermittently transferring the pressure-sensitive adhesive film in the form of perforations, the amount of the pressure-sensitive adhesive film used can be reduced, and the film transfer tool can be made to last longer. In particular, if the photograph is attached to the notebook, the adhesive coating does not need to be continuously transferred to the entire circumference of the photograph, and the photograph is adhered only by intermittently transferring it to the entire circumference. Enough adhesion to be obtained. However, in order to intermittently transfer the adhesive coating film in such perforations, it is necessary for the user to repeatedly carry out the fine transfer operation one by one, and it is necessary to carry out a very laborious operation. In addition, a longer adhesive transfer tape can be used to attach more objects, but a longer adhesive transfer tape can increase the size of the film transfer tool, making it difficult to hold it by hand, There is also the problem that the price is high.

  The applicant filed an invention relating to a coating film transfer tool (hereinafter, coating film transfer tool X) capable of solving such problems (Japanese Patent Application No. 2013-225839). The transfer pressing portion of the coating film transfer tool X is a transfer roller, and on the outer peripheral surface of the transfer roller, a portion (hereinafter referred to as a contact portion) where the glue transfer tape contacts the transferred surface when the transfer roller is pressed against the transferred surface. Even when the transfer roller is pressed against the transfer surface, portions where the adhesive transfer tape does not contact the transfer surface (hereinafter, referred to as non-contact portions) are alternately provided. In the coating film transfer tool X, when the adhesive coating is transferred to the transfer surface only at the contact portion and the non-contact portion is at a position facing the transfer surface, the adhesive coating is not transferred to the transfer surface. Even if the transfer roller rotates, the glue transfer tape does not slide on the transfer roller.

  Therefore, in the coating film transfer tool X, the adhesive coating film is transferred onto the transfer surface only by the user moving the film transfer tool continuously on the transfer surface while the transfer roller is pressed against the transfer surface. The intermittent transfer is performed on the transfer surface in the form of perforations. For this reason, when the coating film transfer tool X is used, the number of the objects to be coated can be more easily and easily compared to the conventional coating film transfer tool without increasing the size of the film transfer tool and without requiring the user to perform extra work. Paste can be stuck.

  In the glue film transfer tool, in order to ensure winding of the tape, the base tape after transfer can be brought into contact with the outer peripheral portion of the pay-out side pancake. For this reason, also in the coating film transfer tool X, the base tape after transfer is brought into contact with the outer peripheral portion of the delivery side pancake. However, in the coating film transfer tool X, in order to intermittently transfer the adhesive coating film in the form of perforations, a concave portion is provided on the outer peripheral surface of the transfer roller with which the adhesive transfer tape contacts, When the outer peripheral portion of the delivery-side pancake is brought into contact, it is easy to generate a running failure of the adhesive transfer tape due to the slack of the adhesive transfer tape and a transfer failure of the adhesive coating during film transfer. Among these defects, the problem of a lump of the adhesive coating film being generated at the end of the adhesive coating film transferred to the transfer surface was particularly likely to occur. In the coating film transfer tool X, since the concave portion is provided on the outer peripheral portion of the transfer roller in contact with the glue transfer tape, the outer diameter of the transfer roller in contact with the glue transfer tape is not constant but changes when the transfer roller rotates. . On the other hand, the tape route from the feeding-side pancake to coming into contact with the outer periphery of the transfer roller and coming into contact with the outer periphery of the feeding-side pancake again becomes slightly shorter due to the reduction of the outer diameter of the feeding-side pancake. It hardly changes during one rotation of the transfer roller. Therefore, when there is a place other than the concave portion of the transfer roller at the position where it contacts with the glue transfer tape, the glue transfer tape on the tape route until it comes out from the delivery side pancake and contacts the outer periphery of the delivery side pancake again When the concave portion of the transfer roller is in a position to be in contact with the adhesive transfer tape while it is in a stretched state, the adhesive transfer tape on the tape route is in a slack state. As described above, since the adhesive transfer tape is alternately repeated in a stretched state and in a slack state, the traveling of the adhesive transfer tape becomes unstable, and the adhesive transfer tape is likely to meander. In addition, the end of each perforation of the pressure-sensitive adhesive coating intermittently transferred in the form of perforations is formed by peeling off the transferred pressure-sensitive adhesive coating and the pressure-sensitive adhesive coating remaining on the adhesive transfer tape. It is cut off. In the film transfer tool X, this cutting may be performed in a state where the adhesive transfer tape is slack and the tension of the adhesive transfer tape is reduced, so the transferred adhesive coating and the adhesive remaining on the adhesive transfer tape The adhesive coating film expands when it tears off, and the adhesive coating film that was stretched when it was torn off is pulled back to the transfer surface, and the transferred adhesive coating film on the transfer surface A lump of adhesive coating is generated at the end of the

  The present invention has been made in view of the problems of the coating film transfer tool as described above, and the problem to be solved by the present invention is a coating that is less in the running defect of the paste transfer tape due to the tension change of the paste transfer tape. It is provision of a film transfer tool.

  A coating film transfer tool according to a first aspect of the present invention is a coating film transfer tool for transferring a pressure-sensitive adhesive coating film for adhesion onto a surface to be transferred, which is a paste comprising the substrate tape provided with the pressure-sensitive adhesive coating film. A delivery unit for delivering a transfer tape, a transfer pressing unit for transferring the adhesive coating film onto the transfer surface by pressing the adhesive transfer tape against the transfer surface, and winding up the base tape after transfer The image forming apparatus further includes a winding unit, the transfer pressing unit includes a rotatable transfer roller, and the adhesive transfer tape contacts the transfer surface when the transfer roller is pressed against the transfer surface on the outer peripheral surface of the transfer roller. And non-contacting portions where the adhesive transfer tape does not contact the transfer surface even if the transfer roller is pressed against the transfer surface, and the non-contact portions are the outer peripheral surface of the transfer roller A recess wider than the width of the glue transfer tape provided on the The substrate tape after transfer of the adhesive coating film is brought into contact with the adhesive coating film of the delivery unit and then wound around the winding unit, and a glue transfer tape between the delivery unit and the transfer roller; And / or the adhesive transfer tape and / or the base material in contact with the remaining base material tape transferred to the transfer surface by the transfer roller between the transfer roller and the delivery portion. It is a coating film transfer tool characterized in that a slack prevention member for preventing slack of the tape is provided.

  The coating film transfer tool according to the first and second aspects of the present invention is a coating film transfer tool for transferring a pressure-sensitive adhesive coating film for adhesion onto a surface to be transferred, which is a paste comprising the substrate tape provided with the pressure-sensitive adhesive coating film. A delivery unit for delivering a transfer tape, a transfer pressing unit for transferring the adhesive coating film onto the transfer surface by pressing the adhesive transfer tape against the transfer surface, and winding up the base tape after transfer The image forming apparatus further includes a winding unit, and a slack preventing member that prevents the adhesive transfer tape and / or the base tape after the transfer from sagging, the transfer pressing unit includes a rotatable transfer roller, and the outer peripheral surface of the transfer roller If the transfer roller is pressed against the transfer surface, the adhesive transfer tape contacts the transfer surface, and even if the transfer roller is pressed against the transfer surface, the adhesive transfer tape is transferred onto the transfer surface. Non-contact portions not in contact with the transfer surface are alternately provided, The part is a recess having a width wider than the width of the paste transfer tape provided on the outer peripheral surface of the transfer roller, and the base tape after the transfer comes into contact with the adhesive coating film of the delivery part. The slack preventing member is wound around the take-up portion, and the slack preventing member is in contact with the glue transfer tape and / or the base tape after the transfer between the delivery portion and the transfer roller, to thereby form the glue transfer tape and / or the glue transfer tape. It is a coating film transfer tool which prevents the slack of the base material tape after transfer.

