JP6224944B2 - Blade type - Google Patents

Description

  The present invention relates to a blade type used for punching out a sheet-like substrate such as paper or a film.

  For example, when producing printed matter such as seals, labels, stickers, etc., a spring blade in which the printed sheet-like substrate is attached to a flat pressure machine after printing on the sheet-like substrate such as paper or film Punching is performed by punching into a desired shape with a blade type such as. The sheet-like base material is mainly formed by laminating an upper-layer sealing material and a lower-layer release material. As the above punching process, the upper and lower layers of the sheet-like base material are collectively punched in the thickness direction. There is a full punching process and a half cut process in which only the upper seal material is punched and the lower release material is not punched.

  Among these, in order to make it easy to peel off the target seal portion, a seal or the like in which a half cut process is performed on the inner periphery of a sheet-like base material that has been completely punched is manufactured. In general, seals that have undergone full-cutting and half-cutting are generally punched out after half-cutting the sheet-like substrate using a half-cutting blade. It is manufactured by exchanging with a blade type for use, and subjecting the sheet-like base material that has been half-cut to a complete punching process.

  However, in the above-described manufacturing method, half-cutting and full-cutting are performed in separate steps, so it takes time to replace the blade mold and adjust the full-cut position. There are problems such as the tendency to shift. Therefore, it is required to perform the half-cut process and the complete punching process at the same time in one process, not as separate processes.

  Therefore, in Patent Document 1, in order to perform half-cutting and full-cutting simultaneously in one process, a half-cutting blade having a predetermined blade angle and a cutting edge thickness and a full-cutting blade are provided in the same punching die. It is described. In addition, it is described that the half-cutting blade and the full-cutting blade are formed by cutting or etching with high dimensional accuracy in order to form a predetermined blade angle and a cutting edge thickness.

JP 2003-25287 A

  The punching die described in Patent Document 1 is an engraving blade formed by cutting or an etching blade formed by etching. These engraving blades or etching blades have problems such as high costs due to the time required for manufacturing the blade mold, and inability to replace the blade even when the blade is worn.

  On the other hand, as a type of the blade type for sealing, there is a spring blade in addition to the engraving blade or the etching blade. The mainspring blade is manufactured by bending a blade made of a strip-shaped steel plate into a desired shape and embedding the blade in a base material made of acrylic resin or the like. Therefore, there is an advantage that the blade mold can be easily manufactured at low cost, and the blade can be replaced when the blade is worn. For this reason, the mainspring blades are also manufactured with the same blade type with half-cut blades and full-cut blades. A blade.

  However, in general, the spring blade type blade mold is likely to cause unevenness in extraction due to its structure. Therefore, it is very difficult to half-cut only the sealing material at the same time that the sheet-like substrate is completely removed.

  Furthermore, the height (blade height) from the base of the strip-shaped blade used for the mainspring blade to the blade edge is usually 7 to 10 mm, and only 0.1 mm increments are distributed in the market. Not done. Therefore, if a blade with a height of 8 mm, for example, is selected as the full punching blade, a blade with a height of 7.9 mm or less can be selected only in increments of 0.1 mm as the half-cut blade. Therefore, when the thickness of the release material in the lower layer of the sheet-like base material, which is a target for half-cutting, is smaller than 0.1 mm (100 microns), half-cutting cannot be performed.

  The present invention has been devised in view of the above points, and an object of the present invention is to provide a spring blade type blade type capable of performing half-cut processing and full punching simultaneously with high accuracy.

  Another object of the present invention is to perform half-cutting by using existing spring blades even when the thickness of the sheet-like substrate to be punched (in particular, the thickness of the release material in the lower layer) is thin. An object of the present invention is to provide a spring blade type blade type capable of performing machining and complete punching simultaneously with high accuracy.

  In order to solve the above-mentioned problem, the blade type of the present invention includes a full punch blade, a half cut blade, and a blade fixing portion for fixing the root of the full punch blade and the half cut blade. It has a base material and a back plate that are superposed and fixed to each other, and the entire punching blade penetrates through the entire punching blade through groove formed in the base material, and the entire punching blade height adjustment groove formed in the back plate. The half-cut blade is inserted into the full-cut blade height adjustment groove and supported by the groove bottom surface, and the half-cut blade penetrates the half-cut blade through groove formed in the base material and is formed on the back plate The half-cut blade is half-cut to a partial depth of the sheet-like substrate when the full-cutting blade punches the sheet-like substrate in the thickness direction. To the bottom surface of the entire punching blade height adjustment groove Depth narrowing drilling to the groove bottom surface of the saw depth and half-cut blade height adjustment groove is adjusted.

