JP2017178370A - Pallet, workpiece manufacturing system and using method of pallet - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a pallet which is used in two or more devices of a printing device, a hot stamping device and a cutting device, on which the workpiece is placed, and in which the work of placing the workpiece on the pallet can be reduced.SOLUTION: A pallet 30 is used in at least two or more devices of a printing device 100 of performing printing to a workpiece 5, a hot stamping device 200 of performing hot stamping to the workpiece 5 and a cutting device 300 of performing cutting to the workpiece 5. The pallet 30 includes a placement part 41 on which the workpiece 5 is placed, and a frame body 42 which is provided on the placement part 41 so as to surround the placement part 41. The placement part 41 is formed with a plurality of through holes 51 penetrating in the vertical direction.SELECTED DRAWING: Figure 8

Description

  The present invention relates to a pallet, a workpiece production system, and a method of using the pallet. Specifically, the present invention relates to a pallet that is used in a state where a workpiece is placed in at least two of a printing device, a foil stamping device, and a cutting device, a workpiece manufacturing system, and a method of using the pallet.

  2. Description of the Related Art Conventionally, a desired workpiece is manufactured by performing printing, foil pressing, and cutting processes on a workpiece such as a three-dimensional object. When producing such a workpiece, first, printing is performed on the workpiece, and foil pressing is performed on the workpiece on which printing has been performed. Then, the workpiece subjected to printing and foil stamping is cut.

  When performing printing, foil stamping, and cutting, dedicated apparatuses are used. When printing on a workpiece, for example, a printing device disclosed in Patent Document 1 is used. When foil pressing is performed on a workpiece, for example, a foil pressing device disclosed in Patent Document 2 is used. Moreover, when cutting with respect to a to-be-processed object, the cutting apparatus disclosed by patent document 3 is used, for example. Here, the dedicated device refers to, for example, a printing device, a foil stamping device, and a cutting device.

JP 2013-1004 A JP 2013-220536 A JP 2014-46331 A

  By the way, in each dedicated apparatus, a dedicated pallet for placing a workpiece is used. Therefore, when using the printing apparatus, printing is performed in a state where the workpiece is placed on a dedicated pallet of the printing apparatus. When using the foil stamping device, the foil stamping was performed with the workpiece placed on a dedicated pallet of the foil stamping device. When using a cutting device, cutting was performed with the workpiece placed on a dedicated pallet of the cutting device. For this reason, each time the printing, foil pressing, and cutting processes are performed, the worker places a workpiece on a dedicated pallet, which is troublesome.

  The present invention has been made in view of such a point, and an object of the present invention is to use a pallet on which a workpiece is placed and used in at least any two of a printing apparatus, a foil stamping apparatus, and a cutting apparatus. Is to provide a pallet capable of reducing the work of placing the workpiece on the pallet, a workpiece production system, and a method of using the pallet.

  The pallet according to the present invention sucks the workpiece to the printing table side through the printing table on which the workpiece is placed and a plurality of holes are formed, and the plurality of holes of the printing table. A printing device that performs printing on the workpiece, a foil pressing table on which the workpiece is placed and formed with a plurality of holes, and a plurality of the foil pressing tables A foil pushing device for sucking the workpiece toward the foil pushing table through the holes, a foil pushing device for pushing the workpiece against the foil pushing table, and a cutting table on which the workpiece is placed And at least two or more of the cutting devices for cutting the workpiece, the printing table and the foil pressing table in a state where the workpiece is placed. A pallet placed on at least two or more tables of table and the cutting table. The pallet includes a placement portion on which the workpiece is placed and a frame body provided on the placement portion so as to surround the placement portion. A plurality of through holes penetrating in the vertical direction are formed in the mounting portion.

  According to the pallet, a pallet that can be used in two or all of the printing device, the foil stamping device, and the cutting device can be provided. Therefore, the worker may install the pallet on any two or all of the printing device, the foil stamping device, and the cutting device with the workpiece placed on the pallet. Therefore, each time the workpiece is installed in each apparatus, the worker does not have to perform the work of placing the workpiece on the pallet. Therefore, the work of placing the workpiece on the pallet can be reduced.

  According to the present invention, when printing is performed by the printing device, the printing suction device is arranged above the pallet through the hole formed in the printing table and the through hole formed in the placement portion of the pallet. By sucking the air, the workpiece can be sucked to the printing table side. Thus, the workpiece can be brought into close contact with the pallet during printing. Further, when foil pressing is performed by the foil pressing device, the foil pressing suction device sucks the air above the pallet through the hole formed in the foil pressing table and the through hole of the mounting portion, thereby The workpiece can be sucked to the foil pressing table side. Therefore, the workpiece can be brought into close contact with the pallet when pressing the foil. When cutting with a cutting device is performed, debris may be generated by cutting. In the pallet, since the through hole is formed in the mounting portion, the residue can be dropped from the through hole.

  The method of using the pallet according to the present invention includes: a printing table on which a workpiece is placed and a plurality of holes are formed; and the workpiece is passed through the plurality of holes of the printing table. A printing device that performs printing on the workpiece, a foil pressing table on which the workpiece is placed, and a plurality of holes are formed, and the foil pressing device. A foil pushing device for sucking the workpiece toward the foil pushing table through a plurality of holes in the table, the foil pushing device for pushing the workpiece against the foil pushing device, and the workpiece are placed In a cutting apparatus that includes a cutting table and that cuts the workpiece, the printing table, the foil pressing table, and the cutting table with the workpiece placed thereon. A pallet placed on the table for mounting, comprising a placement portion on which the workpiece is placed, and a frame provided on the placement portion so as to surround the placement portion, This is a method of using a pallet in which a plurality of through holes penetrating in the vertical direction are formed in the mounting portion. The method of using the pallet includes a printing process, a foil pressing process, and a cutting process. In the printing step, the pallet is placed on the printing table in a state where the workpiece is placed on the placement portion, and printing is performed on the printed matter. In the foil pressing step, after printing is performed on the workpiece in the printing step, the pallet is placed on the foil pushing table in a state where the workpiece is placed on the placing portion. Then, foil pressing is performed on the workpiece. In the cutting step, after the foil pressing is performed on the workpiece in the foil pressing step, the pallet is placed on the cutting table in a state where the workpiece is placed on the placing portion. Then, the workpiece is cut.

  According to the method of using the pallet, the worker places the pallet on the printing table of the printing apparatus, the foil pressing table of the foil pressing apparatus, and the cutting table of the cutting apparatus with the workpiece placed on the pallet. Can be placed. Therefore, each time the workpiece is placed on each device, the worker does not have to perform the work of placing the workpiece on the pallet. Therefore, the work of placing the workpiece on the pallet can be reduced.

  According to the present invention, in a pallet on which a workpiece is placed, which is used in at least any two of the printing device, the foil stamping device, and the cutting device, the work of placing the workpiece on the pallet Can be reduced.