  The coating film transfer tool according to the second aspect of the present invention is characterized in that the slack prevention member comprises a slide member that slides in the coating film transfer tool and an elastic member that presses the slide member. It is a coating-film transfer tool as described in 1st-2nd invention.

  In the coating film transfer tool according to the third aspect of the present invention, the slack prevention member further includes a roller rotatably held by the slide member, and the roller is the paste transfer tape and / or the base tape after the transfer. The coating film transfer tool according to the second aspect of the invention is characterized in that the adhesive transfer tape and / or the base tape after the transfer is prevented from sagging by coming into contact with the above.

  The paint film transfer tool according to a fourth aspect of the present invention is the paint according to any of the items 1-1 or 1-2, wherein the slack prevention member is an elastic member held in the paint film transfer tool. It is a membrane transfer tool.

  In the coating film transfer tool according to the fifth aspect of the present invention, a plurality of the noncontact portions are provided on the outer peripheral surface of the transfer roller, and the adhesive transfer tape in the plurality of noncontact portions does not contact the transfer surface. It is the same, The non-contact portion is provided on the outer peripheral surface at equal angular intervals, The coating film according to any one of the 1-1, 1-2 and 2nd to 4th inventions It is a transfer tool.

  In the coating film transfer tool according to the sixth aspect of the present invention, the transfer pressing portion further includes a rotatable continuous transfer roller, and when the continuous transfer roller is pressed against the transfer surface, the entire outer circumferential surface of the continuous transfer roller is In the coating film transfer tool according to any one of the 1-1, 1-2, and 5-5 inventions, the adhesive transfer tape is in contact with the surface to be transferred over the entire surface.

  In the coating film transfer tool according to the seventh invention, by providing the continuous transfer roller, the length of the base tape in contact with the outer peripheral surface of the transfer roller is short as compared with the case where the continuous transfer roller is not provided. It is a coating-film transfer tool as described in 6th invention characterized by the above-mentioned.

  A paint film transfer tool according to an eighth aspect of the present invention further comprises a casing for at least partially accommodating the delivery unit, the transfer pressing unit, and the winding unit, and 1-1, 1-2, and 2 to 2. 7 is a coated film transfer tool according to any of the inventions.

  The coating film transfer tool according to a ninth aspect of the present invention is the coating film transfer tool according to the eighth aspect, wherein the transfer roller and / or the continuous transfer roller is rotatably held by the casing.

  The coating film transfer tool according to the tenth aspect of the invention further comprises a transfer head held by the casing, wherein the transfer roller and / or the continuous transfer roller is rotatably held by the transfer head. The coating film transfer tool according to the eighth invention.

  In the coating film transfer tool according to the eleventh aspect of the present invention, the base material tape after transfer passes through the continuous transfer roller, advances linearly, and then bends in a predetermined bending direction at a predetermined bending point. The coated film transfer according to the sixth aspect of the present invention, wherein the continuous transfer roller is disposed on the opposite side to the bending direction with respect to a tangent of the outer peripheral surface of the transfer roller passing through the bending point. It is a tool.

  According to the coating film transfer tool of the present invention, it is possible to reduce the running failure due to the tension change of the glue transfer tape.

It is a figure which shows the coating-film transfer tool A of 1st Embodiment of this invention. It is a figure which shows the coating-film transfer tool B of 2nd Embodiment of this invention. It is a figure which shows the state glued to all four sides of the photograph of L version size (8.9 cm x 12.7 cm). It is a figure which shows the state glued to the four sides of the photograph of L version size (8.9 cm x 12.7 cm) like perforation. It is a figure which shows the state glued to the small paper piece of width 6 mm and length 18 mm using coating-film transfer tools X1 and X2. It is a figure which shows the state which intermittent-transferred the adhesive coating film in perforation shape using the coating-film transfer tool which concerns on the Example of this invention. It is a figure which shows the state which has transferred the adhesive coating film to the to-be-transferred surface using the coating-film transfer tool which concerns on embodiment of this invention. FIG. 5 is a view showing the shape of a transfer roller 7A used in Example 1 and Comparative Example 1;

  The coating film transfer tool A of the first embodiment of the present invention is shown in FIG. FIG. 1 (a) is a front view of the coating film transfer tool A with the cover removed, and FIG. 1 (b) is a bottom view of the coating film transfer tool A with the cover set. FIG. 1C is a view showing the transfer roller 7 alone, and FIG. 1D is an M-M cross-sectional view of FIG. 1C.

  As shown in FIG. 1, the coating film transfer tool A delivers a glue transfer tape T obtained by applying a pressure-sensitive adhesive coating film for adhesion to a casing comprising a case 1 and a cover 2 and a substrate tape T1. A transfer head 4 for rotatably holding a transfer roller 7 for transferring a delivery side pancake wound around and a pressure sensitive adhesive coating film to a transfer surface such as paper, a substrate tape after the pressure sensitive adhesive coating film is transferred A winding core 5 for winding T1, an O-ring 6 for transmitting the rotation of the feeding core 3 to the winding core 5, and a slack prevention member 11 are provided. However, the coating film transfer tool according to the present invention is not limited to this, and typically, the feeding portion of the glue transfer tape and the winding for winding the remaining base tape to which the adhesive coating film has been transferred. The transfer roller has a take-up portion, and the adhesive transfer tape is delivered from the delivery side pancake (delivery portion), and after contact with the transfer roller, has a tape route to contact again with the outer periphery of the pancake in the delivery portion. The adhesive coating film is transferred from the adhesive transfer tape to the transfer surface. Furthermore, when the transfer roller is pressed against the outer surface of the transfer roller, the adhesive transfer tape contacts the surface to be transferred, and the contact surface with the adhesive transfer tape, even if the transfer roller is pressed against the surface. Non-contacting portions are alternately provided, and the non-contacting portions are recesses having a width wider than the width of the adhesive transfer tape provided on the outer peripheral surface of the transfer roller, and further the adhesive transfer tape and / or the base tape It can be made into arbitrary forms, such as what is provided with a slack prevention member which prevents a slack.

  In the coating film transfer tool A, the transfer roller 7 is rotatably held by the transfer head 4 held by the case 1 and the cover 2, but the case 1 and the cover 2 are directly transferred without the transfer head 4. The roller 7 may be rotatably held.

  The transfer roller 7 is a substantially cylindrical member, and presses the adhesive transfer tape T against the transfer surface with the surface (peripheral surface) corresponding to the cylindrical side surface, and transfers the adhesive coating on the transfer surface. . For the material of the transfer roller 7, plastics such as polypropylene, polyethylene, polyacetal, and ABS can be used, but if it can withstand the pressing force at the time of coating film transfer, natural rubber, synthetic rubber, or these It is preferable to use rubber which is a mixture containing It is more preferable that the transfer roller 7 has an inner shaft portion made of plastic and only an outer peripheral surface made of rubber. By making the center shaft of the transfer roller 7 of a plastic material, it is possible to easily impart strength to withstand the pressing force at the time of transfer of the coating film. Further, by producing the outer peripheral surface of the transfer roller 7 in contact with the transfer surface with rubber, the friction coefficient between the transfer roller and the transfer surface becomes large, and the transfer roller 7 is pressed against the transfer surface. When 7 is moved, the transfer roller 7 rotates on the transfer surface without slipping on the transfer surface.

