JP5815997B2 - Die fixing device - Google Patents

Description

  The present invention relates to a die fixing device for fixing a die used for embossing, die-cutting, hot foil stamping, etc. for pressing a die against a printed sheet to a cylinder. is there.

  This type of die is roughly divided into plate dies and block dies. Among these, for the plate die, a resin plate in which the base plate is formed of a film and a resin plate in which the base plate is formed of a metal such as a steel plate or an aluminum alloy are used.

  Such a plate die is formed in a sheet shape, is easy to manufacture, is inexpensive, and is fixed to the circumferential surface of a rotating cylinder using the magnetic force of a double-sided adhesive tape or magnet. For example, there is a type in which a large number of magnets are embedded on almost the entire surface of a magnet cylinder, and a steel plate die is attached to the surface of the magnet cylinder by a magnetic force (see Patent Document 1).

  On the other hand, the block die is engraved by a corrosion process and a cutting process using a metal such as a copper alloy or steel. As the block die is mounted on the rotary cylinder, a hole having a honeycomb structure is provided on the peripheral surface of the cylinder, and the block die is attached to the peripheral surface of the rotary cylinder by selectively inserting pins into these many holes. Some are fixed at an arbitrary position (see, for example, Patent Document 2).

JP 2010-5881 A US1,382,151 specification

  When positioning this type of die on the rotary cylinder, it is necessary to accurately adjust the registration with the printed pattern or paperwork product. For example, when printing paper is used as the workpiece, the printing paper expands and contracts due to an environment such as humidity. Further, since the elongation deformation is applied to the printing paper when the embossing is performed, the elongation differs between the portion where the embossing is concentrated and the portion where the embossing is not performed.

  Further, since the printing paper is deformed into a distortion, the register changes depending on the arrangement of the embossed pattern portions. Therefore, it is necessary to always finely register the die position with respect to the printed pattern or the like on the spot, on that day, and at that time, which requires a lot of preparation time and skilled techniques.

  On the other hand, in the former case of the conventional die fixing device as described above, after the plate die is mounted on the surface of the cylinder by the magnetic force of the magnet, the plate is once adjusted to perform minute registration adjustment.・ Because it is necessary to remove the die from the surface of the cylinder against the magnetic force of the magnet, there is a problem that fine adjustment is difficult once the plate / die is fixed to the cylinder.

  In the latter case, it is possible to move the position of the block die depending on the pitch of the honeycomb-shaped holes, but since the positions of the holes that can be used are determined, the block dies are to be densely packed. In some cases, there was a limitation, and there was a problem that the degree of freedom of movement was limited.

  The present invention has been made in view of the above-described conventional problems, and an object of the present invention is to easily move a die to a predetermined position regardless of whether it is a plate die or a block die. An object of the present invention is to provide a die fixing device that can be finely adjusted.

In order to achieve this object, the present invention provides a cylinder provided with a plurality of grooves parallel to each other in a circumferential axis direction of the circumferential surface or a direction perpendicular to the trunk axis direction, and a die for processing a workpiece. a base block provided with an engaging portion for movably supporting said is fitted into the groove movably supported along said groove said base block in a direction perpendicular to the groove, the engaging portion and a fixing means for fixing the engaging said base block to the peripheral surface portion of said cylinder and said base block, during unlocking by the locking means, together with the movable along said groove The body is supported by the body so as to be movable in a direction perpendicular to the groove.

  The present invention provides a trunk cover member that is mounted so as to cover the circumferential surface of the trunk and in which a plurality of grooves parallel to each other in the circumferential direction perpendicular to the trunk axis direction or the trunk axis direction are provided on the circumferential surface, A base block fixed to the peripheral surface of the member by a fixing means and provided with a die for processing the workpiece, and the fixing means is fitted into the groove and supported so as to be movable along the groove. The base block is fixed to the peripheral surface of the case cover member, and the base block moves along the groove integrally with the fixing means when the fixing means is released. It is possible to be supported by the trunk cover member so as to be movable in a direction perpendicular to the groove.

  According to the present invention, in any one of the above inventions, the groove has an opening narrowed by a stepped portion, and the fixing means holds the stepped portion between the engaging portion and the base block. The base block is fixed to the circumferential surface of the barrel.

  According to the present invention, in any one of the above inventions, the groove has an opening narrowed by a step portion, and the base block has a retaining flange projecting at both ends in the direction in which the groove extends. And the fixing means includes a bolt with a hole that is screwed into the engagement portion, and the fastening flange and the stepped portion are clamped between the bolt with the hole and the engagement portion by tightening the bolt with the hole. The base block is fixed to the peripheral surface of the.

  According to the present invention, in any one of the above inventions, the fastening flanges provided on both sides of the base block are provided at different positions in a direction orthogonal to the direction in which the groove extends. .

  The present invention is the invention according to any one of the above-mentioned inventions, wherein the surface of the base block is flush with the surface of the base block at both ends of the base block in the direction in which the groove extends. A cover flange covering the means is projected in the extending direction of the groove, and the fixing means comprises a stopper that clamps the retaining flange and the stepped portion by the bolt with the hole and the engaging portion, The cover flange is provided with an operation hole for rotating the bolt with the hole.

  According to the present invention, in any one of the above inventions, the groove has an opening narrowed by a stepped portion, and the fixing means has a hole that is screwed into a screw hole formed through the base block. A clamp bolt, the engagement portion is provided at a distal end portion of the clamp bolt, the stepped portion is sandwiched between the engagement portion and the base block, and the base block is fixed to the circumferential surface of the trunk, A hole filling member that is screwed into the screw hole of the base block is provided.

  According to the first or second aspect of the present invention, the die can be easily moved to an arbitrary position of the cylinder by moving the die in the direction in which the groove extends and the direction perpendicular thereto, and registering the die. Can be easily fine-tuned.

  According to the invention which concerns on Claim 3, a die can be reliably fixed to the arbitrary positions of a trunk | drum because a fixing means clamps the step part comprised by the groove | channel.