It is a conceptual diagram which shows a workpiece preparation system. It is a top view which shows a printing apparatus. It is sectional drawing in the III-III cross section of FIG. It is a top view which shows a foil stamping apparatus. It is sectional drawing in the VV cross section of FIG. It is a top view which shows a cutting apparatus. It is sectional drawing in the VII-VII cross section of FIG. It is a top view which shows a pallet. It is sectional drawing in the IX-IX cross section of FIG. It is a figure which shows the state which fixed the pallet to the printing table, and is sectional drawing of a pallet and the printing table. It is a top view which shows the pallet which concerns on a modification.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. It should be noted that the embodiments described herein are not intended to limit the present invention. In addition, members / parts having the same action are denoted by the same reference numerals, and overlapping descriptions are omitted or simplified as appropriate.

  FIG. 1 is a conceptual diagram showing a workpiece production system 1. The workpiece production system 1 is a system for producing a desired workpiece by performing printing, foil pressing, and cutting on the workpiece 5 (see FIG. 2). Here, the workpiece 5 is a three-dimensional object. The workpiece 5 is, for example, a material for a key holder. By performing printing, foil pressing, and cutting on the workpiece 5, a key holder that is a desired workpiece is manufactured. For example, the workpiece 5 is a plate-shaped object made of resin. However, the material and shape forming the workpiece 5 are not particularly limited.

  As shown in FIG. 1, the workpiece production system 1 includes a printing device 100, a foil stamping device 200, a cutting device 300, and a pallet 30.

  In the following description, when each device 100, 200, 300 is viewed from the front, the direction away from each device 100, 200, 300 is referred to as the front, and the direction closer to each device 100, 200, 300 is referred to as the rear. Left, right, top, and bottom mean left, right, top, and bottom when the devices 100, 200, and 300 are viewed from the front, respectively. Further, the symbols F, Rr, L, R, U, and D in the drawings mean front, rear, left, right, upper, and lower, respectively. However, the above direction is only a direction determined for convenience of description, and does not limit the installation mode of each device 100, 200, 300 at all, and does not limit the present invention. Moreover, the symbol X in the drawing indicates the main scanning direction. Here, the main scanning direction X is the left-right direction. Symbol Y indicates the sub-scanning direction. Here, the sub-scanning direction Y is the front-rear direction. The main scanning direction X and the sub scanning direction Y are orthogonal to each other in plan view. Reference sign Z indicates the height direction, that is, the vertical direction. However, the main scanning direction X, the sub-scanning direction Y, and the height direction Z are not particularly limited, and can be appropriately set according to the form of each device 100, 200, 300.

  Next, the printing apparatus 100 will be described. FIG. 2 is a plan view showing the printing apparatus 100. 3 is a cross-sectional view taken along the line III-III in FIG. As shown in FIG. 2, the printing apparatus 100 is an apparatus that performs printing on the workpiece 5. The type of the printing apparatus 100 is not particularly limited. For example, the printing apparatus 100 is an ink jet printer. The printing apparatus 100 is a so-called flat bed type printer. A specific configuration of the printing apparatus 100 is not particularly limited. Here, the printing apparatus 100 includes a printing base unit 111, a printing guide rail 132, a printing carriage 134, an ink head 136, ultraviolet irradiation lamps 138a and 138b, an ink head driving device 144, and a printing device. A table 150, a printing suction device 155 (see FIG. 3), a first printing table moving mechanism 151, a second printing table moving mechanism 152 (see FIG. 3), and a printing control device 190 are provided. .

  The printing base unit 111 is a member that is a base of the printing apparatus 100. The shape of the printing base portion 111 is not particularly limited. For example, the printing base portion 111 is a plate-like member extending in the horizontal direction. In the present embodiment, printing is performed on the workpiece 5 on the printing base 111.

  The printing guide rail 132 guides the ink head 136 in the main scanning direction X. The printing guide rail 132 is a member extending in the main scanning direction X. In the present embodiment, as shown in FIG. 3, the printing base unit 111 is provided with a support member 141 extending upward from the printing base unit 111 and extending in the main scanning direction X. A passage hole 141 a through which the printing table 150 passes is formed in the lower portion of the central portion of the support member 141. Here, the printing guide rail 132 is supported on the front surface of the support member 141.

  As shown in FIG. 2, the printing carriage 134 is slidably provided on the printing guide rail 132. The printing carriage 134 is engaged with the printing guide rail 132 and can move in the main scanning direction X along the printing guide rail 132. An ink head 136 is provided on the printing carriage 134.

  In the present embodiment, a plurality of ink heads 136 are provided on the printing carriage 134. Although illustration is omitted, for example, the number of ink heads 136 is “8”, but the number of ink heads 136 is not particularly limited. The plurality of ink heads 136 are arranged in the main scanning direction X. The ink head 136 discharges ultraviolet curable ink toward the workpiece 5. Although not shown in detail, a plurality of nozzles are formed on the back surface of the ink head 136. UV curable ink is discharged downward from the nozzle. Here, the “ultraviolet curable ink” is ink that is cured by irradiating with ultraviolet rays. In the following description, the ultraviolet curable ink is also simply referred to as “ink”.

  An ink cartridge 139 is connected to each of the plurality of ink heads 136 via ink tubes (not shown). A plurality of ink cartridges 139 are provided, and each of the plurality of ink cartridges 139 contains inks having different colors. Therefore, different inks are ejected from the plurality of ink heads 136, respectively. In the present embodiment, as shown in FIG. 3, the ink cartridge 139 is accommodated in an ink cartridge accommodating portion 142 provided in the printing base portion 111.

  As shown in FIG. 2, the ultraviolet irradiation lamps 138 a and 138 b are provided on the printing carriage 134 via the ink head 136. The ultraviolet irradiation lamps 138a and 138b emit ultraviolet rays that cure the ink ejected from the ink head 136. Here, the ultraviolet irradiation lamp 138 a is arranged on the left side of the ink head 136. The ultraviolet irradiation lamp 138b is disposed on the right side of the ink head 136. The ultraviolet irradiation lamps 138a and 138b and the plurality of ink heads 136 are arranged in the main scanning direction X.

  In the present embodiment, the ink head 136 and the ultraviolet irradiation lamps 138 a and 138 b move together in the main scanning direction X along the printing guide rail 132. An ink head driving device 144 is connected to the printing carriage 134. The ink head driving device 144 is a device that moves the printing carriage 134 in the main scanning direction X along the printing guide rail 132. When the ink head driving device 144 is driven, the printing carriage 134, the ink head 136, and the ultraviolet irradiation lamps 138a and 138b move in the main scanning direction X. The type of the ink head driving device 144 is not particularly limited. For example, the ink head driving device 144 is a motor.

  The printing table 150 has the workpiece 5 placed thereon and conveys the workpiece 5 in the sub-scanning direction Y. Here, the workpiece 5 is placed on the pallet 30 and placed on the printing table 150 via the pallet 30. As shown in FIG. 3, the printing table 150 is disposed below the printing guide rail 132 and the ink head 136. In the present embodiment, ink is ejected by the ink head 136 toward the workpiece 5 placed on the printing table 150. Then, the ultraviolet irradiation lamps 138a and 138b radiate ultraviolet rays toward the ink discharged to the workpiece 5 placed on the printing table 150, whereby the ink discharged to the workpiece 5 is cured. .

  In the present embodiment, the printing table 150 is formed with a plurality of minute holes (not shown). A printing suction device 155 is disposed below the printing table 150. The printing suction device 155 sucks the air above the printing table 150 toward the bottom of the printing table 150 through the minute holes formed in the printing table 150. Thus, the printing suction device 155 sucks the workpiece 5 toward the printing table 150. As a result, the workpiece 5 comes into close contact with the pallet 30.