  The blade mold of the present invention is mainly composed of a fully punched blade, a half-cut blade, and a blade fixing portion that fixes and supports these blades. The blade fixing portion is a base material and a back plate that are superposed and fixed to each other. This base material is provided with a fully punched blade through groove and a half cut blade through groove, respectively, and the base material of the fully punched blade and the half cut blade passes through the blade through groove described above, respectively. Fixed to. Further, the full punching blade and the half cut blade penetrating the base material are supported on the bottom surfaces of the grooves by fitting into the full punching blade height adjusting groove and the half cut blade height adjusting groove provided on the back plate, respectively. At the same time, the protruding height of the blade from the base material surface of the fully punched blade and the half-cut blade is adjusted. Here, the adjustment of the protruding height of these blades from the surface of the base material is performed by adjusting the digging depth to the groove bottom surface of the full cutting blade height adjustment groove and the half cut blade height adjustment groove formed on the back plate. Done. That is, when the full punching blade punches the sheet-shaped substrate in the thickness direction, the half-cutting blade digs up to the groove bottom surface of the full-cutting blade height adjustment groove so that the half-cut blade half-cuts to a partial depth of the sheet-shaped substrate. The digging depth and the digging depth to the groove bottom surface of the half cut blade height adjustment groove are adjusted. In this way, a full-cut blade height adjustment groove and a half-cut blade height adjustment groove are provided on the back plate that has been used as a reinforcing plate in the past, and the digging depth to the bottom surface of these blade height adjustment grooves is adjusted appropriately. By doing this, the protruding heights of the full punching blade and the half-cutting blade protruding from the surface of the base material can be set to desired values. Thus, in the conventional technology, in the sheet-like base material, when the thickness of the member that is not cut during the half-cut process is smaller than 0.1 mm (100 microns), it is difficult to perform the half-cut process simultaneously with the complete punching process. However, even if the thickness of the member that is not cut is less than 100 microns, half-cutting can be performed simultaneously with full blanking. Similarly, in a normal state where pressure is not applied, the thickness of the member that is not cut is 100 microns or more, but when pressed by the half-cut blade, the thickness of the material decreases and becomes smaller than 100 microns. With regard to the above, it becomes possible to perform half-cut processing at the same time as complete punching processing.

  Furthermore, in the blade type of the present invention, the back plate is provided with a blade height adjustment groove dug accurately for both the full punch blade and the half cut blade, and the full punch blade and the half cut blade are supported on the bottom surface of the groove. Yes. Thereby, the protrusion height of the full punching blade and the half-cutting blade protruding from the surface of the base material can be accurately adjusted to a desired value without being affected by the thickness unevenness generated on the surface of the back plate. .

  In addition, the blade mold of the present invention has a sheet-like base material in which at least a sealing material and a release material are laminated, and the half-cut blade is a sheet-like base material when the punching blade punches the sheet-like base material in the thickness direction. In order to punch out only the sealing material, the depth of the full cutting blade height adjustment groove and the depth of the half cut blade height adjustment groove are calculated from the blade height of the full cutting blade to the blade height of the half cut blade. The value obtained by subtracting the value obtained by subtracting the digging depth of the full cutting blade height adjustment groove from the digging depth of the half-cut blade height adjustment groove is equal to or less than the thickness of the release material. It is also preferable to be adjusted to.

  As the sheet-like base material processed with the blade shape of the present invention, a sheet in which at least a sealing material and a release material are laminated is selected. In addition, as described above, the height of the protrusions from the base material surface of the full cutting blade and the half cut blade is adjusted to the bottom surface of the full cutting blade height adjustment groove and the half cut blade height adjustment groove formed on the back plate. This is done by adjusting the digging depth. In other words, when the full cutting blade punches the sheet-shaped substrate in the thickness direction, the full cutting blade height adjustment groove and the half cutting blade height adjustment groove are dug so that the half cut blade punches only the sealing material. The depth of insertion is adjusted. Specifically, these digging depths are calculated by subtracting the blade height of the half-cut blade from the height of the full-cut blade, and the value of the full-cut blade height from the value of the digging depth of the half-cut blade height adjustment groove. The value obtained by adding the value obtained by subtracting the value of the depth of the adjustment groove is adjusted so as to be substantially equal to or less than the thickness of the release material. Thus, in the case of the conventional technique, in the sheet-like base material, when at least the thickness of the release material is smaller than 100 microns, it is difficult to perform half-cut processing at the same time as the complete punching process. Even when it is thinner than 100 microns, half-cutting can be performed simultaneously with the complete punching. In addition, in this specification, the blade height of a fully punched blade or a half-cut blade refers to a distance from the root of the blade to the blade tip.

  Further, the value equal to or less than the thickness of the release material may be a value of the thickness of the release material when the half cut blade is pressed by the half cut blade when punching out only the sealing material of the sheet-like base material. preferable. As a result, the thickness of the release material is 100 microns or more in a normal state where it is not pressed, but the thickness of the release material is reduced and becomes smaller than 100 microns by being pressed by the half-cut blade during half-cut processing. Even a sheet-like substrate having such a release material can be half-cut simultaneously with the complete punching.

  In the blade mold of the present invention, it is also preferable that the blade height of the fully punched blade and the blade height of the half-cut blade are substantially the same.

  As the full punching blade and the half-cutting blade used in the blade mold of the present invention, it is desirable to select blades having substantially the same blade height. In this case, as described above, the height of the protrusions from the base material surface of the full punch blade and the half cut blade is adjusted by adjusting the bottom surface of the full punch blade height adjusting groove and the half cut blade height adjusting groove formed on the back plate. It is done by adjusting the digging depth up to. Specifically, these digging depths are obtained by subtracting the digging depth value of the full punching blade height adjustment groove from the digging depth value of the half-cutting blade height adjustment groove. It adjusts so that it may become the value below the thickness of. As a result, conventionally, the blade type had to be created using two types of blades having different blade heights, so that a full blade and a half-cut blade can be formed using one type of blade. The material constituting the blade mold can be reduced. Of course, the blade height of the fully punched blade and the blade height of the half-cut blade may be different from each other.