  According to the fourth aspect of the present invention, since the projecting direction of the retaining flange of the base block can be selected by selecting the extending direction of the groove, the dense direction of the dies can be selected.

  According to the fifth aspect of the present invention, since the distance between adjacent dies can be reduced, the dies can be arranged more densely.

  According to the invention of claim 6, since the surface area of the die can be increased, it is possible to regulate the occurrence of wrinkles and scratches when processing the workpiece, and to release the fastening of the bolts with holes. Can also prevent the bolts with holes from falling. In addition, since the interval between adjacent blocks and dies can be reduced, the workpieces can be densely packed, and the waste of the workpieces can be reduced.

  According to the invention of claim 7, since the outer shape of the hole for fastening the clamp bolt formed on the resin plate can be reduced, even if the patterns provided on the resin plate are densely packed, It becomes possible to arrange a clamp bolt in a necessary place without interfering.

1 is a perspective view of a rotary cylinder to which a die fixing device according to a first embodiment of the present invention is applied. 1 is a perspective view of a die fixing device according to a first embodiment of the present invention. It is the III-III sectional view taken on the line in FIG. It is the IV-IV sectional view taken on the line in FIG. It is a perspective view of the clamp apparatus in the fixing device of the die | dye which concerns on the 1st Embodiment of this invention. The 1st modification of the 1st Embodiment of this invention is shown, The figure (A) is a perspective view of a trunk | drum cover member, The figure (B) is the rotary cylinder with which the trunk | drum cover member was attached to the surrounding surface. It is a perspective view. It is a perspective view of the rotary cylinder in the 2nd Embodiment of this invention. It is a perspective view of the rotary cylinder to which the die fixing device according to the second embodiment of the present invention is applied. It is a perspective view of the fixing device of the die | dye in the 2nd Embodiment of this invention. It is a perspective view which shows the 1st modification of the fixing device of the die in the 2nd Embodiment of this invention. It is a perspective view which shows the 2nd modification of the fixing device of the die in the 2nd Embodiment of this invention. It is a perspective view which shows the 3rd modification of the fixing device of the die | dye in the 2nd Embodiment of this invention. It is a perspective view of the trunk | drum cover member to which the fixing device of the die | dye which concerns on the 3rd Embodiment of this invention was applied. It is a perspective view of the fixing device of the die | dye which concerns on the 3rd Embodiment of this invention. It is the XV-XV sectional view taken on the line in FIG. It is the XVI-XVI sectional view taken on the line in FIG. The die fixing device which concerns on the 3rd Embodiment of this invention is shown, The figure (A) is a perspective view of a resin plate, The figure (B) is a perspective view of a base block, The figure (C) is a base. -It is a perspective view which shows the state which affixed the resin plate to the block partially and shows it. It is a perspective view of the clamp apparatus in the fixing device of the die | dye which concerns on the 3rd Embodiment of this invention. It is a bottom view of the fixing device of the die | dye concerning the 3rd Embodiment of this invention. It is the disassembled perspective view which looked at the fixing device of the die | dye concerning the 3rd Embodiment of this invention from the bottom face side. It is a perspective view of the fixing device of the die | dye which concerns on the 1st modification of the 3rd Embodiment of this invention. It is a perspective view of the trunk | drum cover member which shows the mounting state of the resin plate in order to compare with the fixing device of the die | dye concerning the 4th Embodiment of this invention. It is a perspective view of the fixing device of the die | dye which concerns on the 4th Embodiment of this invention. It is an enlarged view of the principal part in FIG. It is the XXV-XXV sectional view taken on the line in FIG. It is the XXVI-XXVI sectional view taken on the line in FIG. It is a perspective view of the fixing means in the fixing device of the die | dye which concerns on the 4th Embodiment of this invention. In the die fixing device according to the fourth embodiment of the present invention, it is a perspective view of the trunk cover member 20 viewed from the back side. It is a perspective view of the 1st modification of the fixing device of the die | dye which concerns on the 4th Embodiment of this invention.

Hereinafter, embodiments of the present invention will be described with reference to FIGS.
[Embodiment 1]

  First, the first embodiment of the present invention will be described with reference to FIGS. In FIG. 1, reference numeral 1 denotes a rotary cylinder as a cylinder. End shafts 1a and 1a project from both ends, and a large number (in the present embodiment, only two) extend in the circumferential direction. 2) are provided so as to be parallel to each other at equal intervals in the trunk axis direction.

  A part of the peripheral surface of the rotary cylinder 1 is provided with a notch extending in the entire axial direction. The groove 2 is divided at the notch, and an engagement portion described later is formed on the divided end surface. An opening (not shown) through which the engaging member 6 can be inserted into the groove 2 is provided. Further, as shown in FIG. 4, the groove 2 is formed in a dovetail shape so that the cross section has an inverted T shape, and is provided with a step portion 2a.

  In FIG. 2, 3 is a base block formed in a flat, substantially rectangular parallelepiped shape, and the back surface 3a faces the circumferential direction (arrow C-D direction) of the rotary cylinder 1 and the circumferential surface of the rotary cylinder 1 The whole is curved as shown in FIG. 3 so as to have the same curvature as 1b.

  Fastening flanges 3b and 3b are provided at both ends of the base block 3 in the bending direction (arrow C-D direction). The fastening flanges 3b and 3b each have a direction in which the groove 2 extends. A pair of long holes 3c extending in the orthogonal direction (arrow A-B direction) is provided.

  4 is a block die formed in a block shape in a flat, substantially rectangular parallelepiped shape. A predetermined pattern is formed on the front surface 4a, and the back surface 4b has a curvature of the surface 3d of the base block 3 as shown in FIG. The whole is curved so as to have the same curvature.

  This block die 4 has a base 4 with a hexagon socket head bolt 5 in the region excluding the retaining flanges 3b, 3b of the base block 3 with the back surface 4b in contact with the front surface 3d of the base block 3. Fixed to block 3.

