JP2001071690A - Transfer tool for tapelike article - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a transfer tool for a tapelike article by which a coating film can be transferred to a specified spot on a small area of a sheet. SOLUTION: In the transfer tool for a tapelike article consisting of a case 2 which retains a supply reel 5 having a coating film to be transferred to one face of a base material and a transfer head 9 which presences the tape axes on a tape supply part of the case 2 to a face to which the coating film is transferred, the face which presses the tape of a transfer head 9 to the face to which the coating film is transferred is bulged 18 projecting to the face to which the coating film is transferred, and a tip of an elastic body has a space parallel with the bulged face 18 formed inside the bulged face 18.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a transfer tool for transferring a coating film of a transfer tape onto a paper surface or the like, and more particularly, to transferring a coating film of a transfer tape by pressing a transfer head against a transfer surface. Also, the present invention relates to a tape-like transfer tool capable of transferring a coating film onto a transfer surface by laterally moving the transfer head in a tape feeding direction while pressing the transfer head against the transfer surface.

[0002]

2. Description of the Related Art Conventionally, a coating material such as a modifying agent, an adhesive, and a coloring agent is provided on a base material such as paper or film having a releasing property, processed into a tape shape, and processed on a transfer surface such as a paper surface. 2. Description of the Related Art A transfer tool having a structure in which a correcting agent, an adhesive, and a coloring agent are pressed and transferred is known.

In the transfer tool, a supply reel and a take-up reel are rotatably disposed in a case body having a transfer head having a pointed tip at one end, and a transfer tape wound around the supply reel is provided. It is folded back through the tip of the head, and the folded part is pressed against the transfer surface such as paper and moved in the tape feeding direction to move the coating such as a correction agent or adhesive on the tape base material. What was transferred to paper (for example, Japanese Patent Publication No. 3-11639) was generally used.

[0004]

However, in such a structure, the transfer head is pressed against a transfer surface such as a paper surface and moved laterally to transfer the coating film to the paper surface. In particular, when the coating film is to be transferred to a predetermined portion of a small area, for example, only one typographical error of JIS 10.5 points, the coating film is transferred so as not to be transferred to an extra portion. Since the moving distance must be strictly controlled, the above structure has a problem in workability. Therefore, a flat transfer surface is provided on a head such as a square bar provided at one end of the transfer tool, and the transfer tape wound on the supply reel is folded back via the transfer surface, and the flat transfer surface is formed on a paper surface or the like. By pressing vertically on the transfer surface,
The applicant of the present invention has proposed in Japanese Patent Application No. 10-50204 a structure in which a coating film of a tape base material is transferred to only a predetermined portion of a small area on the paper surface on a transfer surface of a flat ground shape. However, with such a structure, the transfer surface is inclined due to a slight misalignment of the transfer tool and presses against the paper surface. As a result, the pressing force is concentrated on the one-sided portion, and a uniform coating is applied to a predetermined portion of the paper surface. It was difficult to transfer the film. Also, in the part where the pressing force is insufficient, the peeling between the transferred film and the tape base material is weakened when the transfer surface is separated from the paper surface after the transfer, or the fixing force of the coated film transferred to the paper surface is weak and peels off. There was something.

[0005] In addition, there has been proposed a transfer tool in which an opening is provided at a distal end portion of a transfer tool main body and a push rod is housed in the transfer tool main body such that the push rod can protrude, as disclosed in Japanese Patent Application Laid-Open No. 6-55895. In this structure, at the start of transfer, the tip of the transfer tool main body is aligned with a predetermined position on the paper surface, then the push rod housed inside the main body is pulled out from the opening at the tip end, and the transfer surface at the tip of the push rod is transferred. Since the coating is transferred by pressing the surface, the push rod is pressed vertically to the surface to be transferred, but at the start of transfer, a predetermined part is hidden by the tip of the transfer tool body, and the coating is There has been a problem that the image is not accurately transferred to the spot, or that the transfer portion cannot be visually observed during the transfer, making it difficult to grasp the transfer state. Further, since the push rod is housed in the transfer tool main body, it is impossible to transfer the coating film continuously to the paper surface by moving the transfer head in a state of being pressed against the transfer surface. Was.