ADVANTAGE OF THE INVENTION According to this invention, the blade type | mold which has the following outstanding effects can be provided.
(1) The protruding heights of the fully punched blade and the half-cut blade protruding from the surface of the base material can be set to desired values.
(2) In a sheet-like base material, even when the thickness of a member that is not cut at the time of half-cut processing is thinner than 100 microns, half-cut processing can be performed at the same time as full punching. Further, in a normal state where the material is not pressed, the thickness of the member that is not cut is 100 microns or more, but the material is such that the thickness of the member decreases by being pressed by the half-cut blade and becomes smaller than 100 microns. Can be half-cut at the same time as the complete punching.
(3) The projection height of the full punching blade and the half-cutting blade protruding from the surface of the base material can be accurately set to a desired value without being affected by the plate thickness unevenness generated on the surface of the back plate.
(4) In a sheet-like base material composed of at least a sealing material and a release material, even when the thickness of the release material is less than 100 microns, half-cut processing can be performed simultaneously with the complete punching process. Moreover, although the thickness of the release material is 100 microns or more in a normal state where it is not pressed, the thickness of the release material is reduced to be smaller than 100 microns by being pressed by the half-cut blade during half-cut processing. Even in such a case, half-cutting can be performed simultaneously with the complete punching.
(5) Since the full punching blade and the half-cutting blade can be formed by using a blade having one kind of blade height, the materials constituting the blade mold can be reduced.

It is a disassembled perspective view of the blade type which concerns on the 1st Embodiment of this invention. It is a perspective view of the blade type shown in FIG. It is sectional drawing which follows the А-A line shown in FIG. FIG. 4 is a view showing a state in which a full punching blade and a half cut blade are removed in the cross-sectional view shown in FIG. It is sectional drawing which shows the use condition of the blade type | mold shown in FIG. It is sectional drawing of the blade type | mold which concerns on the 2nd Embodiment of this invention. It is a perspective view of the blade type | mold which concerns on the 3rd Embodiment of this invention. It is a figure which shows the use condition of a blade type | mold in sectional drawing in alignment with the BB line shown in FIG.

  Hereinafter, the blade mold 1 according to the first embodiment of the present invention will be described with reference to FIGS. 3 to 5 are displayed upside down with respect to FIGS. 1 and 2, and are displayed by changing the scale of the constituent members for easy understanding.

  As shown in FIGS. 1-4, the blade type | mold 1 which concerns on this embodiment is roughly formed from the full punching blade 5 and the half cut blade 6, and the blade fixing | fixed part 2 which fixes these blades. The blade fixing portion 2 is configured by superimposing and fixing a base material 3 and a back plate 4 to each other. The base material 3 includes a full cutting blade through groove (full cutting blade slit) 30 for penetrating and fixing the full cutting blade 5 and a half cut blade through groove (half cutting) for fixing the half cut blade 6 through. A blade slit) 31 is provided. In addition, the base side of the full punching blade 5 and the half cut blade 6 penetrating the base material 3 is inserted into the back plate and supported by the bottom surface of the groove, and the base material 3 of the full punch blade 5 and the half cut blade 6 is supported. A full punching blade height adjustment groove 40 and a half-cut blade height adjustment groove 41 for adjusting the protruding height from the surface are respectively provided. The base material 3 and the back plate 4 are each provided with four screw holes 32 and 42 at four corners, and the base material 3 and the back plate 4 are detachably fixed to each other in a superposed state by screws 7.

  The full punching blade 5 and the half-cutting blade 6 embedded in the blade mold 1 will be described with reference to FIGS. The full punching blade 5 and the half-cutting blade 6 are made of a strip-shaped thin steel plate, and are formed by bending a blade material having a cutting edge on one end side in the lateral direction into a desired shape. In the present embodiment, as shown in FIGS. 1 to 2, the full punching blade 5 and the half-cutting blade 6 have four corners so that the planar shapes seen from the upper surface are rectangular shapes different from each other. Each is formed by bending.

  The height of the full punching blade 5 and the half-cutting blade 6, that is, the distance from the base of the blade to the blade tip is not particularly limited, but is 6 to 20 mm from the relationship with the thickness of the blade fixing part 2 to be used. Are preferably used. At this time, as will be described later, the protruding height of the blade from the surface of the base material 3 of the full cutting blade 5 and the half cut blade 6 is the groove bottom surface of the full cutting blade height adjustment groove 40 and the half cut blade height adjustment groove 41. Therefore, it is possible to use blade materials having the same blade height for the full punching blade 5 and the half-cutting blade 6. Thus, conventionally, for example, a blade material having a blade height of 8.0 mm is used as a full cutting blade, and a blade material having a blade height of 7.9 mm is used as a half-cut blade. However, in this embodiment, it is possible to form both the full punching blade 5 and the half-cutting blade 6 with a blade material having a single blade height.

  Note that the full punching blade 5 and the half-cutting blade 6 are not limited to blade materials having the same blade height, and it is also possible to use blade materials having different blade heights as before. For example, when blade materials having the same blade height are used, the thickness of a member such as a release material that is not cut during half-cut processing is relatively thick, and the half-cut blade height adjustment groove 41 needs to be deeply dug into the back plate 4. In some cases, it is preferable to select a blade material having a short blade height when forming the half-cut blade 6.