  With the block die 4 fixed to the base block 3 in this way, the surface 3d of the retaining flange 3b is at a position lower than the surface 4a of the block die 4 by a height H as shown in FIG. It is positioned at a position retracted from the surface 4a of the die 4 in the height direction (thickness direction of the block die 4).

  In FIG. 5, 6 is an engaging member inserted into the groove 2 described above, and as shown in FIG. A step portion 6 a that engages with the step portion 2 a of the groove 2 is provided, and a screw hole 6 b is formed in the center portion.

  Reference numeral 7 denotes a hexagon socket head bolt as a fixing means having a hexagon socket 7 a on the head, and is screwed into the screw hole 6 b of the engagement member 6. Reference numeral 8 denotes a stopper formed in a substantially rectangular parallelepiped shape. A concave portion 8b having a seat surface 8a is formed in a circular shape in a plan view, and an insertion hole 8c is provided at the center of the seat surface 8a.

  The engaging member 6, the hexagon socket head cap bolt 7 and the stopper 8 constitute a clamping device 9 for clamping and fixing the block die 4 to the base block 3 as will be described later.

  Next, a die fixing method and a die registration adjusting method in the die fixing apparatus configured as described above will be described. First, the hexagon socket head bolt 7 is inserted into the insertion hole 8 c of the stopper 8, and further inserted into each of the four long holes 3 c of the retaining flange 3 b of the base block 3.

  Next, the screw hole 6b of the engaging member 6 is screwed into the hexagon socket head bolt 7 on the back surface side of the base block 3, so that the hexagon socket head bolt 7 and the engaging member 6 are removed from the base block 3. Regulate dropout.

  In this state, the engaging member 6 is inserted into the groove 2 from an opening (not shown) of the predetermined groove 2, and the base block 3 is inserted along the groove 2 in the circumferential direction (arrow C). -D direction) and tighten the hexagon socket head cap screw 7 at a predetermined position.

  By tightening the bolt 7, the step 6 a of the engaging member 6 engages with the step 2 a of the groove 2 as shown in FIG. 4, so that the retaining flange 3 b comes into contact with the peripheral surface 1 b of the rotary cylinder 1. In this state, since it is clamped between the engaging member 6 and the stopper 8, the retaining flange 3b is fixed to the peripheral surface 1b of the rotary cylinder 1 as shown in FIG.

  That is, the block die 4 is fixed to the peripheral surface 1 b of the rotary cylinder 1 through the base block 3. Next, in order to adjust the registration of the block die 4 fixed to the peripheral surface of the rotary cylinder 1 via the base block 3, the tightening of the hexagon socket head bolt 7 is loosened.

  In this state, by moving the engaging member 6 along the groove 2 in the direction of arrow CD, that is, in the circumferential direction of the rotary cylinder 1, the circumference of the block die 4 via the base block 3 is increased. Direction registration is adjusted.

  At the same time, the base block 3 is moved in the direction of the arrow AB along the long hole 3c, that is, in the cylinder axis direction of the rotary cylinder 1, so that the cylinder axis direction of the block die 4 passes through the base block 3. Registration adjustment is made.

  As described above, the block die 4 can be moved in the circumferential direction and the trunk axis direction of the rotary cylinder 1 via the base block 3, so that the block die 4 can be easily moved to an arbitrary position of the rotary cylinder 1. Can be arranged.

  Further, the block die 4 can be moved to any position in the extending direction of the groove 2 (arrow C-D direction) and in the extending direction of the long hole 3c (arrow A-B direction). Can be easily fine-tuned.

  In this embodiment, the extending direction of the groove 2 is the circumferential direction of the rotary cylinder 1, so that the retaining flanges 3b and 3b of the base block 3 are connected to the arrows of the base block 3 as shown in FIG. It will be provided at both ends in the CD direction.

  In other words, since no fastening flange is formed at both ends of the base block 3 in the direction of arrow AB, the width of the base block 3 in the direction of arrow AB is the same as the width of the block die 4. Can do.

  For this reason, since the space | interval between the block dies 4 adjacent to each other in the arrow AB direction can be minimized, the block die 4 can be moved in the arrow AB direction (the barrel axis direction of the rotary cylinder 1). It becomes possible to make it dense.

  Next, a first modification of the first embodiment will be described with reference to FIG. The first modification differs from the first embodiment described above in that the groove 2 is not directly provided on the peripheral surface of the rotary cylinder, but is a cylinder cover member attached to the peripheral surface of the rotary cylinder. The block die 4 is indirectly attached to the peripheral surface of the rotary cylinder via the trunk cover member 10.

  That is, as shown in FIG. 2A, the trunk cover member 10 is formed in a cylindrical shape having the same curvature on the peripheral surface and the inner peripheral surface of the rotary cylinder 15, and the opening 2b is formed at both ends. The same groove | channel 2 as 1st Embodiment extended in the circumferential direction is provided in the surrounding surface.

  The body cover member 10 is divided at the dividing line 11 into two curved bodies 10A and 10B. The trunk cover member 10 is provided with a large number of insertion holes 13, and a notch 12 extending in the axial direction is provided in a part of the circumferential direction.

  The body cover member 10 formed in this way is provided with bolts 16 in which the curved bodies 10A and 10B are in contact with the peripheral surface of the rotary cylinder 15 and the insertion holes 13 are inserted, as shown in FIG. By screwing into a screw hole (not shown) provided on the peripheral surface of the rotary cylinder 15, the rotary cylinder 15 is fixed to the peripheral surface. A gripper device 14 is provided on the rotary cylinder 15 and faces the notch 12.

  The block die 4 is fixed to the groove 2 of the trunk cover member 10 fixed to the peripheral surface of the rotary cylinder 15 through the base block 3 in the same manner as in the first embodiment.

  In this way, the groove 2 is not formed directly on the peripheral surface of the rotary cylinder 1, but the groove 2 is formed on the body cover member 10, so that the processing is easy and the rotary cylinder 1 is Since it can be used as it is, the manufacturing cost can be reduced.