  The printing table 150 is configured to be movable in the sub-scanning direction Y (front-rear direction) and the height direction Z (up-down direction). In the present embodiment, the printing table 150 is moved in the sub-scanning direction Y by the first printing table moving mechanism 151. Further, the printing table 150 is moved in the height direction Z by the second printing table moving mechanism 152. Next, the first printing table moving mechanism 151 and the second printing table moving mechanism 152 will be described.

  As shown in FIG. 2, the first printing table moving mechanism 151 includes a first shaft 161, a second shaft 162, a conveying member 164, and a drive motor 167. The first shaft 161 and the second shaft 162 extend in the sub-scanning direction Y. The first shaft 161 and the second shaft 162 are arranged in parallel. The conveying member 164 is provided to be slidable with respect to the first shaft 161 and the second shaft 162. In the present embodiment, the conveying member 164 includes a flat plate 164a, a first tubular portion 164b, and a second tubular portion 164c. The flat plate 164a extends in the main scanning direction X. As shown in FIG. 3, the printing table 150 is placed on the flat plate 164a via another member (for example, a height adjusting member 168). The 1st cylindrical part 164b and the 2nd cylindrical part 164c are hollow cylindrical things. The first cylindrical portion 164b is provided at the left end of the flat plate 164a, and the second cylindrical portion 164c is provided at the right end of the flat plate 164a. A first shaft 161 is slidably inserted into the first tubular portion 164b. A second shaft 162 is slidably inserted into the second cylindrical portion 164c. As shown in FIG. 2, the drive motor 167 is a drive source that moves the printing table 150 in the sub-scanning direction Y. The drive motor 167 is connected to the printing table 150. The printing table 150 moves in the sub-scanning direction Y as the conveying member 164 moves along the shafts 161 and 162 by driving of the driving motor 167.

  As shown in FIG. 3, the second printing table moving mechanism 152 is a mechanism for moving the printing table 150 in the height direction Z (vertical direction). A specific configuration for moving the printing table 150 in the height direction Z in the second printing table moving mechanism 152 is not particularly limited. For example, the second printing table moving mechanism 152 includes a height adjusting member 168 and a drive motor 169. The printing table 150 is connected to a drive motor 169 via a height adjustment member 168. The height adjusting member 168 is provided on the bottom surface of the printing table 150 and is a member whose height is variable. The drive motor 169 is connected to the height adjustment member 168, and adjusts the height of the height adjustment member 168 by being driven. As a result, the height of the printing table 150 is adjusted by changing the height of the height adjusting member 168.

  As shown in FIG. 2, the printing control device 190 is a device that controls printing. The configuration of the printing control device 190 is not particularly limited. For example, the printing control device 190 is a computer, and may include a central processing unit (hereinafter referred to as a CPU), a ROM storing a program executed by the CPU, a RAM, and the like.

  The printing control device 190 is connected to an ink head driving device 144 connected to the printing carriage 134. The printing control device 190 controls the movement of the printing carriage 134, the ink head 136, and the ultraviolet irradiation lamps 138a, 138b in the main scanning direction X by controlling the driving of the ink head driving device 144. Although not shown, the printing control device 190 is connected to a plurality of ink heads 136 and ultraviolet irradiation lamps 138a and 138b. The printing control device 190 controls the timing of each of the plurality of ink heads 136 ejecting ink onto the workpiece 5 placed on the printing table 150. Further, the printing control device 190 controls the timing at which the ultraviolet irradiation lamps 138a and 138b irradiate the ink discharged to the workpiece 5 with ultraviolet rays.

  The printing control device 190 includes a driving motor 167 for the first printing table moving mechanism 151, a driving motor 169 for the second printing table moving mechanism 152 (see FIG. 3), and a printing suction device 155 (see FIG. 3). It is connected to the. The printing control device 190 controls the movement of the printing table 150 in the sub-scanning direction Y by controlling the drive motor 167 of the first printing table moving mechanism 151. The printing control device 190 controls the movement of the printing table 150 in the height direction Z by controlling the drive motor 169 of the second printing table moving mechanism 152. Further, the printing control device 190 controls the timing of sucking the workpiece 5 placed on the printing table 150 toward the printing table 150 by controlling the driving of the printing suction device 155.

  The configuration of the printing apparatus 100 according to the present embodiment has been described above. Next, the foil stamping apparatus 200 will be described. FIG. 4 is a plan view showing the foil stamping apparatus 200. 5 is a cross-sectional view taken along the line VV of FIG. As shown in FIG. 4, the foil pressing apparatus 200 is an apparatus that performs foil pressing on the workpiece 5. The specific configuration of the foil stamping apparatus 200 is not particularly limited. Here, the foil pressing device 200 includes a foil pressing base portion 211, a foil pressing guide rail 232, a foil pressing carriage 234, a foil pressing head 236, a foil pressing head driving device 244, a foil pressing table 250, and a foil pressing suction device. 255 (see FIG. 5), a first foil pushing table moving mechanism 251, a second foil pushing table moving mechanism 252 (see FIG. 5), and a foil pushing control device 290.

  In the present embodiment, the foil stamping apparatus 200 changes the ink head 136 (see FIG. 2) of the printing apparatus 100 to the foil stamping head 236, the ultraviolet irradiation lamps 138a and 138b (see FIG. 2) of the printing apparatus 100, and the ink cartridge. 139 is a device in which 139 (see FIG. 2) is omitted. Therefore, the foil pressing base portion 211 of the foil pressing device 200, the foil pressing guide rail 232, the foil pressing carriage 234, the foil pressing table 250, the foil pressing suction device 255 (see FIG. 5), and the first foil pressing table movement. As shown in FIG. 2, the mechanism 251 and the second foil pressing table moving mechanism 252 (see FIG. 5) include a printing base unit 111, a printing guide rail 132, and a printing carriage 134, respectively. The configuration is the same as that of the printing table 150, the printing suction device 155 (see FIG. 3), the first printing table moving mechanism 151, and the second printing table moving mechanism 152 (see FIG. 3). That is, as shown in FIG. 5, a foil pushing guide rail 232 extending in the main scanning direction X is supported by a support member 241 provided in the foil pushing base portion 211 and having a passage hole 241a formed in the central portion. As shown in FIG. 4, a foil pushing carriage 234 is slidably provided on the foil pushing guide rail 232. A foil pressing head 236 is provided on the foil pressing carriage 234.