SUMMARY OF THE INVENTION In view of the above-mentioned problems of the prior art, it is an object of the present invention to enable easy transfer to a predetermined area having a small area and, if desired, a state in which a transfer head is pressed against a transfer surface. An object of the present invention is to provide a tape-like transfer tool that can transfer a coating film continuously to the paper by laterally moving it.

[0007]

Means for Solving the Problems The present invention relates to "1. A case holding a supply reel wound with a transfer tape provided with a coating film to be transferred onto one side of a base material, and a tape arranged in a tape supply section of the case. In a transfer tool of a tape-like material comprising a transfer head pressing against a transfer surface, a surface of the transfer head pressing the tape against the transfer surface is a bulge surface which is convex on the transfer side surface, and a bulge surface is provided inside the bulge surface. Characterized in that it is an elastic tip tip provided with a void parallel to
Transfer tool for tape-like objects. 2. 2. The tape-shaped article according to claim 1, wherein the space provided inside the bulging surface of the elastic body tip is a space in which the thickness of the bulging surface tip is thinner than the thickness of the side surface of the cavity. Transfer tool. 3. 3. The tape-like transfer tool according to item 1 or 2, wherein the void provided inside the bulging surface of the elastic tip tip is a void communicating with the side face of the tip tip. 4. 4. The tape-like transfer tool according to any one of items 1 to 3, wherein the tip of the elastic body tip is a chip having a bulging surface having an arc-shaped cross section. 5. 4. The tape-like transfer tool according to any one of Items 1 to 3, wherein the tip of the elastic body has a bulging surface with a polygonal cross section. 6. 4. The transfer tool for a tape-like material according to any one of items 1 to 3, wherein the elastic body tip is a rod-like body having an arc-shaped cross section, and the void in the rod-like body is parallel to the rod-like body. This is a tape-like transfer tool, which is a space where the thickness of the tape is thinner than that of the side. 7. 7. The transfer tool for a tape-like material according to any one of items 1 to 6, wherein the transfer tool for a tape-like material is a correction tool for fixing a correction tape to a surface to be transferred in order to correct a mistake or the like. About.

[0008]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In the present invention, an elastic tip of a transfer head is formed such that a surface of the transfer head pressing the tape against a transfer surface is a swelling surface which is convex on the transfer side surface, and a swelling surface is formed inside the swelling surface. The structure with the cavities parallel to the projecting surface is adopted.When this structure is used, when the transfer head is pressed perpendicularly to the surface to be transferred, the swelling surface is easily expanded and deformed to the left and right by collapsing the cavities. This is because the action and effect that the meat on the side surface of the void can strongly press the left and right edges of the coating film can be obtained. If the cavity provided inside the bulging surface of this tip is a cavity in which the thickness of the bulging surface tip is thinner than the wall thickness on the side surface of the cavity, the meat on the side surface of the cavity is coated. The left and right edges can be pressed even more strongly, and when the transfer head is moved laterally while pressed against the surface to be transferred,
This is preferable because the tip of the elastic body has a structure that does not significantly deform as the transfer head moves. The shape of the tip tip may be appropriately selected such as a plate-like body and a rod-like body.

The tip may be formed by integrally forming the entire transfer head with an elastic body, or by joining a tip holder formed of a separate elastic body to a chip holder provided at the tip of the case. Good. The joining method of the tip is welding and bonding.
Alternatively, a method in which a recess is provided below the chip holder and the upper part of the tip is inserted and fitted can be used.

As the material of the tip, an elastomer such as styrene, olefin, ester, nitrile, urethane, vinyl chloride, or other elastomer, silicone rubber, synthetic rubber, or natural rubber may be appropriately selected.

The swelling surface of the tip tip may have an arc-shaped or polygonal cross-section parallel to the side surface, and a cross-sectional shape in which the swelling surface is convex to the transfer-receiving side surface may be appropriately selected. The shape of the cavity of the tip can be appropriately selected from shapes such as a circular cross section, an elliptical cross section, and a polygonal cross section. In addition, the position of the cavity of the tip is arranged inside the bulging surface in parallel with the bulging surface, so as to promote widening deformation of the bulging surface. In addition, it is preferable that the cavity be communicated with the side surface of the tip so that air when the tip is deformed is discharged to the outside and deformation is facilitated. In addition, a thin film-like side wall which does not hinder the deformation of the tip chip unless it is desired to expose the space to the tip chip in terms of external design is provided. May be absorbed.