  Next, the blade fixing portion 2 that fixes and supports the full punching blade 5 and the half-cutting blade 6 will be described in detail with reference to FIGS. As shown in FIGS. 1 to 4, the blade fixing portion 2 is configured by fixing a base material 3 and a back plate 4 in a superposed state. First, the base material 3 will be described below.

  As shown in FIG. 3, the base material 3 passes through the full punching blade 5 and the half cut blade 6 with the cutting edges of the full punching blade 5 and the half cut blade 6 protruding from the surface thereof. That is, as shown in FIG. 1 and FIG. 4, the base material 3 includes a full cutting blade through groove 30 (a full cutting blade slit) that penetrates in the thickness direction of the base material 3 and a half cut blade through groove (half cut). Blade slits) 31 are formed. These through-grooves 30 and 31 are formed so as to have a planar shape corresponding to the planar shape of the full punching blade 5 or the half-cutting blade 6, respectively. The cutting blades 6 are formed so as to be able to penetrate the half-cut blade through grooves 31 respectively. The full cutting blade through groove 30 is formed with a groove width such that the penetrating full cutting blade 5 does not easily fall out. Similarly, the half cut blade through groove 31 can be easily dropped out. The groove width is not so large. Specifically, it is preferable that the groove width is approximately the same as the thickness of the full punching blade 5 or the half-cutting blade 6 to be penetrated. On the other hand, it is formed to be larger than the thickness of the blade that penetrates the groove width of these through grooves 30 and 31, and after assembling the blade mold 1, an adhesive or the like is poured into these through grooves and completely removed. It is also possible to fix the blade 5 or the half-cut blade 6. These through grooves 30 and 31 can be formed by grooving the base material 3 by general laser processing or the like.

  The material of the base material 3 is a resin material, a metal material, wood, or the like, and is not particularly limited. However, from the viewpoint of easiness of processing such as grooving and mechanical properties, acrylic resin, ABS resin, PET Resin, an aluminum plate, an iron plate, a plywood, etc. are used suitably. The base material 3 may be configured by a single material, but may be configured by stacking a plurality of different materials. Further, the base material 3 may be composed of a plurality of plate materials made of a single material. For example, when a metal material is selected as the material of the base material 3, the base material 3 is completely removed as compared with a resin material such as an acrylic resin. Grooving for forming the blade through groove 30 or the like may be difficult. However, the base material 3 is formed by laminating a plurality of metal plates after processing such as grooving with a thin metal plate. Is also possible.

  The thickness of the base material 3 is not particularly limited as long as it is sufficient to fix and support the full punching blade 5 and the half-cutting blade 6 that penetrate the through grooves 30 and 31 provided in the base material 3. From the viewpoint of fixing and supporting these blades without falling off the material 3, the thickness corresponds to a length of about 1/3 or more of the blade height H5 of the full punch blade 5 or the blade height H6 of the half-cut blade 6. It is particularly preferable that the thickness corresponds to about half of the blade height H5 of the full punching blade 5 or the blade height H6 of the half-cut blade 6. In the present embodiment, the blade height H5 of the full punch blade 5 and the blade height H6 of the half-cut blade 6 are both 8 mm, and the base material 3 is made of acrylic resin having a thickness of 4 mm. That is, half of the height of the full punching blade 5 and the half-cutting blade 6 is a portion penetrating the base material 3.

  Next, the back plate 4 will be described. In the conventional blade type, the back plate is only used as a reinforcing plate that reinforces the base material for fixing the blade material such as a fully punched blade. The half cut blade 6 is supported, and the function of adjusting the protruding height of the full punch blade 5 and the half cut blade 6 from the surface of the base material 3 is provided.

  As shown in FIGS. 1, 3, and 4, the back plate 4 is formed with a full cutting blade height adjustment groove 40 and a half-cut blade height adjustment groove 41 that are dug in the thickness direction of the back plate 4. Has been. These blade height adjustment grooves 40 and 41 are formed in shapes corresponding to the shapes of the full punch blade 5 and the half cut blade 6, respectively, and the full punch blade 5 that penetrates the full punch blade through groove 30 of the base material 3. Are formed so that the half-cutting blades 6 penetrating through the half-cutting blade through-grooves 31 of the base material 3 are fitted into the half-cutting blade height adjusting grooves 41, respectively. The full punching blade height adjustment groove 40 is generated when the full punching blade height adjustment groove 40 is dug and formed while the full punching blade 5 penetrating the full punching blade through groove 30 is securely received and supported by the bottom surface of the groove. The groove width is such that the chips can be discharged from the groove. Similarly, the half-cut blade height adjustment groove 41 is also formed when the half-cut blade height adjustment groove 41 is dug and formed while the half-cut blade 6 penetrating the half-cut blade through groove 31 is securely received and supported by the bottom surface of the groove. Is formed with a groove width that can reliably discharge chips generated in the groove. Specifically, these groove widths are preferably groove widths corresponding to at least twice the thicknesses of the full punching blade 5 and the half-cutting blade 6. In this embodiment, the blade height adjusting grooves 40 and 41 are formed with a groove width of 1 mm. Further, the full punching blade height adjustment groove 40 and / or the half cut blade height adjustment groove 41 facilitates the full punching blade 5 and / or the half cut blade 6 to be fitted into these blade height adjustment grooves 40 and / or 41. In order to guide to the groove bottom surface, the groove side wall can be formed in a tapered shape extending in the base material 3 direction and narrowing in the groove bottom surface direction. These blade height adjustment grooves 40 and 41 can be formed by processing the back plate 4 with a machine tool such as a general machining center or a milling machine.