  As shown in FIG. 5, the workpiece 5 is placed on the foil pressing table 250 via the pallet 30, and a plurality of minute holes (not shown) are formed in the foil pressing table 250. . Below the foil pressing table 250, a foil pressing suction device 255 is arranged. The foil pushing suction device 255 sucks the workpiece 5 by foil pushing the air above the foil pushing table 250 toward the lower side of the foil pushing table 250 through the minute holes formed in the foil pushing table 250. Suction to the table 250 side. The foil pushing table 250 is moved in the sub-scanning direction Y by the first foil pushing table moving mechanism 251, and is moved in the height direction Z by the second foil pushing table moving mechanism 252. The first foil pushing table moving mechanism 251 and the second foil pushing table moving mechanism 252 have the same configurations as the first printing table moving mechanism 151 (see FIG. 3) and the first printing table moving mechanism 152 (see FIG. 3), respectively. It is. That is, the first shaft 261, the second shaft 262, the conveying member 264 (the flat plate 264a, the first cylindrical portion 264b, the second cylindrical portion 264c) of the first foil pushing table moving mechanism 251 and the drive motor 267 ( As shown in FIG. 2, each of the first shaft 161, the second shaft 162, and the conveying member 164 (the flat plate 164a, the first cylindrical portion 164b, 2 cylindrical portions 164c) and the drive motor 167. As shown in FIG. 5, the height adjusting member 268 of the second foil pushing table moving mechanism 252 and the drive motor 269 are respectively connected to the height adjusting member 168 of the second printing table moving mechanism 152 as shown in FIG. Corresponding to the drive motor 169.

  Next, as shown in FIG. 4, a foil pressing head 236, a foil pressing head driving device 244, and a foil pressing control device 290 that are different from the configuration of the printing apparatus 100 will be described. The foil pressing head 236 is provided on the foil pressing carriage 234. As shown in FIG. 5, a foil pressing table 250 is disposed below the foil pressing head 236. The foil pressing head 236 performs foil pressing on the workpiece 5. For example, when foil pressing is performed, a foil film 8 is disposed on the workpiece 5 as shown in FIG. The foil film 8 includes a film and a foil attached to the film. “Foil” is a thinly drawn metal that is, for example, a gold foil or a silver foil. By applying heat to the foil film 8, the foil is peeled off from the film, and the foil adheres to the workpiece 5.

  The specific configuration of the foil pressing head 236 is not particularly limited. For example, the foil pressing head 236 is a thermal transfer head. Here, the foil pressing head 236 includes a heat generating device 281 and a pressing portion 282 as shown in FIG. The heat generating device 281 is a device that applies heat to the pressing portion 282 of the foil pressing head 236. The pressing part 282 is a part that presses the foil film 8 against the workpiece 5. Here, the pressing part 282 is provided in the lower part of the foil pressing head 236.

  In the present embodiment, the foil pressing head 236 is provided on the foil pressing carriage 234 and moves in the main scanning direction X along the foil pressing guide rail 232. Here, as shown in FIG. 4, a foil pressing head driving device 244 is connected to the foil pressing carriage 234. The foil pressing head driving device 244 is a device for moving the foil pressing head 236 in the main scanning direction X along the foil pressing guide rail 232. When the foil pressing head driving device 244 is driven, the foil pressing head 236 together with the foil pressing carriage 234 moves in the main scanning direction X. Although the kind of foil pressing head drive device 244 is not specifically limited, For example, the foil pressing head drive device 244 is a motor.

  The foil pressing control device 290 is a device that performs control related to foil pressing. The foil stamping control device 290 is a computer, like the printing control device 190, and includes a CPU, a ROM, a RAM, and the like. The foil pressing control device 290 is connected to a foil pressing head driving device 244 connected to the foil pressing carriage 234. The foil pressing control device 290 controls the movement of the foil pressing carriage 234 and the foil pressing head 236 in the main scanning direction X by controlling the driving of the foil pressing head driving device 244. Although not shown, the foil pressing control device 290 is connected to the heat generating device 281 of the foil pressing head 236. The foil pressing control device 290 controls the heat generating device 281 while the foil film 8 is placed on the workpiece 5, and controls the timing at which the pressing unit 282 of the foil pressing head 236 presses the foil film 8. Thus, the position and timing at which the foil film 8 is thermally transferred to the workpiece 5 are controlled. As with the printing control device 190, the foil pressing control device 290 includes a driving motor 267 for the first foil pressing table moving mechanism 251, a driving motor 269 for the second foil pressing table moving mechanism 252 (see FIG. 5), and , Connected to a foil pushing suction device 255 (see FIG. 5). The foil pressing control device 290 controls the movement of the foil pressing table 250 in the sub-scanning direction Y by controlling the drive motor 267 and controls the height of the foil pressing table 250 in the height direction Z by controlling the drive motor 269. Control movement to. The foil pushing control device 290 controls the timing of sucking the workpiece 5 placed on the foil pushing table 250 toward the foil pushing table 250 by controlling the driving of the foil pushing suction device 255.

  The foil stamping apparatus 200 has been described above. Next, the cutting device 300 will be described. FIG. 6 is a plan view showing the cutting device 300. 7 is a cross-sectional view taken along the line VII-VII in FIG. As shown in FIG. 6, the cutting device 300 is a device that cuts the workpiece 5. In the present embodiment, the cutting apparatus 300 cuts the workpiece 5 with a laser. The specific configuration of the cutting device 300 is not particularly limited. Here, the cutting device 300 includes a cutting base 311, a cutting guide rail 332, a cutting carriage 334, a cutting head 336, a cutting head driving device 344, a cutting table 350, and a first cutting use. A table moving mechanism 351, a second cutting table moving mechanism 352 (see FIG. 7), and a cutting control device 390 are provided.

  In this embodiment, the cutting apparatus 300 changes the ink head 136 (see FIG. 2) of the printing apparatus 100 to the cutting head 336, and the ultraviolet irradiation lamps 138a and 138b, the ink cartridge 139, and the printing cartridge 100 of the printing apparatus 100. The suction device 155 is omitted. However, the cutting device 300 may include a suction device such as the printing suction device 155. Here, the cutting base 311 of the cutting device 300, the cutting guide rail 332, the cutting carriage 334, the cutting table 350, the first cutting table moving mechanism 351, and the second cutting table moving mechanism. As shown in FIG. 2, reference numerals 352 (see FIG. 7) denote a printing base unit 111, a printing guide rail 132, a printing carriage 134, a printing table 150, and a first printing unit, respectively. The configuration is the same as the table moving mechanism 151 and the second printing table moving mechanism 152 (see FIG. 3). That is, as shown in FIG. 7, a cutting guide rail 332 extending in the main scanning direction X is supported by a support member 341 provided in the cutting base 311 and having a passage hole 341a formed in the central portion. As shown in FIG. 6, a cutting carriage 334 is slidably provided on the cutting guide rail 332. A cutting head 336 is provided on the cutting carriage 334.

  As shown in FIG. 7, the workpiece 5 is placed on the cutting table 350 via the pallet 30. The cutting table 350 is moved in the sub-scanning direction Y by the first cutting table moving mechanism 351, and is moved in the height direction Z by the second cutting table moving mechanism 352. The first cutting table moving mechanism 351 and the second cutting table moving mechanism 352 have the same configurations as the first printing table moving mechanism 151 (see FIG. 3) and the first printing table moving mechanism 152 (see FIG. 3), respectively. It is. That is, the first shaft 361, the second shaft 362, the conveying member 364 (the flat plate 364a, the first cylindrical portion 364b, the second cylindrical portion 364c) of the first cutting table moving mechanism 351, and the drive motor 367 ( As shown in FIG. 2, the first shaft 161, the second shaft 162, and the conveying member 164 (the flat plate 164a, the first cylindrical portion 164b, and the first) of the first printing table moving mechanism 151 are respectively shown in FIG. 2 cylindrical portions 164c) and the drive motor 167. As shown in FIG. 7, the height adjusting member 368 of the second cutting table moving mechanism 352 and the drive motor 369 are respectively connected to the height adjusting member 168 of the second printing table moving mechanism 152 as shown in FIG. Corresponding to the drive motor 169.