The pressing means for pressing the transfer head includes:
A method in which pressing force is applied to the transfer head by pressing the transfer tool body is used. Further, it is preferable to provide a guide for preventing the transfer tape from shifting in position so that the transfer tape does not shift laterally from the transfer head. When the transfer tape becomes slack, a method such as a method in which the take-up amount of the take-up reel is slightly larger than the supply amount of the supply reel and the tape is tensioned can be used as the sag preventing means.

As a means for storing the transfer tape after the transfer, a means for storing the used tape such as a method of winding the tape by a take-up reel can be used. By interlocking the supply reel and the take-up reel, it is possible to suitably use a means for transferring the coating film of the transfer tape by laterally moving the transfer head in the tape feeding direction while pressing the transfer head against the transfer surface. A mechanism for preventing the supply reel and the take-up reel from rotating in the reverse direction, for example, a known mechanism such as a ratchet mechanism that locks only in reverse rotation without locking in forward rotation can be appropriately selected. Also, if a reverse rotation prevention mechanism is provided, even if the transfer tool is erroneously moved in the opposite direction to the tape feeding direction, the reels arranged in the case will not rotate and the tape will be misaligned or slack. Is preferred because there is no

The base material of the transfer tape is a capacitor paper,
A paper base such as glassine paper or a plastic base such as polyester film, polyethylene film, polypropylene film, or polyimide film may be appropriately selected. In addition, the coating film provided on one side of the base material also matches the application,
A modifier, an adhesive, a coloring agent, and the like may be appropriately selected.
Further, a release layer may be provided between the substrate and the coating film, or the substrate itself may be subjected to a release treatment. Further, a known transfer tape such as providing an adhesive layer on the outermost layer or providing a layer having other functions in addition to the substrate and the coating film can be used. The case is not particularly limited even if it is transparent or opaque. However, considering the workability at the time of transfer, a transparent case is preferable because the remaining amount of the tape and the work place can be easily confirmed.

[0015]

Embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a diagram illustrating a side surface of a transfer tool according to an embodiment of the present invention.
FIG. 2 is an explanatory diagram near the transfer head of the embodiment.
In this embodiment, the upper side of the transfer tool in the figure is described as an upper side, and the lower side is described as a lower side. In addition, the horizontal direction with respect to the vertical direction will be described as left and right. In this embodiment, a transfer tool for fixing a correction film to a transfer surface in order to correct an erroneous character or the like on the transfer surface will be described.

In FIG. 1, a transfer tool 1 is provided with a supply reel 5 on which a correction tape 4 is wound around a support column 3a provided in a case 2 formed of a transparent resin material.
The take-up reel 6 for winding the correction tape after the transfer to b was rotatably mounted. The correction tape 4 was formed by providing a white correction coating film on a polyester film substrate subjected to a release treatment, and further providing an acrylic pressure-sensitive adhesive layer thereon. In the examples of the present invention, a correction tape having a width of 5 mm was used. A locking portion (not shown) is provided on the inner wall of the case 2, and a locking claw (not shown) is provided on the supply reel 5 to form a reverse rotation preventing mechanism that can be disengaged from the locking portion. The locking portion and the locking claw are not locked in the feeding direction (clockwise) of the supply reel 5, but are locked only in the opposite direction. Also,
The supply reel 5 and the take-up reel 6 are linked by gears (not shown) formed on the respective reels. At the same time as the transfer tape 4 is unwound from the supply reel 5, the take-up reel 6 is Is wound up slightly larger than the feeding amount, and the transfer tape 4 has a structure in which tension is always applied in the case 2 so as not to be loosened. Further, a slip mechanism (not shown) is provided inside the supply reel 5 in order to suppress the transfer tape 4 from being excessively stretched.
Was provided. The correction tape 4 is guided from a supply reel 5 by a guide pin 7, is turned back via a transfer head 9, and is wound on a take-up reel 6 guided by the guide pin 7.