  Examples of the rubber material of the transfer roller 7 include natural rubber, silicone rubber, ethylene propylene rubber, acrylonitrile butadiene rubber, styrene butadiene rubber, chloroprene rubber, acrylic rubber, fluororubber, polyurethane rubber, and thermoplastic elastomer.

  As shown in FIG. 1, a concave portion 71 </ b> B having a width slightly larger than the width of the adhesive transfer tape T is provided at the center in the width direction of the outer peripheral surface of the transfer roller 7. The width of the concave portion 71B is preferably larger in the range of 0.3 mm or more and 1.3 mm or less, and more preferably larger in the range of 0.3 mm or more and 0.8 mm or less than the width of the glue transfer tape T. Since the width of the concave portion 71B is larger than the width of the glue transfer tape T, the adhesive transfer tape T passes through the concave portion 71B where the concave portion 71B is located on the outer peripheral surface of the transfer roller 7. As a result, the movement of the adhesive transfer tape T in the width direction is restricted by the width dimension of the recess 71 B, and the adhesive transfer tape T is unlikely to meander on the transfer roller 7. If the difference between the width of the recess 71B and the width of the glue transfer tape T is smaller than 0.3 mm, it may be difficult to attach the glue transfer tape T to the recess 71B. If the difference between the width of the recess 71B and the width of the glue transfer tape T exceeds 1.3 mm, the effect of the meandering prevention of the glue transfer tape T may be reduced.

  The recess 71B is provided not on the entire circumference of the outer peripheral surface but on a part of the outer peripheral surface. Although the concave portions 71B may be either one or a plurality of concave portions, when a plurality of concave portions 71B are provided, it is preferable to provide the concave portions 71B with the same size at equal angular intervals along the rotational direction. When concave portions 71B of the same size are provided at equal angular intervals along the rotational direction, the contact portion where the adhesive transfer tape T contacts the transfer surface and the adhesive transfer tape T are transferred on the outer peripheral surface of the transfer roller 7. Non-contact portions not in contact with the transfer surface are alternately provided, and the length at which the adhesive transfer tape T does not contact the transfer surface in the non-contact portion is uniform, and the non-contact portions have equal angular intervals. As a result, when the adhesive coating film is transferred using the transfer roller 7 of the coating film transfer tool A, the adhesive coating film of the same length is transferred in perforations at equal intervals. Even if the transfer roller 7 is pressed against the transfer surface in a state where the recess 71B faces the transfer surface, the adhesive coating on the adhesive transfer tape T in the recess 71B is the transfer transfer surface. It does not touch. In the coating film transfer tool A, as shown in FIG. 1, the cross-sectional shape of the concave portion 71B is an arc shape recessed on the inner peripheral side.

  The recess 71 B does not reach the both sides 72 B of the transfer roller 7. Both side portions 72B delimit the width direction of the recess 71B, and both side portions 72B are flush with the outer peripheral surface of the transfer roller 7. As a result, when the transfer roller 7 is moved on the transfer surface while pressing the transfer roller 7 in a state where the concave portion 71B faces the transfer surface, the transfer roller 7 rotates with almost no slippage with respect to the transfer surface. . When the transfer roller 7 is pressed against the transfer surface at a position where the concave portion 71B of the transfer roller 7 does not face the transfer surface, the adhesive transfer tape T contacts the transfer surface. When the coating film transfer tool A moves on the transfer surface in this state, the adhesive coating film is transferred from the paste transfer tape T to the transfer surface, and the transfer paste tape T is fed out as the transfer roller 7 rotates. It is fed out from the core 3. On the other hand, at the position where the concave portion 71B of the transfer roller 7 faces the transfer surface, the adhesive transfer tape T does not contact the transfer surface even if the transfer roller 7 is pressed against the transfer surface. In this state, even if the coating film transfer tool A moves on the transfer surface, the adhesive coating is not transferred from the paste transfer tape T to the transfer surface, and the transfer roller 7 is rotated even when the transfer roller 7 rotates. The roller slips on the transfer roller 7 and is not fed out of the delivery core 3.

  As described above, when the coating film transfer tool A moves on the transfer surface while the transfer roller 7 of the coating film transfer tool A is pressed against the transfer surface, the transfer roller 7 moves along with the movement of the coating film transfer tool A. The adhesive transfer tape T is intermittently fed from the delivery core 3 while the adhesive transfer film T on the adhesive transfer tape T is intermittently transferred to the transfer surface. As a result, when the coating film transfer tool A moves on the transfer surface in a state where the transfer roller 7 of the coating film transfer tool A is pressed against the transfer surface, the adhesive coating film is discontinuous on the transfer surface ( So-called (perforated) transferred. In addition, since the adhesive transfer tape T may intermittently slide and not move with respect to the transfer roller 7, the adhesive transfer tape may be used with respect to the distance the coating film transfer tool A has moved to transfer the adhesive coating film. The length by which T is fed out from the delivery core 3 becomes short. Therefore, when the adhesive coating film is transferred onto the transfer surface using the transfer roller 7 of the coating film transfer tool A, as compared with the coating film transfer tool which transfers the adhesive coating film continuously from the coating film transfer tool The length of the (perforated) adhesive coating film transferred from the glue transfer tape of the same length to the transfer surface can be increased. As a result, the coating film transfer tool A does not lengthen the length of the glue transfer tape to be stored, and even if the user does not perform a special operation, more photographs are obtained as compared with the conventional film transfer tool. Materials to be pasted, such as newspaper clippings, can be pasted on report paper and notebooks.

  Further, in the coating film transfer tool in which the recess 71B is provided on the outer periphery of the transfer roller 7, when the recess 71B comes to a position facing the transfer surface, the glue transfer tape T has an outer periphery other than the recess 71B in FIG. The adhesive transfer tape T is stretched by the transfer outer peripheral portion when the recess 71B is at a position not facing the transfer surface while passing through a route of a short distance which is not stretched by a portion (hereinafter, the transfer outer peripheral portion). It goes through the long route of For this reason, in such a coating film transfer tool, the tension of the glue transfer tape T which is fed out from the delivery side pancake by the rotation of the transfer roller 7 and contacts the outer periphery of the delivery side pancake again changes.

  That is, due to the rotation of the transfer roller 7, the adhesive transfer tape T alternately repeats a stretched state and a slack state. Then, when the adhesive transfer tape T is in a slack state, the adhesive coating is not transferred, and the adhesive coating on the transfer surface and the adhesive coating on the adhesive transfer tape are torn apart. There is a possibility of getting worse. However, in the coating film transfer tool A, a constant tension is applied to the adhesive transfer tape T by the slack prevention member 11, and the tension of the adhesive transfer tape T is reduced by the rotation of the transfer roller 7, and the adhesive transfer tape T is When the sagging starts, the sagging member 11 takes the sagging, so that the adhesive coating on the surface to be transferred and the adhesive coating on the adhesive transfer tape are torn off in a state where the adhesive transfer tape T is stretched, and the adhesive Good cutting of coating film.