  In the first modification of the first embodiment, the case where the body cover member is divided into two parts has been described. For example, the circumference of the region attached to the peripheral surface of the counter cylinder 15 is described. When the angle of the direction is less than 180, the body cover member may be one instead of being divided into two.

In addition, since the rotary cylinder 15 is a conveyance cylinder and includes the gripping claw device 14, an example in which a shell type member in which a part of the cylinder cover member 10 is removed in the cylinder axis direction is used is described. However, when it is mounted on a cylinder not provided with a gripper device, it may be of a sleeve type formed in a cylindrical shape.
[Embodiment 2]

  Next, a second embodiment of the present invention will be described with reference to FIGS. The second embodiment is different from the above-described first embodiment in the extending direction of the groove 2. That is, in the first embodiment, the groove 2 extends in the circumferential direction of the rotary cylinder 15, but in this second embodiment, the groove 2 is orthogonal to the circumferential direction of the rotary cylinder 15. It extends in the direction of the trunk axis.

  In FIG. 7, a large number of grooves 2 extending in the trunk axis direction of the rotary cylinder 1 are parallel to each other in the circumferential direction on the circumferential surface of the trunk cover member 20 attached to the circumferential surface of the rotary cylinder 1. The both ends of the groove 2 in the extending direction are opened, and an opening 2b (one opening 2b is not shown) is formed.

  Further, in the second embodiment, the circular direction of the rotary cylinder 1 is such that the extending direction of the long hole 21b formed in the retaining flange 21a of the base block 21 is the direction orthogonal to the extending direction of the groove 2. The point which is going to the circumferential direction (arrow CD direction) is also a point different from the first embodiment.

  The block die 4 is attached by bolts 5, and the cylinder axis direction of the rotary cylinder 1 of the base block 21 fixed to the peripheral surface of the rotary cylinder 1 through the cylinder cover member 20 as will be described later (arrow A- At both ends in the (B direction), retaining flanges 21a and 21a are provided which are positioned at positions retracted from the surface of the block die 4.

  Each of the retaining flanges 21 a is provided with a pair of long holes 21 b and 21 b extending in the circumferential direction (arrow CD direction) of the rotary cylinder 1.

  In order to mount the block die 4 on the peripheral surface of the rotary cylinder 1, first, the hexagon socket head bolt 7 is inserted into the insertion hole 8 c of the stopper 8, and further, the four of the retaining flanges 21 a of the base block 21 are inserted. The two long holes 21b are inserted.

  Next, the screw hole 6b of the engaging member 6 is screwed into the hexagon socket head bolt 7 on the back surface side of the base block 21 to thereby remove the hexagon socket head bolt 7 and the engagement member 6 from the base block 21. Regulate dropout.

  In this state, the engaging member 6 is inserted into the predetermined groove 2 from the opening 2b, and the base block 21 is moved along the groove 2 in the trunk axis direction (arrow A-B direction) of the rotary cylinder 1. By tightening the hexagon socket head cap screw 7 at a predetermined position, the block die 4 is fixed to the peripheral surface of the rotary cylinder 15 as shown in FIG.

  Next, in order to adjust the registration of the block die 4 fixed to the peripheral surface of the rotary cylinder 15 via the trunk cover member 20 and the base block 21 in this manner, the hexagon socket head bolt 7 is tightened. Loosen.

  In this state, by moving the engaging member 6 along the groove 2 in the direction of the arrow A-B, that is, in the cylinder axis direction of the rotary cylinder 1, the cylinder axis of the block die 4 via the base block 21. Direction registration is adjusted.

  At the same time, the base block 21 is moved along the long hole 21b in the direction of arrow CD, that is, in the circumferential direction of the rotary cylinder 15, so that the circumferential direction of the block die 4 via the base block 21 is achieved. Registration adjustment is made.

  In this way, the block die 4 can be moved in the circumferential direction and the trunk axis direction of the rotary cylinder 15 via the base block 21, so that the block die 4 can be moved in the same manner as in the first embodiment described above. It can be easily arranged at an arbitrary position of the rotary cylinder 15.

  Further, the block die 4 can be moved to any position in the extending direction of the groove 2 (arrow A-B direction) and the extending direction of the long hole 21b (arrow C-D direction). Can be easily fine-tuned.

  In the second embodiment, the extending direction of the groove 2 is the trunk axis direction of the rotary cylinder 1, so that the retaining flanges 21a and 21a of the base block 21 are formed as shown in FIG. 21 at both ends in the extending direction of the groove 2 (arrow A-B direction).

  In other words, since the fastening flange is not formed at both ends in the extending direction (arrow CD direction) of the long hole 21b of the base block 21, the width of the base block 21 in the arrow CD direction is the block. -It can be the same width as the die 4.

  For this reason, since the space | interval between the block dies 4 adjacent to each other in the arrow CD direction can be minimized, the block die 4 can be moved in the arrow CD direction (circumferential direction of the rotary cylinder 1). It becomes possible to make it dense. Thus, by selecting the extending direction of the groove 2, it is possible to correspond to the direction in which the block dies 4 are densely packed.

  Next, a first modification of the second embodiment will be described with reference to FIG. In the first modification, a block die is integrally formed with the base block 25, and a die portion 25a is provided.

  Fastening flanges 25b and 25b are provided at both ends of the base block 25 in the body axis direction (arrow A-B direction) of the rotary cylinder 15, and the fastening flange 25b includes the rotary cylinder 15 of the rotary cylinder 15. A pair of long holes 25c extending in the circumferential direction is provided.

  Next, a second modification of the second embodiment will be described with reference to FIGS. 8 and 11. In FIG. 2A, reference numeral 27 denotes a thin plate-like resin plate as a flexible plate die formed in a rectangle, and a convex die 27a is formed on the surface.

  One end of the base block 28 in the direction of arrow A and the center in the direction of arrow CD is provided with one retaining flange 29a, and the end of the base block 28 relative to the end of the retaining flange 29a. A pair of retaining flanges 29b and 29c are provided at both ends (in the direction of arrow CD) of the portion (in the direction of arrow B).