In the transfer operation, a method is used in which the transfer head 9 is pressed against the transfer surface by pressing the transfer tool 1 against the transfer surface, and the corrected coating film on the base material is transferred to the transfer surface by the pressing force. Using. Also, after the transfer, the knob 10 disposed above the transfer tool 1 is pressed downward, so that the support bar 11 formed below the knob can be flexed to the left and right. The claw 12 is engaged with the gear 13 provided on the supply reel 5, and the supply reel 5 is rotated in a direction in which the transfer tape is fed out to feed out a predetermined amount of tape. The correction tape 4 provided is sent. Also,
When the pressing force of the knob 10 is released, the support rod 11 is slid on the gear 13 while being bent by the elastic force of the spring 14 disposed inside the knob 10 and is pushed upward.

As shown in FIG. 2, the transfer head 9 includes a tip 15 and a tip holder 16 disposed at the tip of the case 2. A portion (not shown) was inserted into the concave portion 17 of the chip holder 16.

FIG. 3 is an explanatory view near the tip 15. The tip is 13 mm long, 7 mm wide,
An elastic molded body having a hardness of 80 (Shore A hardness) formed of urethane rubber having a thickness of 4 mm was used. A bulging surface 18 having a radius of 2 mm and a semicircular cross section is provided below the tip 15.
When the correction coating film of the transfer tape 4 is transferred to the surface to be transferred, first, the tip of the swelling surface 18 presses the correction tape 4. Inside the bulging surface, a round hole 19 having a diameter of 2 mm concentric with the arc of the bulging surface 18 is formed as a space parallel to the bulging surface, and the round hole 19 is provided with meat 20 on both sides and communicates with both side surfaces. Formed.

When the transfer operation was performed as the transfer tool of the present embodiment, first, the transfer head 9 was brought above the erroneous portion on the paper surface, and then the front end portion of the bulging surface 18 formed on the front end tip 15 was moved. Was brought into contact with the vicinity of the center of the typographical error (JIS 10.5 point), and then the transfer tool 1 was pressed downward to transfer the corrected coating film of the transfer tape 4.

FIG. 4 is a side view of the tip chip at the time of press transfer. In FIG. 4, the bulging surface 18 is expanded and deformed to the right and left by the pressing force, and the paper surface and the bulging surface 18 are in contact with each other in a square shape. At this time, the round hole 19 formed inside the swelling surface 18 is squashed horizontally to promote the widening deformation of the swelling surface 18. Further, a pressing force is applied to the transfer tool 1 so that the bulged surface 18 having an arc-shaped cross section of the tip 15 is expanded and deformed.
When the pressing force of the transfer tool 1 is released and the tip 15 is separated from the paper when the entire surface of the erroneous character of IS10.5 point is concealed, a square corrected coating film of 5 mm width × about 4 mm left and right is clearly transferred on the paper surface. As a result, it was possible to reliably correct only one typographical error of JIS 10.5 points. Further, the left and right edges and corners of the square modified coating film were clearly transferred, and the square modified coating layer was not peeled off even with a slight rubbing with a finger.

FIG. 5 is a view of a transfer head using a conventional tip. The conventional tip 15 is a plate-like tip having a length of 13 mm, a width of 7 mm, and a thickness of 4 mm.
80 (Shore A hardness) formed of urethane rubber
This is an elastic molded article. Except that the lower part of the tip 15 is formed by a flat surface 22 and that no round hole is formed in the tip, the other is the same as the first embodiment. When the transfer operation was performed using the transfer tool using the conventional tip 15, a part of the edge of the square corrected paint film transferred as compared with the corrected paint film transferred by the transfer tool of Example 1 described above was found. Had been distorted. Further, the fixing force between the modified coating film and the paper surface varied, and the edge of the square modified coating film was peeled off by lightly rubbing with a finger.