  As shown in FIG. 1A, the slack prevention member 11 of the coating film transfer tool A is an elastic member that presses the slide member 11A and the slide member 11A provided slidably with respect to the case 1 in the direction of the glue transfer tape T. It is comprised by the member 11B. The case 1 is provided with a rail portion 1A which slidably holds the slide member 11A. When the slide member 11A is mounted on the rail portion 1A, the slide member 11A moves the slide member 11A away from the glue transfer tape T, Or it can move only on a straight line approaching. The elastic member 11B is a coil spring, and is mounted between the spring receiving portion 1B of the case 1 provided at one end of the rail portion and the pressing piece 11AA provided on the slide member 11A. It is pressing in the direction. At the end of the slide member 11A on the side of the paste transfer tape T, a contact portion 11AB is provided which contacts the paste transfer tape T to take up the slack of the paste transfer tape T and stretch the paste transfer tape T. The contact portion 11AB preferably has a curved surface as shown in FIG. 1A at a position where the contact portion 11AB is in contact with the adhesive transfer tape T so as not to be a load as much as possible with respect to traveling of the adhesive transfer tape T. When considering that the load on the adhesive transfer tape T is not as high as possible, the contact portion 11AB of the slack prevention member 11 with the adhesive transfer tape T may be a rotatable roller attached to the slide member 11A. , More preferred.

  The force by which the elastic member 11B presses the slide member 11A is such a small force that the load of the adhesive transfer tape T does not run as much as possible even if the contact portion 11AB contacts and presses the adhesive transfer tape T Is preferred. On the other hand, when the tension of the adhesive transfer tape T is lowered, the slide member 11A is smooth with a light force so that the adhesive transfer tape T can be immediately stretched so that the adhesive transfer tape T does not sag. It is preferable to be movable.

  In the coating film transfer tool A, the moving range of the slide member 11A is regulated by the stopper 1C. The adhesive transfer tape T is not tensioned more than the contact portion 11AB of the slide member 11A removes the slack of the adhesive transfer tape T generated by the recess 71B of the transfer roller 7 by the stopper 1C.

  In the coating film transfer tool A, the slack prevention member 11 is configured by the slide member 11A and the elastic member 11B of the coil spring, but the slack prevention member 11 of the present invention is not limited to this form. The anti-sagging member 11 of the present invention may be any member that can prevent the sagging in the adhesive transfer tape T in contact with the adhesive transfer tape T. For example, a thin plate-like metal spring is directly attached to the adhesive transfer tape T It is also possible to make it contact and to make it a slack prevention member.

  In the coating film transfer tool A, the contact portion 11AB of the slack prevention member 11 contacts the adhesive transfer tape T between the delivery core 3 and the transfer roller 7 (hereinafter, delivery side), and the slack of the adhesive transfer tape T is Although the slack preventing member according to the present invention is not the feeding side, the slack of the base tape T1 after the adhesive coating film transfer between the transfer roller 7 and the feeding core 3 (hereinafter, the winding side) is employed. It is also possible to take the slack of the tape on both the delivery side and the take-up side.

  The cross section of the transfer roller 7 of the coating film transfer tool A has a shape as shown in FIG. 1 (d). In the coating film transfer tool A, the adhesive coating film is a transfer target surface only while the transfer roller 7 presses the adhesive transfer tape T against the transfer target surface at the transfer outer peripheral portion other than the concave portion 71B in FIG. Is transferred to In the coating film transfer tool A, the adhesive coating film is transferred to the transfer surface while the transfer outer peripheral portion is pressing the transfer surface even if it is a little, and the glue transfer tape T is fed out from the delivery side pancake Because of this, tension is applied to the adhesive transfer tape T on the delivery side during this period. On the other hand, at the time of starting to transfer the adhesive coating film, the contact portion 11AB of the slide member 11 is pushed out by the elastic member 11B. Then, the adhesive transfer tape T is in a state of being pushed out from the normal traveling route connecting the transfer head 4 and the outer periphery of the delivery side pancake by the contact portion 11AB. Therefore, at the time when the adhesive coating starts to be transferred, the traveling route of the transfer tape T is firstly connected to the transfer head 4 and the outer periphery of the delivery side pancake by the tension acting on the transfer tape T on the delivery side. The contact portion 11AB is pushed back until it becomes a root (hereinafter, a normal root). Since the transfer tape T is not fed out from the delivery side pancake while the contact portion 11AB is being pushed back, the winding core 5 interlocked with the delivery core 3 is not rotated. Therefore, during this time, the adhesive tape is transferred and the base tape T1 extruded from the transfer head 4 is not wound up, and a sag (hereinafter referred to as a slack at the time of return) is generated. When the traveling route becomes a normal route, the transfer tape T is delivered from the delivery side pancake, the take-up core 5 interlocked with the delivery core 3 is rotated, and the base tape T1 is taken up. In the coating film transfer tool A, in order to shorten the length per perforated adhesive film coating to be transferred, the length in the circumferential direction of the transfer outer peripheral portion is shortened. For this reason, the slack at the time of return is eliminated in a very short time, and the substrate tape T1 does not cause a running defect due to the slack at the time of return. Thus, during transfer of the adhesive coating film, the contact portion 11AB of the slack prevention member 11 of the coating film transfer tool A is being pushed back by the tension of the transfer tape T, or normal traveling It is pushed back until it reaches the root.

  When the adhesive coating film is transferred and the transfer roller 7 is further rotated, the transfer outer peripheral portion is separated from the transfer surface. When the transfer outer peripheral part separates from the surface to be transferred, the adhesive transfer tape T passes from a long route of the distance stretched by the transfer outer peripheral part of the transfer roller 7 to a route of a short distance not stretched by the transfer outer peripheral part. Since the delivery side pancake does not rotate, the take-up core 5 that rotates in conjunction with the delivery core 3 also does not rotate. As a result, in the coating film transfer tool A, the adhesive transfer tape T on the delivery side and the base tape T1 on the take-up side simultaneously sag (hereinafter referred to as sag due to the recess) at the moment when the transfer outer peripheral portion separates from the transfer surface. Begins to occur. On the other hand, when the adhesive transfer tape T on the delivery side and the base tape T1 on the take-up side begin to sag due to the recess, the traveling route of the adhesive transfer tape T becomes the normal route for the contact portion 11AB of the slack prevention member 11 It is in the state of being pushed back by the tension of the adhesive transfer tape T. When the adhesive transfer tape T on the delivery side and the base tape T1 on the take-up side begin to sag due to the recess, the tension of the adhesive transfer tape T does not act on the contact portion 11AB, so the contact portion 11AB is immediately by the elastic member 11B. It is pushed out. For this reason, both the adhesive transfer tape T on the delivery side and the base tape T1 on the take-up side are in an immediately stretched state with almost no slack. As described above, in the coating film transfer tool A, even if the adhesive transfer film T passes through the inside of the concave portion 71B of the transfer roller 7 and the adhesive film is not transferred, the adhesive transfer tape T on the delivery side and the winding side Since both the base tape T1 and the base tape T1 are maintained in a stretched state, the adhesive coating film transferred to the transfer surface and the adhesive coating film remaining on the base tape T1 are reliably cut, and the adhesive coating film Good cutability.