  Next, the digging depth D40 to the groove bottom surface of the full cutting blade height adjustment groove 40 formed on the back plate 4 and the groove bottom surface of the half-cut blade height adjustment groove 41 with reference to FIGS. The insertion depth D41 will be described. In the present embodiment, the release material 81 of the sheet-like base material 8 to be punched is formed of a material having a certain hardness, so that even in a normal state, half-cutting is performed. It is assumed that the thickness of the release material 81 itself hardly changes even when pressed by the cutting blade.

  As shown in FIG. 5, these blade height adjustment grooves 40 and 41 of the present embodiment are half-cut when the full cutting blade 5 simultaneously cuts the sealing material 80 and the release material 81 constituting the sheet-like substrate 8. The cutting blade 6 cuts only the sealing material 80, and the release material 81 is formed with a digging depth that does not cut. That is, the total cutting blade height adjusting groove is provided so that a difference is provided in the protruding height from the surface of the base material 3 of the full punching blade 5 and the half-cutting blade 6 by a length substantially corresponding to the thickness T81 of the release material. 40 and the digging depth to the groove bottom face of the half-cut blade height adjusting groove 41 are set. Specifically, the value α obtained by subtracting the blade height H6 of the half-cut blade from the blade height H5 of the full-cut blade is calculated from the digging depth D41 up to the groove bottom surface of the half-cut blade height adjustment groove. The value (α + β) obtained by adding the value β obtained by subtracting the digging depth D40 to the groove bottom surface of the punching blade height adjusting groove is designed to be substantially the value of the thickness T81 of the release material. . At this time, when the blade height H5 of the fully punched blade and the blade height H6 of the half-cut blade are the same, the height of the fully-cut blade height adjustment groove 40 and the half-cut blade height adjustment groove 41 to the groove bottom surface is as follows. The digging depth is obtained by subtracting the digging depth D40 from the digging depth D41 to the groove bottom surface of the half-cut blade height adjustment groove to the groove bottom surface of the full punching blade height adjustment groove, Therefore, it is designed to have a value of the thickness T81 of the release material. Thereby, in any part of the full punching blade 5 and the half-cutting blade 6, the half-cutting blade 6 has a length corresponding to the thickness T81 of the release material, and is higher than the protruding height of the full punching blade 5 from the surface of the base material 3. The blade mold 1 having a low protrusion height from the surface of the base material 3 is obtained.

  Further, regarding the full cutting blade height adjustment groove 40 and the half cut blade height adjustment groove 41, when the blade height adjustment groove is provided on the back plate 4, either the full cutting blade height adjustment groove 40 or the half cut blade height adjustment groove 41 is used. Rather than adjusting the protruding height of the full punching blade 5 and the half-cut blade 6 from the surface of the base material 3 by digging up, both the full-cutting blade height adjusting groove 40 and the half-cut blade height adjusting groove 41 are used. Digging and forming. Thereby, even when plate thickness unevenness occurs on the surface of the back plate or the like, the protruding heights of the full punching blade 5 and the half cut blade 6 protruding from the surface of the base material 3 without being affected by the unevenness of the plate thickness. Can be obtained with a desired value accurately.

  The material of the back plate 4 is a resin material or a metal material, and is not particularly limited, but an aluminum plate, a vinyl chloride resin, an iron plate, or the like is preferably used. Among these, the aluminum plate has a reinforcing effect, is light, and has little unevenness in the plate thickness, so that it is preferably used. The thickness of the back plate 4 may be any thickness that can form the full cutting blade height adjustment groove 40 and the half-cut blade height adjustment groove 41 on the back plate 4 while reinforcing the base material 3, and is about 1 mm to 5 mm. Is preferable, and 1.5 mm to 3 mm is particularly preferable. In this embodiment, the blade height H5 of the full punch blade 5 and the blade height H6 of the half-cut blade 6 are both 8 mm, the base material 3 is made of acrylic resin having a thickness of 4 mm, and the back plate 4 is 2 mm thick. The aluminum plate is used. Further, in the sheet-like base material 8 to be punched, the release material thickness T81 is 30 microns (0.03 mm), and the depth of the entire punching blade height adjustment groove 40 formed in the back plate 4 is as follows. The difference value β between the digging depth D41 of D40 and the half-cut blade height adjusting groove 41 is formed to be 30 microns.

  Next, the usage method of the blade type | mold 1 in this embodiment is demonstrated. As shown in FIG. 5, the blade mold 1 in this embodiment is used by being attached to a normally used flat pressure machine or the like. The sheet-like base material 8 is generally a roll of the continuous sheet-like base material 8 and is continuously fed between the blade mold 1 and the base 9 to obtain a desired shape. Punched into shape. In addition, the sheet-like base material 8 can also use what was formed discontinuously (every sheet). The sheet-like substrate 8 is formed by laminating a sealing material 80 and a peeling material 81, and the sealing material 80 and the peeling material 81 are further formed by laminating a plurality of materials. Specifically, the sealing material 80 is formed, for example, by laminating a surface material layer on which printing is performed and an adhesive layer for pasting from the front surface to the back surface, and further, on the surface side of the surface material layer Can also be provided with a laminate layer. Moreover, it is also possible to form the sealing material 80 by stacking a plurality of configurations composed of a surface material layer and an adhesive layer. On the other hand, the release material 81 is formed, for example, by laminating a release material layer and a mount layer from the front surface to the back surface.