  That is, the groove 29 extends between the flange 29a provided at the end of the base block 28 (in the direction of arrow A) and the fastening flanges 29b and 29c provided at the end (in the direction of arrow B) with respect to the end having the fastening flange 29a. They are provided at different positions in the direction (arrow C-D direction) orthogonal to the existing direction (arrow A-B direction).

  In this embodiment, the fastening flanges 29b, 29a, 29c are arranged in a staggered manner in a direction (arrow C-D direction) orthogonal to the direction in which the groove 2 extends. Each of the retaining flanges 29a, 29b, and 29c is provided with a long hole 30 that extends in the direction of the arrow CD.

  The resin plate 27 is bonded to the surface of the base block 28 with a double-sided adhesive tape as shown in FIG.

  With this configuration, when the base block 28 is attached to the peripheral surface of the trunk cover member 20 as shown in FIG. 8 by the engaging member 6, the hexagon socket head bolt 7 and the stopper 8, The retaining flange 29a and the other retaining flanges 29b and 29c do not interfere with each other.

  Therefore, since the space | interval between the adjacent base blocks 28 can be narrowed, it becomes possible to arrange the base blocks 28 densely in the direction (arrow A-B direction) where the groove | channel 2 extends.

  Further, since the resin plate 27 is attached to the trunk cover member 20 via the base block 28, the resin plate 27 as a plate die is connected to the same rotary die as the block die 4 as shown in FIG. Can be mounted on a cylinder. In this way, the plate die and the block die can be mounted on the same cylinder, so that it is possible to meet a wide range of customer requirements.

  FIG. 12 shows a third modification of the second embodiment. The difference from the second modification described in FIG. 11 is that the resin plate 32 is bonded to the surface of the base block 28. The die 32a is a concave shape. In this third modification, it can be mounted on the same rotary cylinder as the block die.

  In the second embodiment, the example in which the groove 2 is provided in the body cover member 20 has been described. However, it is needless to say that the groove 2 may be provided directly on the peripheral surface of the rotary cylinder 15. .

[Embodiment 3]

  Next, a third embodiment of the present invention will be described with reference to FIGS. The base block 40 in the third embodiment is attached to the peripheral surface of the trunk cover member 20 provided with the groove 2 extending in the trunk axis direction (arrow A-B direction) as shown in FIG. .

  At both ends in the direction in which the groove 2 of the base block 40 extends (arrow A-B direction) and retracted from the surface 40a of the base block 40, that is, at the lower end portion in the figure, the fastening flange 41 has an arrow A. Projected in the -B direction.

  Cover flanges 42, 42 covering the retaining flange 41 are provided at both ends of the base block 40 in the direction in which the groove 2 extends (in the direction of the arrow AB), and protrudes in the direction of the arrow AB. The protruding amount of the flange 42 in the arrow AB direction is larger than the protruding amount of the retaining flange 41.

  The surface 42a of the covering flange 42 and the surface 40a of the base block 40 are flush with each other. Each of the cover flanges 42 is provided with a pair of long holes 42b extending in a direction (arrow CD direction) orthogonal to the direction in which the groove 2 extends, and as shown in FIG. A long groove 42c into which a spring pin 45 (to be described later) is inserted is provided in parallel with the long hole 42b.

  Further, an engagement groove 43 is provided between the cover flange 42 and the retaining flange 41 over the entire arrow CD direction.

  Numeral 44 is a stopper formed in a substantially rectangular parallelepiped shape. As shown in FIG. 16, a counterbore portion 44a formed in a mortar shape is provided in the center portion, and in the center portion of the counterbore portion 44a, An insertion hole 44b is provided.

  Further, as shown in FIG. 18, a hook 44c to be engaged in the engagement groove 43 is provided on the upper side of one side portion of the stopper 44 so as to protrude in the horizontal direction. A pair of non-through holes 44d, 44d in which the spring pins 45 are accommodated are recessed.

  The spring pin 45 accommodated in the non-through hole 44d is always urged so that the tip portion protrudes from the non-through hole 44d, and a load is applied to the tip portion to resist this urging force. It is configured to be immersed in 44d.

  In FIG. 17, reference numeral 46 denotes a thin resin plate having a rectangular shape and having a flexible shape. A concave mold 46a is formed on the surface, and a long hole 46b is provided at each of the four corners.

  As shown in FIG. 4C, the resin plate 46 is bonded to the surface 40a of the base block 40 with a double-sided adhesive tape with the long holes 42b and 46b aligned with each other. It is formed.

  In order to attach the plate die 47 thus configured to the peripheral surface of the trunk cover member 20, the spring pin 45 is accommodated in the non-through hole 44 d of the stopper 44 in advance.

  Next, as shown in FIG. 18, the hexagon socket head bolt 7 is inserted into the insertion hole 44 b of the stopper 44 and screwed into the screw hole 6 b of the engagement member 6, and the engagement member 6 and the stopper 44 are connected to the hexagon hole. It connects via the attachment bolt 7. FIG.

  As shown in FIGS. 14 and 20, the convex portions 44c of the four stoppers 44 connected to the engaging member 6 are engaged with the engaging grooves 43 of the base block 40, and the hexagon socket head bolts 7 are The stoppers 44 are moved in the direction of the arrow CD so as to correspond to the long holes 42 b of the block 40, and the four stoppers 44 and the four engaging members 6 are temporarily assembled to the base block 40.

  In this state, the spring pin 45 accommodated in the non-through hole 44 d of the stopper 44 is engaged in the long groove 42 c of the base block 40.

  Next, each of the four engaging members 6 temporarily assembled to the base block 40 is inserted into the predetermined groove 2 from the opening 2b as shown in FIG. 13, and the engaging member 6 is moved along the groove 2. The wrench (not shown) is inserted from the long hole 42b of the base block 40 by moving to a predetermined position in the direction of arrows A-B.