Therefore, a test was conducted to compare this embodiment with the conventional product. As a comparison object, the pressing force applied to the tip chip which particularly affects the shape and the fixing force of the corrected coating film after the transfer was measured and compared. FIG. 6 is a schematic diagram of a pressing force measuring machine used for the test. The pressing force measuring device 23 includes a pressing device 24 for applying a load to the tip and a pressure-sensitive measuring device. The pressurizing machine 24 is configured such that a slider 26 is operated up and down by operating a handle 25, and a push-pull gauge 27 (Push-Pull manufactured by IMADA) is provided as a pressure-sensitive measuring device on the pressurized portion of the pressurizing machine 24.
Scale) is attached. Push-pull gauge 2
The tip portion 15 of the present example and the tip portion 21 of a conventional product, which are test specimens, were installed via a jig 28 at the pressed portion 7. Further, a table 29 is provided below the tip 15 so that the tip comes into contact when the press machine is operated, and a pressing force generated by a load applied from above to the table 29 and the tip is measured. A pressure-sensitive measurement film 30 (Fuji Photo Film Co., Ltd .: Fuji Prescale) is installed.
The pressure-sensitive measurement film 30 used in the present embodiment is used by combining both coated surfaces of a film on which a microencapsulated colorant layer is applied and a film on which a color developer layer is applied, on a PET resin support. A two-sheet type was used. The microcapsules in the color former layer are destroyed in response to the pressure, and the colorless and transparent leuco dye in the microcapsules is absorbed by the color developer layer and causes a chemical reaction to develop a red color. The microcapsules of the color forming agent layer are adjusted to various strengths, and have a structure in which a red density according to the stress can be obtained. Further, the pressing force applied to the film can be determined based on the respective densities.

The test procedure is as follows: A stage with a load of 0N, B stage with a load of 4.9N, C stage with a load of 9.8N, and a load of 14.
D stage of 7N, E stage of load 19.6N, load 24.5
The measurement was performed by applying a load to the tip tip in six stages of N F stages, and the same stage was repeated three times for each measurement to obtain an average value. The results are shown in FIGS. 7 and 9 schematically showing the shape of the deformation process of the tip tip due to each load, and the distribution of the pressing force of the pressure-sensitive measurement film is schematically shown in the graphs of FIGS. . The graph of the measurement result is a graph in which the left and right of the graph line indicate the left and right of the transfer surface of the tip chip 15, and the pressing force is higher as it goes upward. The graph symbols b to f correspond to the test stages BF. ing. The dashed line shown near the upper and lower centers indicates a transfer limit line at which the tip chip can satisfactorily transfer the transfer coating film on the base material.

First, the same test was performed using the tip in this embodiment. FIG. 7 is a diagram showing a schematic shape of a deformation process at the tip A to F stages of the first embodiment. FIG. 8 is a graph schematically showing the pressure-sensitive measurement results in Example 1. In FIG. 7, widening deformation of the swelling surface 18 as shown in the figure was observed in the tip chip 15 from the B stage to the F stage. Further, in the graph of FIG. 8, it can be seen that the graph is divided into b and c where the pressing force is generated near the center of the tip 15 and d, e and f where the pressing force near the left and right edges of the bulging surface 18 becomes stronger. I was able to read. In the graph of FIG. 8, b and c generate a pressing force according to the swelling amount of the swelling surface 18, while d, e, and f indicate a pressing force that does not match the swelling amount of the swelling surface 18. The reason for this can be inferred from the state of deformation of the tip 15 in FIG. That is, since the resilience of the tip of the swelling surface 18 is superior in the area where the load is small, such as the stages B and C, the right and left edges of the swelling surface 18 are not pressed against the pressure-sensitive measurement film 30 without being pressed. The pressing force concentrates on the vicinity of the front end of 18. In the stages D, E, and F, when the load increases, the elasticity of the bulging surface 18 exceeds the elasticity of the bulging surface 18. In this case, the pressing force is generated in a concentrated manner near the left and right edges of the bulging surface 18 located below the meat 20 on the side surface of the round hole. When the transfer was actually performed with the tip 15 in Example 1, a square transcript having clear left and right edges and corners could be obtained, and it was confirmed that the pressing force was concentrated near the left and right edges. did it. Further, when the left and right end edges of the front end tip 15 were searched for a limit angle of inclination of the front end tip 15 that can sufficiently fix the transfer coating film, the front end tip 15 of the present embodiment was found to transfer the coating film. Since the surface is a swelling surface 18 having a semicircular cross section, the surface on the arc contacting the surface to be transferred at the start of the transfer due to the deviation of the transfer angle is displaced from the front end, but the swelling surface 18 is expanded and deformed by the subsequent pressing, so that the transfer surface is enlarged. The swelling surface 18 and the transfer receiving surface are always in contact with each other on a square surface, and the vicinity of the left and right edges of the swelling surface is particularly strongly pressed as described above, so that the transfer of the coating film can be surely performed. Further, the transferred square transfer coating film was transferred with a sufficient fixing force, and was transferred above the transfer limit line of the pressing force. Specifically, it has been found that the inclination limit angle of the tip of the present embodiment is within 30 degrees, and it can be said that it has expanded to the permissible range of each step as compared with the conventional tip.
If the allowable value of the inclination angle is within 10 degrees, the transfer can be performed without any concern when a person actually holds the transfer tool and performs the transfer.