  Next, as shown in FIG. 6, a cutting head 336, a cutting head driving device 344, and a cutting control device 390 that are different from the configuration of the printing apparatus 100 will be described. In the present embodiment, the cutting head 336 is provided on a cutting carriage 334 slidably provided on a cutting guide rail 332 extending in the main scanning direction X. As shown in FIG. 7, a cutting table 350 is disposed below the cutting head 336. The specific configuration of the cutting head 336 is not particularly limited. In the present embodiment, the cutting head 336 cuts the workpiece 5 by irradiating the workpiece 5 with a laser. The cutting head 336 includes a laser generator 385 and an irradiation unit 386. The laser generator 385 is a device that generates a laser for irradiating the workpiece 5. The laser generator 385 generates a laser that goes toward the workpiece 5. The irradiation unit 386 is a part through which the laser generated by the laser generator 385 passes. For example, the irradiation unit 386 is an opening formed on the bottom surface of the cutting head 336. The laser generated by the laser generator 385 passes through the irradiation unit 386 and irradiates the part of the workpiece 5 to be cut. The portion irradiated with the laser is cut.

  In the present embodiment, as shown in FIG. 6, the cutting head 336 is provided in the cutting carriage 334 and moves in the main scanning direction X along the cutting guide rail 332. Here, a cutting head driving device 344 is connected to the cutting carriage 334. The cutting head drive device 344 is a device that moves the cutting head 336 in the main scanning direction X along the cutting guide rail 332. When the cutting head driving device 344 is driven, the cutting head 336 together with the cutting carriage 334 moves in the main scanning direction X. Although the kind of cutting head drive device 344 is not specifically limited, For example, the cutting head drive device 344 is a motor.

  The cutting control device 390 performs control related to cutting the workpiece 5. The cutting control device 390 is a computer similar to the printing control device 190, and includes a CPU, a ROM, a RAM, and the like. The cutting control device 390 is connected to a cutting head driving device 344 connected to the cutting carriage 334. The cutting control device 390 controls the movement of the cutting carriage 334 and the cutting head 336 in the main scanning direction X by controlling the driving of the cutting head drive device 344. Although not shown, the cutting control device 390 is connected to a laser generator 385 (see FIG. 7) of the cutting head 336. The cutting control device 390 controls the cutting of the workpiece 5 by the cutting head 336 by controlling the timing at which the laser is generated by the laser generator 385. The cutting control device 390 is similar to the printing control device 190 in that the driving motor 367 of the first cutting table moving mechanism 351 and the driving motor 369 of the second cutting table moving mechanism 352 (see FIG. 7). It is connected to the. The cutting control device 390 controls the movement of the cutting table 350 in the sub-scanning direction Y by controlling the driving motor 367, and controls the driving motor 369 in the height direction Z of the cutting table 350. Control movement to.

  The cutting apparatus 300 according to this embodiment has been described above. Next, the pallet 30 will be described. In the present embodiment, the pallet 30 is used in the printing apparatus 100, the foil stamping apparatus 200, and the cutting apparatus 300. The workpiece 5 is placed on the pallet 30. Specifically, the pallet 30 has the workpiece 5 placed thereon, the printing table 150 (see FIG. 3) of the printing apparatus 100, the foil pressing table 250 (see FIG. 5) of the foil pressing apparatus 200, and cutting. It is mounted on a cutting table 350 (see FIG. 7) of the apparatus 300. In a state where the workpiece 5 is placed on the pallet 30, printing by the printing device 100, foil pressing by the foil pressing device 200, and cutting by the cutting device 300 are performed on the workpiece 5.

  FIG. 8 is a plan view showing the pallet 30. 9 is a cross-sectional view taken along the line IX-IX in FIG. As shown in FIG. 8, the pallet 30 includes a placement portion 41 and a frame body 42.

  As shown in FIG. 9, the workpiece 5 is placed on the placement portion 41. In the present embodiment, as shown in FIG. 8, the placement portion 41 is a rectangular plate. However, the shape of the mounting portion 41 is not particularly limited, and may be an ellipse shape, for example. Here, the upper surface of the mounting portion 41 extends in the horizontal direction. In the present embodiment, as shown in FIG. 9, the workpiece 5 is placed on the entire placement portion 41, but even if the workpiece 5 is placed on a part of the placement portion 41. Good.

  As shown in FIG. 8, the mounting portion 41 is formed with a plurality of through holes 51. The through hole 51 is a hole that penetrates the placement portion 41 in the vertical direction. The plurality of through holes 51 are formed over the entire surface of the mounting portion 41 in plan view. However, the plurality of through holes 51 may be formed only in a part of the mounting portion 41 in plan view. For example, the plurality of through holes 51 may be formed in the central portion of the placement portion 41 and not formed in the end portion of the placement portion 41 in plan view.

  In plan view, the size of one through hole 51 is smaller than the size of the workpiece 5. For example, the size of one through hole 51 is such a size that the workpiece 5 does not fit. In plan view, the area of one through hole 51 is smaller than the area of the workpiece 5. However, if the shape of the through hole 51 is such that the workpiece 5 does not fit in the through hole 51, the area of the through hole 51 may be equal to or larger than the area of the workpiece 5 in plan view. One through hole 51 is larger than a hole (not shown) formed in the printing table 150 and a hole (not shown) formed in the foil pressing table 250. However, one through hole 51 may be the same as the hole of the printing table 150 and the hole of the foil pressing table 250, or the hole of the printing table 150 and the foil pressing table 250. It may be smaller than the hole. In the present embodiment, the shape of the through hole 51 is a honeycomb shape. In a plan view, the total area obtained by adding the areas of the plurality of through holes 51 is the area of a portion (a portion on which the workpiece 5 can be placed) serving as a member of the placement portion 41, that is, the entire placement portion 41 It is larger than the area obtained by subtracting the total area of the through holes 51 from the area. However, in plan view, the total area of the through-holes 51 may be the same as or smaller than the area of the portion serving as the member of the placement portion 41.

  The frame body 42 is provided on the mounting portion 41 so as to surround the mounting portion 41. In the present embodiment, the frame body 42 is provided so as to surround the entire outer edge of the placement portion 41. However, the frame body 42 may be provided on a part of the outer edge of the placement portion 41. For example, the frame body 42 may be provided at the left end and the right end of the placement portion 41, and the frame body 42 may not be provided at the front end and the rear end of the placement portion 41. Here, in a plan view, the shape of the outer edge of the frame body 42 is a rectangular shape, but is not limited to a rectangular shape. For example, the shape of the outer edge of the frame body 42 may be an ellipse shape.

  In the present embodiment, as shown in FIG. 9, the upper surface of the frame body 42 extends in the horizontal direction. As described above, the upper surface of the mounting portion 41 extends in the horizontal direction. The upper surface of the frame body 42 is located above the upper surface of the mounting portion 41. The uppermost point of the frame body 42 is located above the uppermost point of the placement unit 41. Here, the uppermost point of the frame body 42 means a point at the highest position of the frame body 42 in a front view. Further, the uppermost point of the placement unit 41 refers to the highest point of the placement unit 41 in front view. In the present embodiment, the uppermost point of the frame body 42 is a point located on the upper surface of the frame body 42. The highest point of the placement unit 41 is a point located on the upper surface of the placement unit 41. Here, a part of the inner side surface of the frame body 42 extends upward from the placement portion 41.