  When the hexagon socket head bolt 7 is rotated by the inserted wrench in the direction of tightening, the engaging member 6 moves to the stopper 44 side as shown in FIG. 16, and the step portion 6a of the engaging member 6 is the step of the groove 2. Engages with part 2a. Thus, the long hole 42b functions as an operation hole for fitting the wrench into the hexagonal hole 7a of the hexagonal socket bolt 7 and rotating the hexagonal socket bolt 7.

  As shown in FIGS. 15 and 16, the base block 40 is sandwiched by the step portion 6 a of the engaging member 6 and the flange 44 c of the stopper 44 together with the case cover member 20, so that the back side is covered with the case cover. The cylinder cover member 20 is fixed in contact with the peripheral surface of the member 20.

  That is, the resin plate 46 is fixed to the circumferential surface of the trunk cover member 20 via the base block 40. As described above, the engaging member 6, the hexagon socket head bolt 7 and the stopper 44 constitute a clamping device 49 (see FIG. 18) for clamping the base block 40 to the trunk cover member 20.

  Next, in order to adjust the registration of the resin plate 46 fixed to the peripheral surface of the trunk cover member 20 via the base block 40, a wrench (not shown) inserted from the long hole 42b of the base block 40 is used. Loosen the hexagon socket head bolt 7.

  In this state, the engagement member 6 is moved along the groove 2 in the direction of the arrow A-B, that is, in the axial direction of the body cover member 20, thereby registering the resin plate 46 in the axial direction via the base block 40. Adjustments are made.

  At the same time, the base block 40 is moved in the direction of the arrow CD with respect to the engaging member 6 so that the flange 44c of the stopper 44 is guided along the engaging groove 43 of the base block 40, that is, the trunk cover member. Accordingly, the registration of the resin plate 46 in the circumferential direction is adjusted via the base block 40.

  In this way, the resin plate 46 can be moved in the circumferential direction and the cylinder axis direction of the trunk cover member 20 via the base block 40, so that the resin plate 46 can be easily arranged at an arbitrary position of the trunk cover member 20. be able to.

  Further, the resin plate 46 can be moved to any position in the extending direction of the groove 2 (arrow A-B direction) and in the extending direction of the long hole 42b (arrow C-D direction). Adjustment becomes easy.

  Further, since the cover flange 42 is provided on the base block 40, the surface area of the base block 40 is increased, and the distance between the adjacent base blocks 40, 40 in the direction of arrow AB can be almost eliminated. .

  Therefore, the base blocks 40 can be arranged densely, and when the workpiece processed by the resin plate 46 is processed, wrinkles and scratches can be restricted. it can.

  Further, by providing the cover flange 42, the head of the hexagon socket head bolt 7 released from the engagement with the engaging member 6 comes into contact with the cover flange 42, thereby preventing the hexagon socket head bolt 7 from coming off. Therefore, the falling off of the hexagon socket head bolt 7 from the stopper 44 can be restricted.

  Further, the ability of the hexagon socket head bolt 7 to be prevented from falling off from the stopper 44 allows the non-through hole of the stopper 44 to be released when the hexagon socket head bolt 7 is unscrewed from the engaging member 6. Since the spring pin 45 accommodated in 44d is engaged in the long groove 42c of the base block 40, dropping of the stopper 44 and the base block 40 from the trunk cover member 20 is also restricted.

Next, a first modification of the third embodiment of the present invention will be described with reference to FIG. In this first modification, the resin plate 46 is not separately mounted on the surface 40a of the base block 40, but a concave mold 40b is integrally formed on the surface 40a of the base block 40. Is different from the above-described third embodiment.
[Embodiment 4]

  Next, a fourth embodiment of the present invention will be described with reference to FIGS. The fourth embodiment relates to a die fixing device effective for mounting a resin plate having a relatively large outer dimension on the circumferential surface of a cylinder.

  When a resin plate with a relatively large external dimension is bonded to the base block and attached to the peripheral surface of the cylinder via the base block with a bolt, a hole larger than the head of the bolt is formed in the resin plate. This causes a problem that the bolt cannot be arranged at a predetermined position.

  This will be described with reference to FIG. 22. Six resin plates 50 having relatively large external dimensions are bonded to the surface of the body cover member 10 in which the circumferentially extending grooves 2 are formed. The six base blocks 51 are fixed by a large number of bolts 52.

  In this case, if the pattern of the mold formed on the surface of the resin plate 50 is dense and the hole provided in the resin plate 50 for inserting the bolt 52 is large, the hole overlaps the pattern and the bolt 52 is arranged at a predetermined position. I can't do that.

  Therefore, in the fourth embodiment, by reducing the outer shape of the hole provided in the resin plate for fastening the bolt, even if the pattern is densely packed in the resin plate, it can be provided in a necessary place without losing the pattern. Bolts can be placed.

  That is, six base blocks 51 are attached to the peripheral surface of the trunk cover member 20 provided with the grooves 2 in the axial direction, as shown in FIG. Six relatively large resin plates 50 are bonded together.

  The base block 51 is formed with a large number of screw holes 55A and 55B arranged in a matrix. A clamp bolt 56 described later as a fixing means is screwed into the screw hole 55A, and a plug 57 described later as a hole filling member is screwed into the screw hole 55B.

  These screw holes 55A and 55B have the same structure. In FIGS. 23 and 24, the screw into which the clamp bolt 56 is screwed for the sake of convenience in order to distinguish the screw hole 55A from the screw hole 55B. The hole 55A is filled and displayed.

  As shown in FIGS. 25 and 26, the screw holes 55A and 55B are, as will be described later, a small diameter portion 55a into which a wrench is inserted, a large diameter portion 55b formed larger in diameter than the small diameter portion 55a, It is formed in series by a female screw portion 55c having a smaller diameter than the large diameter portion 55b.

  As shown in FIG. 25, the clamp bolt 56 includes a head portion 56b provided with a hexagonal hole 56a, a male screw portion 56c that is screwed into the female screw portion 55c of the screw hole 55A, and an extension from the male screw portion 56c. The extended portion 56d and the engaging portion 56e formed in a hook shape inserted into the groove 2 at the distal end portion of the extended portion 56d are formed in series and integrally.