Next, a test was performed using the conventional tip 15. FIG. 9 is a diagram showing a schematic shape of a conventional tip tip deforming process in steps A to F. In FIG. FIG. 10 is a graph schematically showing the result of pressure sensing measurement using a conventional tip.
In FIG. 9, the tip tip hardly changed its shape from the A stage to the F stage. In addition, at any stage in the graph of FIG.
Is always stronger than the left side, and the pressing force on the left side of the conventional tip 15 cannot sufficiently fix the transfer coating film even at the D stage where the load is 19.6 N. Was. The present inventor examined how the above-mentioned results occurred, and found that when the conventional tip 15 was to be installed on the jig 28, it should be installed vertically in the test. At that time, it was found that the film was attached to the jig 28 at an inclination of about 7 degrees, and the right side lowered by the inclination strongly pressed the pressure-sensitive measurement film 27, and the left side slightly pressed slightly. It was speculated that the pressing force was insufficient. Therefore, when the left and right end edges of the conventional tip 15 were both searched for a limit angle of inclination of the tip which can sufficiently fix the transfer coating film of the correction tape, the inclination limit angle was within 3 degrees. However, the fact that the allowable value of the inclination angle is within 3 degrees means that the mounting angle of the tip chip to the transfer tool and the mounting angle of the tip chip to the transfer tool even when a person actually carries out the transfer while holding the transfer tool by hand. It was difficult to control in consideration of the molding accuracy of the molded product.

FIG. 11 is an explanatory view showing the vicinity of the tip of the second embodiment of the present invention. In FIG. 11, a swelling surface 18 having a semicircular cross section with a radius of 2 mm is formed below the tip 15, and 0.5 mm from the center of the swelling surface 18.
A round hole 19 having a diameter of 2 mm and having a center located at a lower portion of the bulging surface 18 is formed so as to communicate with the outer surface of the tip 15. (A)), the structure becomes thicker (B> A) from the side of the round hole 19 to the side (B in the figure). Otherwise, the transfer tool was used in the same manner as in Example 1. A test was performed using the tip 15 in the second embodiment. The test procedure is the same as the previous test. FIG. 12 shows A to A of the tip 15 of the second embodiment.
It is a figure showing the schematic shape of the transformation process of F stage. FIG. 13 is a graph schematically showing the result of pressure measurement in Example 2. In FIG. 12, the tip of Example 2 has a bulging surface 18 as shown in FIG.
Widening deformation was observed. Further, in the graph of FIG. 13, a pressing force is generated near the center of the tip 15 b,
c and d, e, and f, in which the left and right pressing forces are increased, as in the first embodiment described above, except that the wall thickness near the tip of the bulging surface 18 is the wall thickness on the side surface side of the round hole 19. Because of the smaller thickness, the pressing force near the left and right edges of the bulging surface 18 was significantly higher than the pressing force near the center of the tip tip in the stages D, E, and F. Further, when both the left and right edges of the tip 15 of the second embodiment were searched for the limit angle of the inclination of the tip which can sufficiently fix the transfer coating film, the tip angle of the tip 2 of the second embodiment of the present invention was found. The limit angle of inclination is 30
It turned out to be within degrees.