  While the transfer outer peripheral portion presses the transferred surface, the tension acting on each of the adhesive transfer tape T on the delivery side and the base tape T1 on the take-up side is divided by the transfer roller 7. Therefore, different tensions act on the glue transfer tape T on the delivery side and the base tape T1 on the take-up side. However, the tension acting on each of the adhesive transfer tape T on the delivery side and the base tape T1 on the take-up side at the moment when the transfer outer peripheral part is separated from the transfer surface is not divided by the transfer roller 7. For this reason, when slack starts to be generated by the recess on the transfer tape T on the delivery side of the coating film transfer tool A and the base tape T1 on the take-up side, whichever of the transfer tape T on the delivery side and the base tape T1 on the take-up side If you take the slack on the other hand, it is possible to take both slacks. Therefore, the slack prevention member of the present invention may be provided on either the delivery side or the winding side, or may be provided on both the delivery side and the winding side.

  In terms of using the adhesive coating film without waste, it is preferable to provide the slack prevention member on the delivery side. When the slack prevention member is provided on the winding side, the adhesive transfer tape T is pulled out to the winding side by removing the slack. As a result, the leading end of the adhesive coating film which is cut in the previous transfer and remains on the base tape T1 advances to the winding side. When the advancing length is large, when the transfer roller 7 rotates and the transfer outer peripheral portion starts pressing the adhesive transfer tape T against the transfer surface again, the front end of the adhesive coating film is the transfer outer peripheral portion. It may advance to a place where it can not be pressed. The front end portion of the adhesive coating film which can not be pressed at the transfer outer peripheral portion is not transferred to the transfer surface, and is wound around the winding core 5 together with the base tape T1.

  The force applied to the transfer tape T or the base tape T1 to remove the slack of the transfer tape T or the base tape T1 does not become a load of running the transfer tape T or the base tape T1. Preferably, it is as small as possible. When the concave portion 71B of the transfer roller 7 of the coating film transfer tool A rotates from the state of facing the transfer surface, the transfer outer peripheral portion starts pressing the transfer surface, and tension acts on the transfer tape T and the base tape T1. It is important that, due to the tension, the contact portion 11AB of the advanced slack prevention member 11 is pulled back to the advanced position to take up the slack. If the contact portion 11AB is not pushed back to the original position, the slack prevention member may not be able to take up the slack when the transfer tape T or the base tape T1 sags again. Also from this point of view, it is preferable that the force applied to the transfer tape T or the base tape T1 by the slack prevention member of the present invention is as small as possible.

  On the other hand, it is important that the slack prevention member of the present invention is one in which the contact portion 11AB smoothly advances and retreats when the transfer tape T or the base tape T1 is slackened. In the coating film transfer tool A, the contact of the slack preventing member 11 occurs in a short time until the transfer outer peripheral portion of the transfer roller 7 does not press the transferred surface and the next transfer outer peripheral portion presses the transferred surface again. If the part 11AB is advanced and returned to the original position again, the sufficient effect as a slack prevention member can not be exerted, and the cuttability of the adhesive coating may not be sufficiently improved. For this reason, it is preferable that the anti-sagging member 11 can be smoothly advanced and retracted.

  In the paste transfer tape of the present invention, an organic polymer film support and a paper support are preferably used as a support to be a base tape. As the organic polymer film support, various film supports such as polyester film, polycarbonate film, polymethyl methacrylate film, polypropylene film, polyimide film and the like can be used, but polyester film is particularly preferable in terms of cost and performance. The film thickness of the film support is preferably in the range of 6 to 50 μm from the viewpoint of transferability and cost, and more preferably 12 to 25 μm. In addition, as the paper support, although high density paper such as glassine paper and clay coated paper, laminated paper in which a resin film such as polyethylene is laminated on kraft paper or high quality paper can be used, cost and The use of glassine paper is preferred in terms of performance. The thickness of the paper support is preferably in the range of 20 to 50 μm.

  Incidentally, these supports are sheets having releasability on both sides by applying a release agent such as a silicone compound, a fluorocarbon resin, a fluorosilicone resin or the like on the surfaces of both sides of the support (hereinafter referred to as release sheet It is preferable to use it as

  The pressure-sensitive adhesive composition used to form the pressure-sensitive adhesive layer in the adhesive transfer tape of the present invention is not particularly limited, and a general pressure-sensitive adhesive composition can be used, but an acrylic copolymer and a crosslinking agent It may be an essential component, and if necessary, one containing a tackifying resin can be suitably used.

  Examples of the acrylic copolymer include monomers having one or two or more kinds of (meth) acrylic acid alkyl ester having 4 to 18 carbon atoms in the alkyl group and another copolymerizable ethylenically unsaturated bond. Copolymers with one or more species can be mentioned.

  Examples of the (meth) acrylic acid alkyl ester include n-butyl (meth) acrylate, isobutyl (meth) acrylate, hexyl (meth) acrylate, 2-ethylhexyl (meth) acrylate, n-octyl (meth) acrylate and isooctyl (Meth) acrylate, isononyl (meth) acrylate, lauryl (meth) acrylate, stearyl (meth) acrylate and the like.

  Examples of the copolymerizable ethylenically unsaturated bond-containing monomer include acrylonitrile, methyl (meth) acrylate, ethyl (meth) acrylate, propyl (meth) acrylate, isopropyl (meth) acrylate, cyclohexyl (meth) acrylate, and the like. Styrene, α-methylstyrene, vinyl acetate, N-vinyl-2-pyrrolidone, benzyl (meth) acrylate, 2-hydroxyethyl (meth) acrylate, 2-hydroxypropyl (meth) acrylate, acrylic acid, methacrylic acid, itacon An acid, fumaric acid, etc. are mentioned. In the production of the acrylic copolymer, as a monomer having a copolymerizable ethylenic unsaturated bond, a monomer having a functional group capable of reacting with a crosslinking agent described later (for example, a monomer having a carboxyl group) is used as an essential component can do.

  As tackifying resins, rosins, rosin phenol resins, and their ester compounds, rosin resins such as metal salts, terpene polymers such as terpene polymers, terpene phenol resins, aromatic modified terpene resins, styrene resins, Examples include coumarone-indene resin, alkylphenol resin, xylene resin, C5 petroleum resin, C9 petroleum resin, alicyclic hydrogenated resin and the like, but they are excellent in compatibility with acrylic copolymer and acrylic copolymer When used as a polymer, it is preferable to use a rosin-based resin or terpene-based resin of a natural resin type that exhibits good adhesiveness and initial tackiness to adherends such as paper and various films.

  Moreover, in the pressure-sensitive adhesive composition in the present invention, as a crosslinking agent used to crosslink the acrylic copolymer, for example, hexamethylene diisocyanate, xylylene diisocyanate, tolylene diisocyanate, 2-chloro-1, 4- Diisocyanate compounds such as phenyl diisocyanate, trimethylhexamethylene diisocyanate, 1,5-naphthalene diisocyanate, isophorone diisocyanate, biuret-type trimers of these diisocyanate compounds, isocyanurate-type trimers, isocyanate-based crosslinking agents such as triisocyanate, epoxy type A crosslinker, a melamine based crosslinker, a metal chelate based crosslinker, an adduct of a polyol such as trimethylolpropane and the like, and the like can be mentioned and can be appropriately selected and used.

  An inorganic or organic coloring agent may be added to the pressure-sensitive adhesive composition as long as the adhesive property, tackiness, film-breaking property and the like are not inhibited, and the adhesive layer may be colored.