  The diameter R of the small-diameter portion 55a of the screw holes 55A and 55B is slightly larger than the diameter of the hexagonal hole 56a of the clamp bolt 56 and smaller than the diameter of the head portion 56b as shown in FIG. .

  Further, the diameter R1 of the loose insertion portion 2c into which the extension portion 56d of the clamp bolt 56 of the groove 2 is loosely inserted is formed by 2α larger than the diameter R2 of the extension portion 56d, and the base block 51 is formed on the trunk cover. A play of length 2α is provided in the direction of arrow CD (circumferential direction) with respect to the member 20. The resin plate 50 is provided with a number of wrench insertion openings 50a formed to have the same diameter R as the small diameter portion 55a corresponding to the small diameter portion 55a.

  As shown in FIG. 26, the plug 57 includes a hole filling portion 57a fitted into the small diameter portion 55a of the screw hole 55B described above, a step portion 57b having a diameter slightly larger than the hole filling portion 57a, The stepped portion 57b is formed in series and integrally with a male threaded portion 57c projecting from the lower end of the stepped portion 57b and screwed into the female threaded portion 55c of the screw hole 55B described above and having a hexagonal hole 57d at the lower end. 58 is a washer interposed between the step portion 2 a of the groove 2 and the engaging portion 56 e of the hexagon socket head cap screw 56.

  On both end faces 51a, 51a of the base block 51 in the direction of the arrow AB (the barrel axis direction) (one end 51a is not shown), female threads (not shown) are formed as shown in FIG. A plurality of non-through holes 51b are provided so as to extend in the arrow AB direction.

  A plunger 59 is inserted into the non-through hole 51b, and is embedded in and attached to the non-through hole 51b by screwing into a female screw portion of the non-through hole 51b. Reference numeral 60 denotes a pin implanted at the end of the plunger 59 embedded in the non-through hole 51b, and projects in the direction of arrow B from the non-through hole 51b.

  Reference numeral 61 denotes a spacer formed in an arc shape in a side view so as to be in contact with the end surface 51a of the base block 51, and is provided with a plurality of holes 61a into which the pins 60 are press-fitted.

  Next, a method for fixing the resin plate 50 to the peripheral surface of the trunk cover member 20 via the base block 51 in the die fixing apparatus configured as described above will be described. The clamp bolt 56 and the plug 57 are previously attached to the screw holes 55 </ b> A and 55 </ b> B of the base block 51.

  That is, as shown in FIG. 28, a large number of clamp bolts 56 with washers 58 are inserted into the screw holes 55A from the back side of the body cover member 20, and the male screw portions 56c are slightly inserted into the female screw portions 55c of the screw holes 55A. The clamp bolt 56 is temporarily fixed to the screw hole 55A.

  Similarly, a large number of plugs 57 are inserted into the screw holes 55B from the back side of the body cover member 20, and the hole filling portion 57a until the surface of the hole filling portion 57a matches the surface of the base block 51 as shown in FIG. The male screw portion 57c is screwed into the female screw portion 55c of the screw hole 55B so as to fit the small diameter portion 55a of the screw hole 55B, and the plug 57 is fixed to the screw hole 55B.

  In this state, the six resin plates 50 are bonded to the six base blocks 51 so that the wrench insertion ports 55a coincide with the small diameter portions 55a of the screw holes 55A and 55B. Next, the six base blocks 51 are attached to the peripheral surface of the trunk cover member 20 one by one.

  That is, the engaging portions 56e of the plurality of clamp bolts 56 temporarily fixed to the base block 51 are inserted into the grooves 2 from the openings 2b of the predetermined grooves 2 of the trunk cover member 20, and the engaging portions 56e are inserted into the grooves. The base block 51 is moved to a predetermined position in the arrow A-B direction (trunk axis direction).

  In this state, a wrench (not shown) is inserted into the wrench insertion port 50a of the resin plate 50 and the small diameter portion 55a of the screw hole 55A of the base block 51 from the surface side of the base block 51.

  With the inserted wrench fitted in the hexagonal hole 56a of the clamp bolt 56, the clamp bolt 56 is rotated and the clamp bolt 56 is moved upward in FIG. Press contact with 2a. In this state, the base block 51 is fixed in contact with the peripheral surface of the trunk cover member 20.

  Next, in order to perform registration adjustment of the resin plate 50 fixed to the peripheral surface of the trunk cover member 20 via the base block 51, the wrench insertion port 50a of the resin plate 50 and the screw holes 55A of the base block 51 are adjusted. The clamp bolt 56 is tightened with a wrench inserted from the small diameter portion 55a.

  In this state, the base block 51 is moved in the axial direction of the trunk cover member 20 so that the engaging portion 56e of the clamp bolt 56 can be moved in the arrow AB direction along the groove 2. The registration of the resin plate 50 in the axial direction is adjusted via 51.

  At the same time, in FIG. 25, the base block 51 is moved in the direction of the arrow CD in the range of play of the length 2α between the extended portion 56d of the clamp bolt 56 and the loosely inserted portion 2c of the groove 2, that is, the trunk cover member. Accordingly, the registration of the resin plate 50 in the circumferential direction is adjusted via the base block 51.

  In general, since the resin plate is made in accordance with a printing pattern or the like, a slight registration adjustment corresponding to the amount of expansion and contraction of the workpiece in the printing and embossing steps is sufficient. Therefore, registration adjustment within the play range between the extended portion 56d of the clamp bolt 56 and the loose insertion portion 2c of the groove 2 is sufficient without providing a long hole or the like.

  As described above, the resin plate 50 can be moved in the circumferential direction and the cylinder axis direction of the trunk cover member 20 via the base block 51, so that the resin plate 50 can be arranged at an arbitrary position of the trunk cover member 20. it can.