  As shown in FIG. 5, when the sheet-like base material 8 is punched, the half-cut blade 6 is used when the entire punching blade 5 simultaneously punches the sealing material 80 and the release material 81 constituting the sheet-like base material 8. However, it is possible to punch only the sealing material 80 without cutting the release material 81. Since the protruding height of the full punching blade 5 and the half cut blade 6 from the surface of the base material 3 can be adjusted with high precision, even if it is a sheet-like substrate 8 made of a thin material such as a resin film, the full punching and half cutting Cut processing can be performed simultaneously with one blade type.

  Next, a blade mold 100 according to a second embodiment of the present invention will be described with reference to FIG. In the blade mold 100 according to the present embodiment, the digging depth D140 to the groove bottom surface of the fully punched blade height adjusting groove 140 and the groove bottom surface of the half-cut blade height adjusting groove 141 are compared to the first embodiment described above. Since it differs in the point of adjustment of the penetration depth D141, the point is demonstrated in detail. Note that FIG. 6 is displayed by changing the scale of members that are configured for easy understanding.

  In the present embodiment, the release material 181 of the sheet-like base material 108 to be punched is formed of a bulky material or a soft material, and thus has a certain thickness in a normal state. However, it is assumed that the thickness of the release material 181 itself is reduced by being pressed through the seal material 180 by the half-cut blade 106 during the half-cut processing.

  As shown in FIG. 6, these blade height adjusting grooves 140 and 141 of the present embodiment are half-cut when the punching blade 105 simultaneously cuts the sealing material 180 and the release material 181 constituting the sheet-like base material 108. The cutting blade 106 cuts only the sealing material 180, and the release material 181 is formed with a digging depth that does not cut. Here, the release material 181 is pressed by the half-cut blade 106 through the seal material 180 during half-cut processing, whereby the thickness of the release material 181 itself is reduced. Therefore, as described in the first embodiment, there is a difference in the protrusion height from the surface of the base material 103 of the full punching blade 105 and the half-cutting blade 106 by a length substantially corresponding to the thickness T181 of the release material. If the digging depth to the groove bottom surface of the full cutting blade height adjustment groove 140 and the half cut blade height adjustment groove 141 is set so that the sealing material 180 cannot be cut, half cut processing is performed. I can't. Therefore, the full cutting blade height adjusting groove 140 and the half cutting blade 105 and the half cutting blade 106 are provided with a difference in the protruding height from the surface of the base material 103 by a length shorter than the thickness T181 of the release material. The digging depth to the groove bottom surface of the cutting blade height adjusting groove 141 is set. Specifically, the value α obtained by subtracting the blade height H106 of the half-cut blade from the blade height H105 of the fully-cut blade is calculated from the digging depth D141 up to the groove bottom surface of the half-cut blade height adjustment groove. The value (α + β) obtained by adding the value β obtained by subtracting the digging depth D140 to the groove bottom surface of the punching blade height adjusting groove is that the half-cut blade 106 only applies the sealing material 180 of the sheet-like base material 108. It is designed to have a value of the thickness T181 ′ of the release material 181 when pressed by the half-cut blade 106 when punching. At this time, when the blade height H105 of the full cutting blade and the blade height H106 of the half-cut blade are the same, the full-cut blade height adjustment groove 140 and the half-cut blade height adjustment groove 141 to the groove bottom surface The digging depth is a value β obtained by subtracting the digging depth D140 from the digging depth D141 to the groove bottom surface of the half-cut blade height adjustment groove to the groove bottom surface of the full cutting blade height adjustment groove. When the cutting blade 106 punches only the sealing material 180 of the sheet-like base material 108, it is designed to have a value of the thickness T181 ′ of the release material 181 when pressed by the half-cut blade 106. Thereby, in any part of the full punching blade 105 and the half cut blade 106, the base material of the full punching blade 105 by the length corresponding to the thickness T181 ′ of the peeling material 181 when pressed by the half cut blade 106. The blade mold 100 in which the protruding height of the half-cut blade 106 from the surface of the base material 103 is lower than the protruding height from the surface 103 is obtained.

  In the present embodiment, the thickness T181 ′ of the release material 181 when pressed by the half-cut blade 106 of the release material 181 is not particularly limited, but is not less than 1/4 of the thickness T181 of the release material in a normal state. Is preferable, and more preferably 1/3 or more. In this embodiment, the blade height H105 of the full punching blade 105 and the blade height H106 of the half-cut blade 106 are both 8 mm, the base material 103 is made of 4 mm thick acrylic resin, and the back plate 104 is 2 mm thick. The aluminum plate is used. Of the sheet-like base material 108 to be punched, the thickness T181 of the release material 181 in a normal state is 100 microns (0.1 mm), but the release material when pressed by the half-cut blade 106. The thickness T181 ′ of 181 is 60 microns (0.06 mm), and the digging depth D140 of the full cutting blade height adjustment groove 140 and the digging depth of the half-cut blade height adjustment groove 141 formed on the back plate 104. The difference value β of D141 is formed to be 60 microns.

  In addition, the other description regarding the structure of the blade type | mold 100 is the same as that of the case of the blade type | mold 1 of 1st Embodiment mentioned above, The effect is also the same.