  The thickness of the pressure-sensitive adhesive layer is preferably in the range of 5 to 35 μm, more preferably in the range of 10 to 25 μm, in consideration of adhesion to a paper surface or the like, holding power, and film cutting properties. The pressure-sensitive adhesive layer can be formed by applying the pressure-sensitive adhesive composition using, for example, a bar coater, a roll coater, a gravure coater, a knife coater, a die coater, a comma coater, a lip coater or the like.

  The coating film transfer tool B of the second embodiment of the present invention is shown in FIG. FIG. 2A is a front view of the coating film transfer tool B in a state in which the cover is removed, and FIG. 2B is a bottom view of the state in which the cover of the coating film transfer tool B is set. FIG. 2C is a view showing the details of the transfer head.

  In the coating film transfer tool B, in addition to the transfer roller 7, the continuous transfer roller 8 and the angle changing roller 10 are rotatably supported by the transfer head 4 held by the case 1 and the cover 2. The same as the transfer tool A. In the coating film transfer tool B, the transfer roller 7, the continuous transfer roller 8 and the angle change roller 10 are rotatably held by the transfer head 4 held by the case 1 and the cover 2, but not via the transfer head 4. The case 1 and the cover 2 may directly hold any or all of the transfer roller 7, the continuous transfer roller 8 and the angle changing roller 10 so as to be rotatable.

  The continuous transfer roller 8 is a cylindrical member, and like the transfer roller 7, the adhesive transfer tape T is pressed against the surface to be transferred by the surface (outer peripheral surface) corresponding to the side surface of the cylindrical shape, Transfer to the transfer surface. For the material of the continuous transfer roller 8, the same plastic as that of the transfer roller 7 can be used, but if it can withstand the pressing force at the time of coating film transfer, rubber or the like is used similarly to the transfer roller 7. It is preferable to do. Similar to the transfer roller 7, the continuous transfer roller 8 preferably has an inner shaft portion made of plastic and only an outer peripheral surface made of rubber. By making the central shaft of the continuous transfer roller 8 of a plastic material, it is possible to easily impart strength to withstand the pressing force at the time of transfer of the coating film. Further, by manufacturing the outer peripheral surface of continuous transfer roller 8 in contact with the transfer surface with rubber, the friction coefficient between continuous transfer roller 8 and the transfer surface is increased, and continuous transfer roller 8 is pressed against the transfer surface. When the continuous transfer roller 8 is moved in the state, the continuous transfer roller 8 rotates on the transfer surface without slipping on the transfer surface. As a rubber material of the continuous transfer roller 8, the same kind of material as exemplified for the transfer roller 7 can be used.

  As in the case of the coating film transfer tool A, when the coating film transfer tool B moves on the transfer surface while the transfer roller 7 of the coating film transfer tool B is pressed against the transfer surface, the adhesive coating film is the transfer surface The image is transferred discontinuously (so-called perforations) upward. In addition, since the adhesive transfer tape T may intermittently slide and not move with respect to the transfer roller 7, the adhesive transfer tape may be used with respect to the distance the coating film transfer tool B has moved to transfer the adhesive coating film. The length by which T is fed out from the delivery core 3 becomes short. Therefore, when the adhesive coating film is transferred to the transfer surface using the transfer roller 7 of the coating film transfer tool B as compared with the coating film transfer tool for transferring the adhesive coating film continuously, the same length is obtained. The length of the (perforated) adhesive coating film transferred from the adhesive transfer tape to the transfer surface can be increased. As a result, in the coating film transfer tool B, the length of the glue transfer tape to be stored is not increased, and even if the user does not perform a special operation, more photographs are obtained as compared with the conventional film transfer tool. Materials to be pasted, such as newspaper clippings, can be pasted on report paper and notebooks.

  Further, similarly to the coating film transfer tool A, in the coating film transfer tool B, the tension of the adhesive transfer tape T is changed by the concave portion 71B. That is, by the rotation of the transfer roll 7, the adhesive transfer tape T alternately repeats a stretched state and a slack state. However, even with the coating film transfer tool B, a constant tension is applied to the adhesive transfer tape T by the slack prevention member 11, and the tension of the adhesive transfer tape T is reduced by the rotation of the transfer roller 7, and the adhesive transfer tape T is When the sagging starts, the sagging member 11 prevents the sagging, so that the adhesive transfer tape T does not sagging, the cut property of the transferred adhesive coating does not deteriorate, and the adhesive transfer tape T runs It does not cause a defect.

  In the coating film transfer tool B, the transfer roller 7 and the continuous transfer roller 8 are rotatably held by the roller set 9. The roller set 9 is held by the transfer head 4 via a shaft 91B. The shaft portion 91B is rotatable with respect to the transfer head 4. By rotating the shaft portion 91B, the positions of the transfer roller 7 and the continuous transfer roller 8 can be interchanged.

  In the coating film transfer tool B, when the roller set 9 is rotated about the shaft portion 91B and the positions of the transfer roller 7 and the continuous transfer roller 8 are interchanged, the continuous transfer roller 8 transfers the adhesive coating to the transfer surface. It becomes possible. When the adhesive coating film can be transferred onto the transfer surface by the continuous transfer roller 8, the coating film transfer tool B is placed on the transfer surface while the continuous transfer roller 8 is pressed against the transfer surface. When moved, the adhesive coating is continuously transferred onto the transfer surface.

  The continuous transfer roller 8 has a cylindrical shape with no unevenness on the outer peripheral surface, and when the continuous transfer roller 8 is pressed against the transferred surface, the adhesive transfer tape contacts the transferred surface over the entire outer peripheral surface of the continuous transfer roller 8 Do. Therefore, when the coating film transfer tool B moves on the transfer surface while the continuous transfer roller 8 of the coating film transfer tool B is pressed against the transfer surface, the adhesive coating film is continuously transferred to the transfer surface. Can.

  In the coating film transfer tool B, by replacing the positions of the transfer roller 7 and the continuous transfer roller 8, perforation-like intermittent transfer of the adhesive coating film and the adhesive are performed by the same coating film transfer method shown in FIG. Both continuous transfer of the coating can be performed.

  In the coating film transfer tool B, the angle change roller 10 is also provided rotatably on the transfer head 4. In the coating film transfer tool B, by providing the angle change roller 10, the length of the outer peripheral surface of the transfer roller 7 in contact with the back surface of the glue transfer tape T is shorter than when the angle change roller 10 is not provided. Become. Specifically, in the present embodiment, the base material tape T1 after transfer passes through the angle changing roller 10, advances linearly, and thereafter, a point on the outer periphery of the delivery side pancake (a bending point In the direction of bending in a predetermined direction, and then, progressing in a curved shape along the outer periphery of the pancake. And since the angle change roller 10 is arranged on the opposite side to the bending direction with respect to the tangent of the outer peripheral surface of the transfer roller 7 passing through the bending point, the outer periphery of the transfer roller 7 in contact with the back surface of the glue transfer tape T The length of the surface is shorter than when the angle changing roller 10 is not provided. And since the length is short, the friction force between the transfer roller 7 and the back surface of the glue transfer tape T is smaller in the coating film transfer tool B than in the coating film transfer tool in which the angle changing roller 10 is not provided. Thus, perforation-like intermittent transfer of the pressure-sensitive adhesive coating can be performed more reliably. Further, in the coating film transfer tool B, by using the angle changing roller 10 as a continuous transfer roller, the adhesive coating film can be continuously transferred. When continuous transfer is performed using the angle changing roller 10, the coating film transfer tool B is used in the method shown in FIG. 7 (b).