  Further, the resin plate 50 is moved in the extending direction of the groove 2 (arrow A-B direction) and within the range of play of the length 2α between the extending portion 56d of the clamp bolt 56 and the loose insertion portion 2c of the groove 2. By being able to move to an arbitrary position in the CD direction, fine adjustment of the registration of the resin plate 50 in the cylinder axis direction and the circumferential direction is facilitated.

  Further, the resin plate 50 only needs to be provided with a wrench insertion port 50a large enough to insert a wrench, so the wrench insertion port 50a only needs to be slightly larger than the hexagonal hole 56a and is formed in the resin plate 50. The outer shape of the hole becomes smaller.

  Therefore, even if the patterns provided on the resin plate 50 are densely packed, the wrench insertion slot 50a does not interfere with the pattern, so the wrench insertion slot 50a does not make the pattern missing. A clamp bolt 56 can be arranged at a location.

  Further, when three base blocks 51 are mounted on the peripheral surface of the trunk cover member 20 and a gap is generated in the direction of the arrow AB between the adjacent base blocks 51 and 51, as shown in FIG. A spacer 61 having the same thickness as the gap is attached to the end face 51 a of the base block 51.

  As described above, the spacer 61 does not form a recess recessed from the surface of the base block 51 between the base blocks 51 and 51. Therefore, when the workpiece is processed, wrinkles are generated or scratched. It is possible to suppress a shortage of pressing.

  Similarly, since the surface of the hole filling portion 57a of the plug 57 is made to coincide with the surface of the base block 51, it is possible to eliminate the recessed portion recessed from the pressing surface used for pressing the surface of the base block 51. It is possible to suppress wrinkles or scratches when the workpiece is processed, and insufficient pressing during processing.

  In the first modification of the fourth embodiment shown in FIG. 29, the groove 2 extends in the circumferential direction of the trunk cover member 10. In this case, the registration adjustment in the trunk axis direction is performed by the clamp bolt 56. This is done by moving the base block 51 in the direction of the arrow AB within the range of the play 2α between the extended portion 56d and the loose insertion portion 2c of the groove 2.

  In the present embodiment, the description has been mainly made of the extrusion die, but it may be a die for embossing, die cutting, hot foil stamping, letter pressing, spot varnishing.

  DESCRIPTION OF SYMBOLS 1,15 ... Rotary cylinder (cylinder), 2 ... Groove, 2a ... Step part, 2b ... Opening part, 3, 21, 25, 28, 51 ... Base block, 3b, 21a, 25b, 29a, 29b, 29c ... retaining flange, 3c, 21b, 25c, 30, 42b ... long hole, 4, 40 ... block die, 6 ... engaging member (engaging part), 7 ... hexagon socket head bolt (fixing means), 8, 44 ... Stopper, 9, 49 ... Clamp device, 10, 20 ... Body cover member, 27, 32, 46, 50 ... Resin plate, 42b ... Long groove, 45 ... Spring pin, 50 ... Resin plate, 50a ... Wrench insertion port 55a ... small diameter part, 55c ... female screw part, 56 ... clamp bolt (fixing means), 56a ... hexagonal hole, 56c ... male screw part, 56e ... engagement part, 57 ... plug (hole filling member), 57a ... hole filling part 57c ... male thread, 5 ... plunger, 60 ... pin, 61 ... spacer.

Claims (7)

A cylinder provided with a plurality of grooves parallel to each other in a circumferential direction perpendicular to the trunk axis direction of the circumferential surface or the trunk axis direction;
A base block provided with a die for processing the workpiece ;
An engaging portion for movably supporting the base block is movably supported along the groove fitted into the groove in a direction orthogonal to the groove,
Engage with the engaging portion and a fixing means for fixing the base block to the peripheral surface portion of said cylinder,
The base block is movable along the groove when being fixed by the fixing means, and is supported by the body so as to be movable in a direction perpendicular to the groove. apparatus. A trunk cover member mounted so as to cover the circumferential surface of the trunk, and provided with a plurality of grooves parallel to each other in the circumferential direction perpendicular to the trunk axis direction or the trunk axis direction on the circumferential surface;
A base block provided with a die that is fixed to a peripheral surface of the trunk cover member by a fixing means and that processes a workpiece;
The fixing means includes an engaging portion that is fitted into the groove and supported so as to be movable along the groove, and fixes the base block to the peripheral surface of the trunk cover member.
The base block can be moved along the groove integrally with the fixing means at the time of releasing the fixation by the fixing means, and can be moved in a direction orthogonal to the groove. A die fixing device characterized by being supported. The groove has an opening narrowed by a step,
3. The die fixing according to claim 1, wherein the fixing means fixes the base block to a peripheral surface of the body by sandwiching the stepped portion by the engaging portion and the base block. apparatus. The groove has an opening narrowed by a step,
The base block includes a retaining flange projecting at both ends in a direction in which the groove extends,
The fixing means includes a bolt with a hole that is screwed into the engaging portion,
2. The base block is fixed to a circumferential surface of the barrel by clamping the bolt with the hole to sandwich the retaining flange and the stepped portion with the engagement portion with the holed bolt. 2. The die fixing device according to 2. The fixing device for a die according to claim 4, wherein the fastening flanges provided on both sides of the base block are provided at different positions in a direction orthogonal to the direction in which the groove extends. At both ends of the base block in the direction in which the groove extends, a cover flange that covers the retaining flange and the fixing means in a surface that is flush with the surface of the base block projects in the direction in which the groove extends. Set up
The fixing means comprises a stopper that clamps the retaining flange and the stepped portion with the bolt with the hole and the engaging portion,
The die fixing device according to claim 4, wherein an operation hole for rotating the bolt with the hole is provided in the cover flange. The groove has an opening narrowed by a step,
The fixing means is a clamp bolt with a hole screwed into a screw hole formed through the base block;
The engagement portion is provided at the tip of the clamp bolt, the step is sandwiched between the engagement portion and the base block, and the base block is fixed to the circumferential surface of the barrel,
The die fixing device according to claim 1, further comprising a hole filling member screwed into the screw hole of the base block.

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