  Next, a blade mold 200 according to a third embodiment of the present invention will be described with reference to FIGS. Note that FIG. 8 is displayed upside down with respect to FIG. 7, and is displayed by changing the scale of the constituent members for easy understanding.

  As shown in FIG. 7, the blade mold 200 according to the present embodiment includes a plurality of half-cut blades 206, a full punching blade 205 disposed on the outside of the plurality of half-cut blades 206, and the plurality of these blades. The half-cut blade 206 and the blade fixing portion 202 for fixing the full punching blade 205 are roughly formed. The blade fixing portion 202 is configured by fixing a base material 203 and a back plate 204 in an overlapping state. Further, the base material 203 is provided with a blade-type fixture locking portion 233 formed by a notch on each side of the outer edge. Ecomag (registered trademark, Funamizu blade plate making product, not shown), which is a blade-type fixture, can be engaged with the engagement portion 233 for the blade-type fixture. Thereby, the blade mold 200 can be easily and quickly fixed to the chase and removed from the chase.

  The full punching blade 205 and the plurality of half-cut blades 206 embedded in the blade mold 200 will be described with reference to FIGS. The full punching blades 205 and the six half-cutting blades 206 are made of a strip-shaped thin steel plate, and are formed by bending a blade material having a cutting edge on one end side in the short-side direction into a desired shape. In this embodiment, as shown in FIG. 7, each full-cutting blade 205 and each half-cutting blade 206 have four corners so that the planar shapes seen from the upper surface are rectangular shapes different from each other. Each is formed by bending. As described above, it is possible to provide a plurality of half-cut blades 206 in one blade mold 200. Further, when manufacturing a label seal such as a donut shape in which not only the outer periphery but also the central portion of the sealing material is completely punched, it is also possible to use a blade type provided with a plurality of all punching blades.

  Next, the blade fixing portion 202 including the base material 203 and the back plate 204 for fixing and supporting the above-described full punching blade 205 and the plurality of half-cut blades 206 will be described with reference to FIG. The base material 203 and the back plate 204 are fixed to each other in a superimposed state. The base material 203 has the full punching blades 205 and the half cut blades 206 penetrate therethrough in a state where the cutting edges of the full punching blades 205 and the plurality of half cut blades 206 protrude from the surface. The base material 203 is formed with a full cutting blade through groove (full cutting blade slit) 230 and a half cut blade through groove (half cut blade slit) 231 penetrating in the thickness direction of the base material 203. . On the other hand, the back plate 204 is formed with a full cutting blade height adjustment groove 240 and a plurality of half-cut blade height adjustment grooves 241 dug in the thickness direction of the back plate 204. These blade height adjustment grooves 240 and 241 are formed in shapes corresponding to the shapes of the full punch blade 205 and the half cut blade 206, respectively, and the full punch blade 205 penetrating through the full punch blade through groove 230 of the base material 203. Are formed so that the half-cut blades 206 penetrating the half-cut blade through-grooves 231 of the base material 203 are fitted into the half-cut blade height-adjusting grooves 241 respectively.

  As shown in FIG. 8, the full punching blade height adjusting groove 240 and the plurality of half-cut blade height adjusting grooves 241 according to the present embodiment include a sealing material 280 and a peeling material in which the full punching blade 205 constitutes the sheet-like substrate 208. When simultaneously cutting 281, the plurality of half-cut blades 206 simultaneously cut only the sealing material 280, and the release material 281 is formed with a digging depth that does not cut. That is, the entire punching blade height adjustment groove 240 and the half cutting blade 205 and the half-cutting blade 206 are provided with a difference corresponding to the length corresponding to the thickness T281 of the release material so that the protruding height from the surface of the base material 203 of the full-cutting blade 205 and the half-cutting blade 206 is provided. The digging depth to the groove bottom surface of the cutting blade height adjusting groove 241 is set. Here, the protruding heights of the plurality of half-cut blades 206 from the surface of the base material 203 are all adjusted to be the same. Specifically, as the adjustment method, the half-cut blade height adjustment subject to adjustment is obtained by subtracting the blade height H206 of the half-cut blade to be adjusted from the blade height H205 of the entire punch blade. A value (α + β) obtained by adding the value β obtained by subtracting the digging depth D240 from the digging depth D241 to the groove bottom surface of the groove 241 to the grooving depth D240 to the groove bottom surface of the entire punching blade height adjusting groove 240 is substantially (α + β). The release material 281 is designed to have a thickness T281 value. At this time, when the blade height H205 of the fully punched blade and the blade height H206 of the half-cut blade are the same, the digging depth to the groove bottom surfaces of these blade height adjusting grooves 240 and 241 is The value obtained by subtracting the digging depth D240 of the full cutting blade height adjusting groove from the digging depth D241 of the half cut blade height adjusting groove is designed to be substantially the value of the thickness T281 of the release material. Is done. Thereby, in any part of the full cutting blade 205 and each half cut blade 206, the half cut blade is longer than the protruding height of the full punch blade 205 from the surface of the base material 203 by the length corresponding to the thickness T281 of the release material. A blade mold 200 having a low protrusion height of 206 from the surface of the base material 203 is obtained.