FIG. 14 is an explanatory view showing the vicinity of the tip of the third embodiment of the present invention. In FIG. 14, a swelling surface 18 having a semicircular cross section with a radius of 2 mm is formed below the tip 15, and a 1 mm radius arc whose center is located 0.5 mm below the arc center of the swelling surface inside the swelling surface 18. In addition, a fan-shaped hole 31 having a vertical angle of 90 ° 0.1 mm above the center of the arc of the bulging surface is formed so as to communicate with the outer surface. Otherwise, the transfer tool was used in the same manner as in Example 1. A test was performed with the tip 15 in the third embodiment. The test procedure is the same as the previous test. FIG. 15 is a diagram illustrating a schematic shape of a deformation process of the tip tip of Example 3 in the A to F stages. FIG. 16 is a graph schematically showing the pressure-sensitive measurement results in Example 3. In FIG. 15, although the tip end 15 of the third embodiment has a small amount of deformation from the B stage to the E stage as compared with the first and second embodiments, uniform widening deformation of the bulging surface is observed.
At the stage, remarkable widening deformation could not be seen as compared with the E stage. Further, in the graph of FIG. 16, the fact that the pressing force is generated in the vicinity of the center of the distal end tip 15 is divided into b and c and d, e, and f in which the right and left pressing force are increased. Similarly, the tip of the third embodiment is different from the first and second embodiments in that the amount of the meat 20 on the side surface of the fan-shaped hole 31 is smaller than that of the first and second embodiments.
Because the amount of the meat 20 on the side surface of the round hole 19 of the tip tip 15 is larger, the vicinity of the left and right end edges of the bulging surface 18 can be further strongly pressed. In addition, the tip 1 of the third embodiment.
When the left and right edges of both Nos. 5 were searched for a limit angle of inclination of the tip which can sufficiently fix the transfer coating film of the transfer tape, the limit angle of inclination by the tip of Example 3 was within 30 degrees. It turned out that. Like this
When the transfer tool using the tip 15 of the first to third embodiments is used, it is possible to sufficiently fix the transfer coating film to a locally corrected portion having a small area. In particular, the third embodiment
In the transfer tool, since the amount of the meat 20 on the side of the fan-shaped hole 31 of the tip 15 is large, the transfer coating is laterally moved while the transfer head is pressed against the transfer-receiving surface, and the transfer coating film on the tape base material is removed. Even when the transfer is performed on a paper surface, the transfer can be performed neatly because the distal end tip, which is an elastic body, is not greatly deformed by the movement of the transfer head 9.

FIG. 17 is a view showing the vicinity of the tip of the fourth embodiment of the present invention. In FIG. 17, a bulging surface 18 having a polygonal cross section formed by connecting eight flat surfaces 32 is formed below the tip 15, and inside the bulging surface 18, the center is located at the same height as the uppermost side 33 of the bulging surface 18. Is a round hole 19 with a diameter of 2 mm
Is formed so as to communicate with the outer surface of the tip 15. Otherwise, the transfer tool was used in the same manner as in Example 1. When press transfer was performed by the transfer head (not shown) of the fourth embodiment, the flesh 20 on the side surface of the round hole 19 strongly pressed both left and right edges of the tip 15 when pressed. Example 1
The same effect as the transfer device of No. 3 was obtained. In the fourth embodiment, the swelling surface is a plane connecting eight pieces.
The number of planes is not particularly limited, and can be appropriately selected depending on the size of the transfer chip.

FIG. 18 is a view showing the vicinity of the tip of the fifth embodiment of the present invention. In FIG. 18, the tip 15 is formed in a rod-like body having a round hole 19, and the round hole 19 is provided in parallel with the longitudinal direction with a half diameter of the tip tip 15 and a slightly lower center. In addition, the tip holder 16
A concave portion 17 is formed below the upper surface of the tip chip 15 and a part of the upper portion of the tip chip 15 is buried inside the concave portion 17 and joined by an adhesive. When press transfer was performed with the transfer head 9 of the fifth embodiment, when the press was performed, the meat 2 on the side surface side of the round hole 19 was pressed.
0 strongly presses the left and right edges of the tip 15,
The same effects as those of the transfer tools of Examples 1 to 4 could be obtained.

As described above, in the first to fourth embodiments of the present invention, a correction tape having a width of 5 mm is used. However, if a thinner tape is used and the tip is made smaller at the same time, one character of a fine character string can be corrected. Can also be used. Conversely, the tip of the embodiment of the present invention is also effective when transferring a large area using a thick tape.

[0032]

According to the tape-like transfer tool of the present invention, it is possible to easily transfer a predetermined area of a small area, and even if the angle of the transfer tool is deviated at the time of transfer, the transfer of the coating film is ensured. Transfer can be performed, and particularly in the transferability of the coating film, an edge that is easily peeled can be firmly fixed. Also,
By laterally moving the transfer head while pressing the transfer head against the surface to be transferred, it is possible to satisfactorily transfer the coating film continuously to the paper surface.