  In the present embodiment, the placement portion 41 and the frame body 42 are formed separately, and the frame body 42 is attached to the placement portion 41. However, the placing portion 41 and the frame body 42 may be integrally formed.

  In the present embodiment, for the printing table 150 (see FIG. 2) of the printing apparatus 100, the foil pressing table 250 (see FIG. 4) of the foil pressing apparatus 200, and the cutting table 350 (see FIG. 6) of the cutting apparatus 300. Thus, the pallet 30 can be fixed. The configuration for fixing the pallet 30 to the printing table 150, the foil pressing table 250, and the cutting table 350 is not particularly limited. Here, the mechanism for fixing the pallet 30 to the printing table 150, the mechanism for fixing the pallet 30 to the foil pressing table 250, and the mechanism for fixing the pallet 30 to the cutting table 350 are the same. Therefore, in the following, a mechanism for fixing the pallet 30 to the printing table 150 will be described in detail, and a description of a mechanism for fixing the pallet 30 to the foil pressing table 250 and a mechanism for fixing the pallet 30 to the cutting table 350 will be given as appropriate. Omitted.

  FIG. 10 is a view showing a state where the pallet 30 is fixed to the printing table 150, and is a cross-sectional view of the pallet 30 and the printing table 150. As shown in FIG. 10, the workpiece production system 1 includes a fixing member 60. The fixing member 60 is a member that fixes the pallet 30 to the printing table 150, the foil pressing table 250 (see FIG. 4), and the cutting table 350 (see FIG. 6). In the present embodiment, as shown in FIG. 8, a plurality of pallet fixing holes 58 penetrating in the vertical direction are formed in the frame 42 of the pallet 30. Here, four fixing holes 58 for pallets are formed in the frame body 42. The pallet fixing hole 58 is formed at the corner of the frame body 42. However, the number of pallet fixing holes 58 is not particularly limited, but is preferably two or more. The position of the pallet fixing hole 58 is not particularly limited. For example, the pallet fixing hole 58 may be formed in a central portion of a portion of the frame body 42 provided at the left end of the placement portion 41 and a central portion of a portion provided at the right end of the placement portion 41. Good.

  In the present embodiment, as shown in FIG. 2, a pallet fixing hole 58 (see FIG. 2) formed in the frame body 42 in a state where the pallet 30 is placed on the surface of the printing table 150. 8), a printing fixing hole 158 is formed. Here, since four pallet fixing holes 58 are formed in the frame body 42, at least four printing fixing holes 158 are formed in the printing table 150. Similarly, as shown in FIG. 4, the pallet fixing hole 58 (see FIG. 8) formed in the frame 42 in the state where the pallet 30 is placed on the foil pressing table 250 on the surface of the foil pressing table 250. ), Four foil pressing fixing holes 258 are formed. Further, as shown in FIG. 6, the surface of the cutting table 350 is positioned at a position corresponding to the pallet fixing hole 58 formed in the frame body 42 when the pallet 30 is placed on the cutting table 350. Four cutting fixing holes 358 are formed.

  In the present embodiment, as shown in FIG. 10, the fixing member 60 is inserted into the pallet fixing hole 58 and the printing fixing hole 158 in a state where the pallet 30 is placed on the printing table 150. Although illustration is omitted, in a state where the pallet 30 is placed on the foil pressing table 250 (see FIG. 4), the fixing member 60 is inserted into the pallet fixing hole 58 and the foil pressing fixing hole 258 (see FIG. 4). . Further, in a state where the pallet 30 is placed on the cutting table 350 (see FIG. 6), the fixing member 60 is inserted into the pallet fixing hole 58 and the cutting fixing hole 358 (see FIG. 6). Here, spiral grooves are formed on the inner peripheral surfaces of the pallet fixing hole 58, the printing fixing hole 158, the foil pressing fixing hole 258, and the cutting fixing hole 358, respectively. On the outer peripheral surface of the fixing member 60, spiral grooves that engage with the spiral grooves of the pallet fixing hole 58, the printing fixing hole 158, the foil pressing fixing hole 258, and the cutting fixing hole 358 are formed. Therefore, the fixing member 60 is rotated and inserted into the pallet fixing hole 58 and the printing fixing hole 158, the pallet fixing hole 58 and the foil pressing fixing hole 258, and the pallet fixing hole 58 and the cutting fixing hole 358. Thus, the pallet 30 is fixed to the printing table 150, the foil pressing table 250, and the cutting table 350, respectively.

  Next, a procedure for manufacturing a desired workpiece by performing printing, foil pressing, and cutting on the workpiece 5 in the workpiece manufacturing system 1 will be described. In this embodiment, the workpiece production system 1 performs printing, foil pressing, and cutting in this order.

  First, as shown in FIG. 2, printing is performed on the workpiece 5 by the printing apparatus 100. As shown in FIG. 9, the worker places the workpiece 5 on the placing portion 41 of the pallet 30 and, as shown in FIG. 10, the pallet fixing holes 58 and the printing fixing holes 158 communicate with each other. Thus, the pallet 30 on which the workpiece 5 is placed is placed on the printing table 150. Then, the fixing member 60 is inserted into the pallet fixing hole 58 and the printing fixing hole 158 to fix the pallet 30 to the printing table 150, thereby positioning the pallet 30 with respect to the printing table 150.

  As shown in FIG. 2, in printing on the workpiece 5 in the printing apparatus 100, first, when the ink head 136 moves in the main scanning direction X and the ink head 136 is positioned above the workpiece 5, the ink is Ink is ejected from the head 136 toward the workpiece 5. Then, the ink discharged onto the workpiece 5 is irradiated with ultraviolet rays from the ultraviolet irradiation lamps 138a and 138b, and the ink discharged onto the workpiece 5 is cured, thereby completing printing for one scan. As described above, after printing for one scan is completed, the printing table 150 is moved forward by the first printing table moving mechanism 151. Thereafter, printing for the next scan is performed. When printing is being performed, the printing suction device 155 (see FIG. 3) is operating. Therefore, the printing suction device 155 passes through the holes (not shown) formed in the printing table 150 and the through holes 51 (see FIG. 8) formed in the placement portion 41 of the pallet 30. By sucking the upper air, the workpiece 5 is sucked to the printing table 150 side. Therefore, it is possible to print on the workpiece 5 while the workpiece 5 is in close contact with the pallet 30.

  After the printing is finished, foil pressing is performed on the workpiece 5. After the printing is completed, the operator removes the fixing member 60 from the pallet fixing hole 58 and the printing fixing hole 158. Then, the worker moves the pallet 30 to the foil pressing table 250 of the foil pressing device 200 as shown in FIG. 4 in a state where the printed workpiece 5 is placed on the pallet 30. The pallet 30 is placed on the foil pressing table 250 so that each pallet fixing hole 58 (see FIG. 8) and each foil pressing fixing hole 258 communicate with each other. Then, the fixing member 60 is inserted into the pallet fixing hole 58 and the foil pressing fixing hole 258, and the pallet 30 is fixed to the foil pressing table 250, thereby positioning the pallet 30 with respect to the foil pressing table 250.