  As mentioned above, although the coating-film transfer tools A and B which concern on embodiment of this invention were demonstrated, these can have the following effects.

(1)
In the perforation-like intermittent transfer of the pressure-sensitive adhesive coating film, it is preferable that the short-length adhesive film is transferred at short intervals. When the adhesive coating film of a short length can be transferred at short intervals, it is easy to use, for example, when sticking a small object to be attached. In Japanese Patent Application No. 2013-225839 in which a coating film transfer tool X is disclosed, a glue transfer tape having a coating of an adhesive coated on the entire width of a 6 mm wide base tape is accommodated in the example and the adhesive coating is transferred. Then, a coating film transfer tool (hereinafter, referred to as a coating film transfer tool X1) is shown which transfers an adhesive coating film having a width of 6 mm and a length of about 6 mm in perforations at intervals of about 13 mm. When pasting on a small piece of paper 6 mm wide and 18 mm long using the coating film transfer tool X1, as shown in FIG. 5 (a), in one transfer operation, it is located somewhere in the length 18 mm It is only possible to transfer a 6 mm long adhesive coating, but it can not transfer the adhesive coating elsewhere on the paper. Since the adhesive coating film is transferred only to 6 mm in 18 mm, even if the paper piece is stuck to a notebook or the like in this state, the corner of the paper piece floats up and is bent, and the paper piece can not be stuck well. In addition, in order to use the film transfer tool X1 to transfer the adhesive film onto the entire surface of a sheet of 6 mm wide and 18 mm long, it is necessary to change the location many times and repeat the film transfer work. Yes, it takes a lot of work time, and you have to do very laborious work.

  For example, a coating film transfer tool for transferring an adhesive coating film having a width of 6 mm and a length of about 3 mm in the shape of a perforation with respect to the coating film transfer tool X1 by, for example, about 3 mm If at least three 3 mm-wide adhesive film coatings, as shown in FIG. 5 (b), are transferred at a single transfer onto the 6 mm wide and 18 mm long piece of paper. Is transferred. If a piece of paper is pasted to a notebook in this state, the piece of paper will not rise from the notebook even between three 3 mm wide adhesive coatings, so the area of 6 mm wide and 15 mm long is firmly affixed to the notebook be able to. As described above, if the adhesive coating film of a short length is transferred at short intervals, the area to which the adherend is attached and fixed to a notebook or the like can be increased by one transfer. it can.

  In order to intermittently transfer a short length adhesive film at short intervals in a perforation, it is necessary to provide recesses of smaller width on the outer peripheral surface of the transfer roller at smaller intervals by the coating film transfer tool X. However, as described above, in the coating film transfer tool X, the adhesive coating film is cut in a state in which the adhesive transfer tape sags and the tension of the adhesive transfer tape is reduced, so the transferred adhesive coating film and adhesive There is a poor cut with the adhesive coating left on the transfer tape. If concaves of smaller width are provided at smaller intervals by the outer peripheral surface of the transfer roller, not only the adhesive coating film lumps are generated at the end of the transferred adhesive coating on the transfer surface, but also the adhesive coating There is also a problem that the breakage of the adhesive film is further deteriorated, and the adhesive coating film is continuously transferred without cutting the adhesive coating film at all.

  On the other hand, the coating film transfer tools A and B have the above configuration, and easily and intermittently transfer the adhesive coating film having a short length at short intervals as compared with the film transfer tool X1. it can.

(2)
In order to solve the problem that the work of intermittent transfer in the form of perforations is troublesome, the present applicant has proposed Japanese Patent Application No. 2013-225839 concerning Coating Film Transfer Tool X and Japanese Patent Application Relating to Coating Film Transfer Tool Y. It applied for 2014-070841. The transfer pressing portion of the coating film transfer tool Y is a transfer roller, and contact portions and non-contact portions are alternately provided on the outer peripheral surface of the transfer roller. In the coating film transfer tool Y, when the adhesive coating is transferred to the transfer surface only at the contact portion and the non-contact portion is at a position facing the transfer surface, the adhesive coating is not transferred to the transfer surface. Even if the transfer roller rotates, the glue transfer tape does not slide on the transfer roller.

  Therefore, in the coating film transfer tool Y, the user can move the coating film transfer tool continuously on the transfer surface while the transfer roller is pressed against the transfer surface. The intermittent transfer is performed on the transfer surface in the form of perforations. For this reason, when the coating film transfer tool Y is used, the number of the objects to be coated can be more easily and easily compared to the conventional coating film transfer tool without enlarging the film transfer tool and without requiring the user to do extra work. Paste can be stuck.

  In addition, since the coating film transfer tool Y alternately repeats the stretched state and the slack state of the paste transfer tape of the film transfer tool X, it is possible to solve the problem that the traveling of the paste transfer tape becomes unstable.

  Furthermore, in the coating film transfer tool Y, the coating film transfer is performed by providing a convex portion on both sides in the rotational axis direction of the transfer roller at a portion wider than the width of the glue transfer tape on a part of the outer periphery of the transfer roller. Perforated intermittent transfer similar to tool X is possible. When the transfer roller is pressed against the transfer surface so that the convex portion of the transfer roller of the coating film transfer tool Y faces the transfer surface, the convex portion contacts the transfer surface, and the adhesive coating film is transferred to the transfer surface. Do not contact with For this reason, if the coating film transfer tool Y is used, like the coating film transfer tool X, the adhesive coating film can be intermittently transferred in the form of perforations even if the user does not perform extra work. Further, in the coating film transfer tool Y, since the outer diameter of the portion of the transfer roller in contact with the paste transfer tape can be made constant, there is no change in tension of the paste transfer tape like the coating film transfer tool X. Thus, in the coating film transfer tool Y, since the tension of the glue transfer tape does not change, the traveling of the glue transfer tape does not become unstable as in the coating film transfer tool X.

  However, in the coating film transfer tool Y, the coating film transfer tool Y is lifted because the entire coating film transfer tool Y is lifted by the height of the projection each time the projection of the transfer roller faces the surface to be transferred. When used, the entire coating film transfer tool Y vibrates with the rotation of the transfer roller, causing the user to feel uncomfortable and difficult to use.

  On the other hand, the coating film transfer tools A and B having the above-described configuration can produce an effect that vibration does not occur at the time of use and that they are easy to use.

  Next, the present invention will be described in more detail based on examples, but the present invention is not limited to these. In the following, "part" means "part by weight", and the coating amount, the number of parts, the mixing ratio and the like are all expressed in terms of solid content.

(Manufacture of release sheet)
93 parts of silicone release agent ("KS-3601" manufactured by Shin-Etsu Chemical Co., Ltd.) and 5 parts of platinum catalyst ("cat. PL-50T" manufactured by Shin-Etsu Chemical Co., Ltd.) on one side of a 12 μm-thick polyethylene film And a mixture of 2 parts of silica powder ("Nip Seal E 220A" manufactured by Nippon Silica Kogyo Co., Ltd.) with a gravure coater so that the dry weight is 0.4 g / m ² and hot air drying to form a heavy release surface Then, on the other side of the polyethylene film, 95 parts of silicone release agent ("KS-3650" manufactured by Shin-Etsu Chemical Co., Ltd.) and platinum catalyst ("cat. PL-50T" manufactured by Shin-Etsu Chemical Co., Ltd.) 5 The mixture of parts was coated by a gravure coater so as to have a dry weight of 0.4 g / m ^2, and dried with hot air to form a light release surface, to obtain a release sheet.