[Brief description of the drawings]

FIG. 1 is a side view of a transfer tool according to a first embodiment of the present invention.

FIG. 2 is an explanatory diagram near a transfer head according to an embodiment of the present invention.

FIG. 3 is an explanatory view showing the vicinity of a tip according to an embodiment of the present invention.

FIG. 4 is a side view of the leading end tip during transfer according to the embodiment of the present invention.

FIG. 5 is an explanatory view showing the vicinity of a transfer head using a conventional tip.

FIG. 6 is a schematic diagram of a pressing force measuring device.

FIG. 7 is an explanatory view showing a schematic shape of a tip tip of the first embodiment of the present invention in a deformation process.

FIG. 8 is a schematic graph of a pressure-sensitive measurement result at the tip of Example 1 of the present invention.

FIG. 9 is an explanatory view showing a schematic shape of a conventional tip tip in a deformation process.

FIG. 10 is a schematic graph showing a result of pressure sensing measurement using a conventional tip.

FIG. 11 is an explanatory view of the vicinity of a tip according to a second embodiment of the present invention.

FIG. 12 is an explanatory diagram showing a schematic shape of a tip tip of a second embodiment of the present invention in a deformation process.

FIG. 13 is a schematic graph of a pressure-sensitive measurement result at the tip of Example 2 of the present invention.

FIG. 14 is an explanatory view of the vicinity of a tip according to a third embodiment of the present invention.

FIG. 15 is an explanatory diagram showing a schematic shape of a tip tip of a third embodiment of the present invention in a deformation process.

FIG. 16 is a schematic graph of a pressure-sensitive measurement result at the tip of Example 3 of the present invention.

FIG. 17 is an explanatory view of a tip according to a fourth embodiment of the present invention.

FIG. 18 is an explanatory diagram near a transfer head according to a fifth embodiment of the present invention.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 transfer tool 2 case 3 support 4 correction tape 5 supply reel 6 take-up reel 7 guide pin 8 guide pin 9 transfer head 10 knob 11 support rod 12 claw 13 gear 14 spring 15 tip tip 16 chip holder 17 recess 18 bulging surface 19 round Hole 20 Side surface side meat 22 Flat surface 23 Pressing force measuring machine 24 Pressing machine 25 Handle 26 Slider 27 Push-pull gauge 28 Jig 29 Units 30 Pressure-sensitive measuring film 31 Fan-shaped hole 32 Plane 33 Top edge

Claims (7)

[Claims] 1. A tape comprising a case holding a supply reel wound with a transfer tape provided with a coating film to be transferred to one surface of a base material, and a transfer head pressing a tape disposed in a tape supply portion of the case against a transfer surface. In a transfer tool for a substrate, the surface of the transfer head that presses the tape against the transfer surface is a bulge surface that is convex to the transfer surface, and a space that is parallel to the bulge surface is provided inside the bulge surface. A transfer tool for a tape-shaped object, characterized in that it is a tip of a body. 2. The cavity provided inside the bulging surface of the tip of the elastic body tip is a cavity in which the thickness of the bulging surface tip is smaller than the thickness of the side surface of the cavity. , Tape-like transfer tool. 3. The tape-like transfer tool according to claim 1, wherein the void provided inside the bulging surface of the elastic distal tip is a void communicating with a side surface of the distal tip. 4. The chip according to claim 1, wherein the tip of the elastic body is a chip having a bulging surface having an arc-shaped cross section.
The transfer tool for a tape-like material described in the paragraph. 5. The transfer tool for a tape-like material according to claim 1, wherein the tip of the elastic body is a chip having a bulging surface having a polygonal cross section. 6. A tape-like transfer tool according to any one of claims 1 to 3, wherein the tip of the elastic body has an arc-shaped rod-shaped cross section and is parallel to the rod-shaped body in the rod-shaped body. The transfer tool for a tape-shaped material is a space where the thickness of the pressing surface is thinner than the thickness of the side surface. 7. A correction tool for fixing a correction tape to a transfer surface in order to correct an error or the like, wherein the transfer tool of a tape-like material is a correction tool.
A transfer tool for a tape-like material according to any one of claims 1 to 6.