  In the present embodiment, the foil film 8 is placed in advance on the workpiece 5 when the foil is pressed. In the foil pressing device 200, the foil pressing head 236 is moved in the main scanning direction X by the foil pressing head driving device 244, and the foil pressing table 250 is moved in the sub-scanning direction Y by the first foil pressing table moving mechanism 251. The foil pressing head 236 moves relative to the workpiece 5 placed on 250 in the main scanning direction X and the sub-scanning direction Y. And in the part which foil-presses with respect to the to-be-processed object 5, the foil pressing head 236 falls below. At this time, as shown in FIG. 5, the pressing portion 282 to which heat is applied by the heat generating device 281 presses the foil film 8 against the workpiece 5, thereby pressing the corresponding portion with foil. In addition, when foil pressing is performed, the foil pressing suction device 255 is operating. For this reason, the foil pushing suction device 255 passes through a hole (not shown) formed in the foil pushing table 250 and a through hole 51 (see FIG. 8) formed in the placement portion 41 of the pallet 30. The workpiece 5 is sucked toward the foil pressing table 250 side by sucking the upper air. Therefore, it is possible to stamp the workpiece 5 with the workpiece 5 in close contact with the pallet 30.

  After the foil pressing on the workpiece 5 is finished, the workpiece 5 is cut. After the foil pressing is completed, the operator removes the fixing member 60 from the pallet fixing hole 58 and the foil pressing fixing hole 258. Then, as shown in FIG. 6, the operator places each workpiece 5 that has been printed and foil-pressed on the pallet 30, and each pallet fixing hole 58 (see FIG. 8) and each cutting The pallet 30 is placed on the cutting table 350 so that the fixing holes 358 communicate with each other. Then, the fixing member 60 is inserted into the pallet fixing hole 58 and the cutting fixing hole 358, and the pallet 30 is fixed to the cutting table 350, thereby positioning the pallet 30 with respect to the cutting table 350.

  When the workpiece 5 is cut by the cutting device 300, the cutting head 336 is moved in the main scanning direction X by the cutting head driving device 344, and the cutting table 350 is moved in the sub-scanning direction Y by the first cutting table moving mechanism 351. By moving, the cutting head 336 moves relative to the workpiece 5 placed on the cutting table 350 in the main scanning direction X and the sub-scanning direction Y. Then, as shown in FIG. 7, a laser is emitted from a laser generator 385 of the cutting head 336 toward a portion to be cut with respect to the workpiece 5. At this time, the laser passes through the irradiation unit 386 and is irradiated onto the portion of the workpiece 5 to be cut. And the part irradiated with the laser is cut | disconnected. In addition, when the workpiece 5 is laser-cut, debris generated by being cut may be generated. In the present embodiment, as shown in FIG. 8, since the through hole 51 is formed in the placement portion 41 of the pallet 30, the residue can be dropped from the through hole 51. As described above, the workpiece 5 is cut by the laser emitted by the cutting head 336, thereby producing a desired workpiece.

  As described above, in the present embodiment, as shown in FIG. 1, a pallet 30 that can be used in the printing apparatus 100, the foil stamping apparatus 200, and the cutting apparatus 300 can be provided. Therefore, the worker may install the pallet 30 in the printing device 100, the foil stamping device 200, and the cutting device 300 in a state where the workpiece 5 is placed on the pallet 30. Therefore, when the workpiece 5 is installed in each of the devices 100, 200, and 300, the worker does not have to perform the work of placing the workpiece 5 on the pallet 30 each time. Therefore, the work of placing the workpiece 5 on the pallet 30 can be reduced.

  According to the present embodiment, as shown in FIG. 3, when printing is performed by the printing apparatus 100, the printing suction device 155 includes holes (not shown) formed in the printing table 150, and The workpiece 5 can be sucked toward the printing table 150 by sucking the air above the pallet 30 through the through hole 51 (see FIG. 8) formed in the placement portion 41 of the pallet 30. Therefore, the workpiece 5 can be brought into close contact with the pallet 30 during printing. Further, as shown in FIG. 5, when foil pressing is performed by the foil pressing device 200, the foil pressing suction device 255 includes a hole (not shown) formed in the foil pressing table 250, and the placement unit 41. By sucking the air above the pallet 30 through the through hole 51 (see FIG. 8), the workpiece 5 can be sucked to the foil pressing table 250 side. Therefore, the workpiece 5 can be brought into close contact with the pallet 30 at the time of foil pressing. As shown in FIG. 7, when cutting is performed by the cutting device 300, debris may be generated due to the cutting. Here, since the through hole 51 (see FIG. 8) is formed in the placement portion 41, the residue can be dropped from the through hole 51.

  According to this embodiment, as shown in FIG. 9, the through hole 51 is smaller than the workpiece 5 in plan view. As shown in FIG. 8, the shape of the through hole 51 is a honeycomb shape. Accordingly, when the workpiece 5 is to be placed on the placement portion 41 of the pallet 30, the workpiece 5 does not fall downward from the through hole 51 formed in the placement portion 41. The workpiece 5 can be placed on the placement portion 41.

  In the present embodiment, as shown in FIG. 9, the uppermost point of the frame body 42 is located above the uppermost point of the placement portion 41. Here, the upper surface of the frame body 42 is located above the upper surface of the mounting portion 41. Thus, the workpiece 5 can be placed on the placement portion 41 in a state where the workpiece 5 is accommodated inside the frame body 42.

  In this embodiment, as shown in FIG. 10, the workpiece production system 1 fixes the pallet 30 to a printing table 150, a foil pressing table 250 (see FIG. 4), and a cutting table 350 (see FIG. 6). A member 60 is provided. Thus, the pallet 30 can be fixed to the printing table 150, the foil pressing table 250, and the cutting table 350 using the fixing member 60, respectively. Therefore, it is possible to suppress the pallet 30 from being displaced from the printing table 150 during printing. It is possible to suppress the pallet 30 from being displaced with respect to the foil pressing table 250 at the time of foil pressing. Further, it is possible to suppress the pallet 30 from being displaced from the cutting table 350 during cutting.

  In the present embodiment, as shown in FIG. 8, a plurality of pallet fixing holes 58 are formed in the frame body 42. As shown in FIG. 2, a printing fixing hole 158 is formed in the printing table 150 at a position corresponding to the pallet fixing hole 58 in a state where the pallet 30 is placed. As shown in FIG. 4, the foil pressing table 250 is formed with a foil pressing fixing hole 258 at a position corresponding to the pallet fixing hole 58 in a state where the pallet 30 is placed. As shown in FIG. 6, the cutting table 350 has a cutting fixing hole 358 at a position corresponding to the pallet fixing hole 58 in a state where the pallet 30 is placed. As shown in FIG. 10, in a state where the pallet 30 is placed on the printing table 150, the fixing member 60 is inserted into the pallet fixing hole 58 and the printing fixing hole 158. Although illustration is omitted, the fixing member 60 is inserted into the pallet fixing hole 58 and the foil pressing fixing hole 258 in a state where the pallet 30 is placed on the foil pressing table 250. Further, in a state where the pallet 30 is placed on the cutting table 350, the fixing member 60 is inserted into the pallet fixing hole 58 and the cutting fixing hole 358. By inserting the fixing member 60 into any one of the pallet fixing hole 58, the printing fixing hole 158, the foil pressing fixing hole 258, and the cutting fixing hole 358, the pallet 30 is It can be fixed to any of the printing table 150, the foil pressing table 250, and the cutting table 350.