  The other description regarding the structure of the blade mold 200 is the same as that of the blade mold 1 of the first embodiment described above, and the operation and effects thereof are also the same. In the present embodiment, as in the first embodiment described above, the thickness T281 of the release material 281 of the sheet-like base material 208 that is the object of punching is half-cut during half-cut processing even in a normal state. Although the case where there is almost no change in the state of being pressed by the cutting blade 206 has been described, as described in the second embodiment, the half-cut blade 206 is pressed through the sealing material 280 during the half-cut processing. Therefore, when the thickness of the release material 281 itself is reduced, the value of (α + β) described above is the half-cut when the half-cut blade 206 punches only the seal material 280 of the sheet-like substrate 208. It can also be designed to have a thickness value of the release material 281 when pressed by the blade 206.

  Next, the usage method of the blade type 200 in this embodiment is demonstrated. As shown in FIG. 8, the blade mold 200 in the present embodiment is used by being attached to a normally used flat pressure machine or the like. When the sheet-like substrate 208 is punched, the six half-cut blades 206 remove the release material 281 when the entire punching blade 205 simultaneously punches the sealing material 280 and the release material 281 constituting the sheet-like substrate 208. Only the sealing material 280 can be punched without being cut. Furthermore, the other description regarding the usage method of the blade type | mold 200 which concerns on this embodiment is the same as that of the case of 1st Embodiment mentioned above, The effect is also the same.

  The present invention is not limited to the above-described embodiments, and various design changes within the scope not departing from the gist of the invention described in the claims are also included in the technical scope.

1, 100, 200 Blade type 2, 102, 202 Blade fixing part 3, 103, 203 Base material 30, 130, 230 Fully cut blade through groove 31, 131, 231 Half cut blade through groove 32 Screw hole 233 Blade type fixture Locking part 4, 104, 204 Back plate 40, 140, 240 Full cutting blade height adjustment groove D40, D140, D240 Depth of full cutting blade height adjustment groove 41, 141, 241 Half cut blade height adjustment groove D41 , D141, D241 Depth of half-cut blade height adjustment groove 42 Screw hole 5, 105, 205 Full-cutting blade H5, H105, H205 Full-cutting blade height 6, 106, 206 Half-cut blade H6, H106, H206 Blade height of half-cut blade 7,207 Screw 8,108,208 Sheet-like base material 80, 180, 280 Sealing material T80, T18 0, T280 Sealing material thickness 81, 181, 281 Release material T81, T181, T281 Release material thickness T181 'Thickness of release material when pressed by a half-cut blade 9, 109, 209 Base α Full cutting blade Value obtained by subtracting the height of the half-cut blade from the blade height β Value obtained by subtracting the depth of the full-cut blade height adjustment groove from the depth of the half-cut blade height adjustment groove

Claims (7)

A fully-cut blade, a half-cut blade, and a blade fixing portion for fixing the base of the fully-cut blade and the half-cut blade,
The blade fixing portion has a base material made of a resin material and a back plate made of a metal material, which are superposed and fixed to each other,
The full punching blade penetrates a full punching blade through groove formed in the thickness direction of the base material made of the resin material and is dug in the thickness direction of the back plate made of the metal material. It is inserted into the blade height adjustment groove and is supported on the groove bottom surface of the all-blade blade height adjustment groove,
The half-cut blade penetrates a half-cut blade through-groove formed in the thickness direction of the base material made of the resin material and is dug and formed in the thickness direction of the back plate made of the metal material It is inserted into the blade height adjustment groove and supported on the bottom surface of the half-cut blade height adjustment groove,
When the full punching blade punches the sheet-like base material in the thickness direction, the groove bottom surface of the full punching blade height adjustment groove so that the half-cut blade half-cuts to a partial depth of the sheet-like base material. The blade type is characterized in that the digging depth up to and the digging depth to the groove bottom surface of the half-cut blade height adjusting groove are adjusted. The full cutting blade height adjustment groove formed in the back plate made of the metal material is formed to have a groove width corresponding to at least twice the thickness of the blade of the full cutting blade, and the half cut blade height adjustment groove The blade shape according to claim 1, wherein the groove width is formed to a groove width corresponding to at least twice the thickness of the blade of the half-cut blade. The full cutting blade height adjustment groove and the half-cut blade height adjustment groove provided on the back plate made of the metal material are formed in a tapered shape in which the groove side wall extends in the base material direction and narrows in the groove bottom surface direction. The blade type according to claim 1, wherein the blade type is provided. The sheet-like substrate is formed by laminating at least a sealing material and a release material,
When the full punching blade punches the sheet-like base material in the thickness direction, the half-cutting blade punches only the seal material of the sheet-like base material, so that the excavation of the full punching blade height adjustment groove is performed. The digging depth and the digging depth of the half-cut blade height adjustment groove are the values obtained by subtracting the blade height of the half-cut blade from the blade height of the full-cut blade, and the half-cut blade height adjustment groove A value obtained by adding a value obtained by subtracting the digging depth of the entire cutting blade height adjusting groove from a digging depth is adjusted to be a value equal to or less than a thickness of the release material. Item 4. The blade shape according to any one of Items 1 to 3 . The value equal to or less than the thickness of the release material is a value of the thickness of the release material when the half-cut blade is pressed by the half-cut blade when punching out only the sealing material of the sheet-like base material. The blade type according to claim 4 . Cutting die according to claim 4 or 5, characterized in that said the blade height of the blades height and the half-cut blade of the total punching blade is substantially the same. The blade type according to claim 4 or 5 , wherein a blade height of the full punching blade and a blade height of the half-cut blade are different from each other.

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