(Production of pressure-sensitive adhesive composition)
First, an acrylic adhesive ("SK dyne 801 B" manufactured by Soken Chemical Co., Ltd., containing an acrylic copolymer and a tackifying resin) and 98 parts and a crosslinking agent ("Curing agent L-manufactured by Soken Chemical Co., Ltd." Two parts of 45 ") were mixed to obtain an acrylic pressure-sensitive adhesive composition as a base.

(Manufacture of glue transfer tape)
The pressure-sensitive adhesive composition is coated on the light release surface of the release sheet with a comma coater so as to have a thickness of 20 μm (when dry), dried at 100 ° C. for 3 minutes, and then bonded to the heavy release surface side. The roll was wound into a roll shape, and the roll was further cut into a width of 6 mm in order to be stored in a coating film transfer tool, and wound around a feeding core to obtain a pancake of a glue transfer tape.

  With respect to the adhesive transfer tape having a width of 6 mm, a transfer roller 7A having the shape shown in FIG. The transfer roller 7A was attached to the coating film transfer tool shown in FIG. 1, and the coating film transfer tool of Example 1 was obtained. Next, a coated film transfer tool similar to that of Example 1 was assembled except that the slide member 11A and the elastic member 11B of the coil spring were removed, and a coated film transfer tool of Comparative Example 1 was obtained. A transfer test was carried out using a glue transfer tape in which an adhesive coating was applied to each coating transfer tool over a length of 6 m on a substrate tape. Since the transfer roller 7A has a small outer diameter, it is manufactured using polyacetal so as not to be deformed at the time of transfer pressing due to insufficient strength. The width dimension of the glue transfer tape used for each coating film transfer tool and the width dimension H2 of the concave portion 71B of each roller were measured using a measuring microscope MM-800 manufactured by Nikon Corporation. The measurement results are shown in Table 2.

  The adhesive coating film was transferred using a PPC sheet as a transfer target surface, a pressing force of 5.0 N for pressing the transfer roller against the PPC sheet, and a transfer speed of 5 cm / sec for moving the coating film transfer tool.

  A film transfer test was carried out using the film transfer tool of Example 1 and Comparative Example 1 with about 6 m of the adhesive film still remaining on the pancake of the feeding core 3, and the transferred sewing machine The length of each one of the eye-like pressure-sensitive adhesive coatings and the distance between perforation-like transferred adhesive coatings were measured. Specifically, the transfer length (transfer length of FIG. 6) of nine continuous perforation-like transferred adhesive coatings and the distance between the nine perforation-like transferred adhesive coatings Eight pieces (interval length in FIG. 6) were measured on a metal scale with a minimum scale of 0.5 mm. For each of the nine perforated adhesive film coatings transferred, the presence or absence of a clump of the adhesive film was visually confirmed. The substrate tape of the portion used for the nine perforation-like transfer was confirmed, and the presence or absence of the adhesive coating (adhesion residue) remaining without being transferred to the substrate tape was visually confirmed. Also, from the start of transfer, the adhesive coating on the adhesive transfer tape is continuously transferred until the transfer is completed, while the distance the transfer roller has moved to transfer the adhesive coating, that is, the perforated adhesion transferred The total length of the coating film was measured. The results are shown in Table 3.

A, B: Coating film transfer tool T: Adhesive transfer tape T1: Base material tape 1: Case 1A: Rail section 1B: Spring receiving section 1C: Stopper 2: Cover 3: Delivery core 4: Transfer head 5: Take-up core 6 : O-ring 7: Transfer roller 71 B: Recess 72 B: Both sides 8: Continuous transfer roller 9: Roller set 91 B: Shaft 10: Angle change roller 11: Slack prevention member 11 A: Slide member 11 AA: Press piece 11 AB: Contact portion 11 B : Elastic member

Claims (11)

A film transfer tool for transferring an adhesive film for adhesion onto a surface to be transferred, comprising:
A feeding unit for feeding a glue transfer tape in which the adhesive coating film is provided on a base tape;
A transfer pressing unit that presses the adhesive transfer tape against the transfer surface to transfer the adhesive coating film to the transfer surface;
A winding section for winding the base tape after transfer;
And a slack prevention member for preventing slack of the adhesive transfer tape and / or the base tape after the transfer,
The transfer pressing unit includes a rotatable transfer roller.
On the outer peripheral surface of the transfer roller, the contact portion where the adhesive transfer tape contacts the transfer surface when the transfer roller is pressed against the transfer surface, and the transfer roller is pressed against the transfer surface. Non-contacting portions where the adhesive transfer tape does not contact the transfer surface are alternately provided;
The non-contacting portion is a recess having a width wider than the width of the adhesive transfer tape provided on the outer peripheral surface of the transfer roller,
The base tape after the transfer is brought into contact with the adhesive coating film of the delivery section, and then wound around the winding section,
The said slack prevention member is the adhesive transfer tape between the said delivery part and the said transfer roller, and / or the remainder which transferred the said adhesive coating film to the said to-be-transferred surface by the said transfer roller between the said transfer roller and the said delivery part. Contact with the substrate tape to prevent slack of the adhesive transfer tape and / or the substrate tape after transfer.
Paint film transfer tool. The said slack prevention member is provided with the slide member which slides the inside of the said coating-film transfer tool, and the elastic member which presses the said slide member,
The coating film transfer tool according to claim 1. The anti-sagging member further includes a roller rotatably held by the slide member, and the roller contacts the adhesive transfer tape and / or the base tape after the transfer, whereby the adhesive transfer tape and / or Or preventing the slack of the substrate tape after the transfer,
The coating film transfer tool according to claim 2. The said slack prevention member is an elastic member hold | maintained in the said coating-film transfer tool,
The coating film transfer tool according to claim 1. A plurality of the noncontacting portions are provided on the outer peripheral surface of the transfer roller, and the lengths of the adhesive transfer tapes in the noncontacting portions not contacting the transfer surface are the same, and the noncontacting portions are the outer peripheral surface Provided at equal angular intervals above,
The coating film transfer tool according to any one of claims 1 to 4. The transfer pressing unit further includes a rotatable continuous transfer roller, and when the continuous transfer roller is pressed against the transfer surface, the adhesive transfer tape is transferred onto the entire outer circumferential surface of the continuous transfer roller. Touch the surface,
The coating film transfer tool according to any one of claims 1 to 5. By providing the continuous transfer roller, the length of the base tape in contact with the outer peripheral surface of the transfer roller becomes shorter than when the continuous transfer roller is not provided.
The coating film transfer tool according to claim 6. The apparatus further comprises a case that at least partially accommodates the feeding unit, the transfer pressing unit, and the winding unit.
The coating film transfer tool according to any one of claims 1 to 7. The transfer roller and / or the continuous transfer roller are rotatably held by the housing.
The coating film transfer tool according to claim 8. The apparatus further comprises a transfer head held by the case,
The transfer roller and / or the continuous transfer roller are rotatably held by the transfer head.
The coating film transfer tool according to claim 8. The substrate tape after transfer is configured to advance linearly after passing through the continuous transfer roller, and thereafter to bend in a predetermined bending direction at a predetermined bending point,
The continuous transfer roller is disposed on the opposite side of the bending direction with respect to a tangent of the outer peripheral surface of the transfer roller passing through the bending point.
The coating film transfer tool according to claim 6.

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