  In the present embodiment, as shown in FIG. 8, the pallet fixing hole 58 is formed at a corner of the frame body 42. Thus, the pallet 30 can be reliably fixed to any one of the printing table 150, the foil pressing table 250, and the cutting table 350.

  In the present embodiment, as shown in FIG. 8, the shape of the through hole 51 formed in the placement portion 41 of the pallet 30 is a honeycomb shape. However, the shape of the through hole 51 is not particularly limited. FIGS. 11A to 11C are plan views showing a pallet 30 according to a modification. For example, the through hole of the pallet of the present invention may be a square through hole 51a as shown in FIG. 11 (a), or a triangular through hole 51b as shown in FIG. 11 (b). It may be. For example, the through holes of the pallet of the present invention may be circular through holes 51ca and 51cb as shown in FIG. The through hole 51ca is larger than the through hole 51cb. Thus, the plurality of through holes of the pallet of the present invention may have different sizes.

  In this embodiment, as shown in FIG. 1, the workpiece production system 1 includes a printing apparatus 100, a foil stamping apparatus 200, and a cutting apparatus 300, and the pallet 30 is used in the above three apparatuses. Met. However, any of the printing apparatus 100, the foil stamping apparatus 200, and the cutting apparatus 300 can be omitted. For example, the workpiece manufacturing system 1 may include the printing apparatus 100 and the foil stamping apparatus 200, and the pallet 30 may be used in the printing apparatus 100 and the foil stamping apparatus 200. The workpiece production system 1 may include a printing apparatus 100 and a cutting apparatus 300, and the pallet 30 may be used in the printing apparatus 100 and the cutting apparatus 300. The workpiece manufacturing system 1 may include a foil stamping device 200 and a cutting device 300, and the pallet 30 may be used in the foil stamping device 200 and the cutting device 300.

  In the present embodiment, as shown in FIG. 2, in the printing apparatus 100, the printing table 150 moves in the sub-scanning direction Y, so that the position of the printing table 150 in the sub-scanning direction Y relative to the ink head 136 is relative. Had moved to. However, the position of the printing table 150 in the sub-scanning direction Y relative to the ink head 136 may be moved by moving the printing guide rail 132 provided with the ink head 136 in the sub-scanning direction Y. Similarly, in the present embodiment, in the foil pressing apparatus 200, the foil pressing guide rail 232 provided with the foil pressing head 236 moves in the sub-scanning direction Y, so that the foil pressing table 250 in the sub-scanning direction Y of the foil pressing table 250 is moved. You may move a position relatively. In the cutting apparatus 300, the cutting guide rail 332 provided with the cutting head 336 moves in the sub-scanning direction Y, so that the position of the cutting table 350 in the sub-scanning direction Y moves relative to the cutting head 336. Also good.

DESCRIPTION OF SYMBOLS 1 Workpiece preparation system 5 Workpiece 30 Pallet 41 Placement part 42 Frame 51 Through hole 58 Pallet fixing hole 60 Fixing member 100 Printing device 150 Printing table 155 Printing suction device 200 Foil pressing device 250 Foil pressing table 255 Foil pressing Suction device 300 Cutting device 350 Cutting table

Claims (9)

A printing table on which a workpiece is placed and a plurality of holes are formed, and a printing suction device that sucks the workpiece to the printing table side through the plurality of holes of the printing table. A printing apparatus that performs printing on the workpiece; a foil pressing table on which the workpiece is placed and formed with a plurality of holes; and the workpiece through the plurality of holes of the foil pressing table. A foil pushing suction device for sucking an object toward the foil pushing table, a foil pushing device for pushing the workpiece against the workpiece, and a cutting table on which the workpiece is placed, the workpiece And at least two or more of the cutting devices that cut the workpiece, the printing table, the foil pressing table, and the cutty in a state where the workpiece is placed A pallet placed on at least two or more tables of grayed table,
A placement section on which the workpiece is placed;
A frame provided on the mounting portion so as to surround the mounting portion;
With
The pallet in which a plurality of through holes penetrating in the vertical direction are formed in the mounting portion.   The pallet according to claim 1, wherein the shape of the through hole is a honeycomb shape.   The pallet according to claim 1 or 2, wherein an uppermost point of the frame body is located above an uppermost point of the mounting portion. A pallet according to any one of claims 1 to 3;
At least one of the printing device, the foil stamping device, and the cutting device;
Workpiece production system with The printing device;
The foil stamping device;
The cutting device;
A workpiece production system according to claim 4, comprising:   The workpiece manufacturing system according to claim 5, further comprising a fixing member that fixes the pallet to the printing table, the foil pressing table, and the cutting table. In the frame of the pallet, at least two pallet fixing holes are formed,
In the state where the pallet is placed on the printing table, a fixing hole for printing is formed at a position corresponding to the fixing hole for the pallet,
In the state where the pallet is placed on the foil pressing table, a foil pressing fixing hole is formed at a position corresponding to the pallet fixing hole,
In the state where the pallet is placed on the cutting table, a fixing hole for cutting is formed at a position corresponding to the fixing hole for the pallet,
The fixing member is inserted into the pallet fixing hole and the printing fixing hole in a state where the pallet is placed on the printing table, and in a state where the pallet is placed on the foil pressing table, The pallet fixing hole and the foil pressing fixing hole are inserted into the pallet fixing hole and the cutting fixing hole in a state where the pallet is placed on the cutting table. 6. The workpiece production system described in 6. The shape of the outer edge of the frame is rectangular,
The workpiece preparation system according to claim 7, wherein the pallet fixing hole is formed at a corner of the frame. A printing table on which a workpiece is placed and a plurality of holes are formed, and a printing suction device that sucks the workpiece to the printing table side through the plurality of holes of the printing table. A printing apparatus that performs printing on the workpiece; a foil pressing table on which the workpiece is placed and formed with a plurality of holes; and the workpiece through the plurality of holes of the foil pressing table. A foil pushing suction device for sucking an object toward the foil pushing table, a foil pushing device for pushing the workpiece against the workpiece, and a cutting table on which the workpiece is placed, the workpiece A cutting device that cuts the workpiece, and the plate placed on the printing table, the foil pressing table, and the cutting table in a state where the workpiece is placed. A mounting portion on which the workpiece is placed, and a frame provided on the placement portion so as to surround the placement portion. A method of using a pallet in which a plurality of through holes penetrating in a direction are formed,
A printing step of placing the pallet on the printing table in a state where the work piece is placed on the placement unit and performing printing on the print object;
After printing on the workpiece in the printing step, the workpiece is placed on the placing section, the pallet is placed on the foil pressing table, and the workpiece is processed. A foil stamping process for stamping an object,
After the foil pressing is performed on the workpiece in the foil pressing step, the pallet is mounted on the cutting table in a state where the workpiece is mounted on the mounting portion, and the processing is performed. A cutting process for cutting an object,
How to use the palette.

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