WO2013125349A1 - Machine à rainurer, procédé de rainurage de feuilles et dispositif de formation de cartons - Google Patents

Machine à rainurer, procédé de rainurage de feuilles et dispositif de formation de cartons Download PDF

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Publication number
WO2013125349A1
WO2013125349A1 PCT/JP2013/052736 JP2013052736W WO2013125349A1 WO 2013125349 A1 WO2013125349 A1 WO 2013125349A1 JP 2013052736 W JP2013052736 W JP 2013052736W WO 2013125349 A1 WO2013125349 A1 WO 2013125349A1
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WO
WIPO (PCT)
Prior art keywords
slotter
head
sheet
speed
lower blade
Prior art date
Application number
PCT/JP2013/052736
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English (en)
Japanese (ja)
Inventor
誠 猪原
治 波多野
Original Assignee
三菱重工印刷紙工機械株式会社
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Application filed by 三菱重工印刷紙工機械株式会社 filed Critical 三菱重工印刷紙工機械株式会社
Publication of WO2013125349A1 publication Critical patent/WO2013125349A1/fr

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B31MAKING ARTICLES OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER; WORKING PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
    • B31BMAKING CONTAINERS OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
    • B31B50/00Making rigid or semi-rigid containers, e.g. boxes or cartons
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B31MAKING ARTICLES OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER; WORKING PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
    • B31BMAKING CONTAINERS OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
    • B31B50/00Making rigid or semi-rigid containers, e.g. boxes or cartons
    • B31B50/14Cutting, e.g. perforating, punching, slitting or trimming
    • B31B50/146Cutting, e.g. perforating, punching, slitting or trimming using tools mounted on a drum
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B31MAKING ARTICLES OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER; WORKING PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
    • B31BMAKING CONTAINERS OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
    • B31B2100/00Rigid or semi-rigid containers made by folding single-piece sheets, blanks or webs
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B31MAKING ARTICLES OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER; WORKING PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
    • B31BMAKING CONTAINERS OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
    • B31B2120/00Construction of rigid or semi-rigid containers
    • B31B2120/30Construction of rigid or semi-rigid containers collapsible; temporarily collapsed during manufacturing
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B31MAKING ARTICLES OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER; WORKING PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
    • B31BMAKING CONTAINERS OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
    • B31B50/00Making rigid or semi-rigid containers, e.g. boxes or cartons
    • B31B50/14Cutting, e.g. perforating, punching, slitting or trimming
    • B31B50/20Cutting sheets or blanks
    • B31B50/22Notching; Trimming edges of flaps
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B31MAKING ARTICLES OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER; WORKING PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
    • B31BMAKING CONTAINERS OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
    • B31B50/00Making rigid or semi-rigid containers, e.g. boxes or cartons
    • B31B50/25Surface scoring
    • B31B50/256Surface scoring using tools mounted on a drum

Definitions

  • the present invention relates to a slotter device that performs grooving in the process of manufacturing a cardboard box, a sheet grooving method, and a box making machine.
  • a general box making machine manufactures a box (corrugated cardboard box) by processing a sheet material (for example, a corrugated cardboard sheet), and includes a paper feeding unit, a printing unit, a paper discharge unit, a die cut unit, and folding. Part and a counter ejector part.
  • the paper feeding unit feeds cardboard sheets stacked on the table one by one and sends them to the printing unit at a constant speed.
  • the printing unit has a printing unit and performs printing on a cardboard sheet.
  • the paper discharge unit forms a ruled line that becomes a fold line on the printed cardboard sheet and processes a groove forming a flap and a bonding margin piece for joining.
  • the die-cut portion is used for punching a corrugated cardboard sheet on which ruled lines, grooves, and paste margins are formed.
  • the folding part is flattened by applying glue to the glue margin piece, folding it along the ruled line, and joining the glue margin piece while moving the corrugated cardboard sheet with ruled lines, grooves, glue margin pieces, and hand holes.
  • the counter ejector unit stacks corrugated cardboard boxes in which corrugated sheets are folded and glued, sorts them into a predetermined number of batches, and discharges them.
  • a rotating ruled line roll forms a ruled line on a printed cardboard sheet
  • a slotter head performs a grooving process that forms a flap.
  • the slotter head is configured by fixing a cutting blade to a part of the outer periphery in the circumferential direction, and this cutting blade forms a groove having a predetermined length on the corrugated cardboard sheet being conveyed.
  • the circumferential length of the cutting blade is set with respect to the length of the groove, and the circumferential length of a rotating body other than the cutting blade is set with respect to the box depth.
  • the diameter of the slotter head is set as follows. It is necessary to increase the size, or to provide two slotter heads, and to provide a conveying roller between them, which leads to an increase in size and cost of the apparatus.
  • Patent Document 1 As a solution to such a problem, for example, there is one described in Patent Document 1 below.
  • the corrugated sheet processing apparatus described in Patent Document 1 rotates the cylinder at a low speed when the middle portion of the long corrugated sheet passes, and extends the cylinder when the rear portion of the long corrugated sheet passes below the cylinder.
  • a predetermined slot processing is performed with a rotary blade of a cylinder at the same speed as the conveyance speed of the corrugated cardboard sheet or a high speed rotation.
  • the upper and lower cylinders are rotated at a low speed when the intermediate portion of the corrugated sheet passes, and the upper and lower cylinders are rotated at a high speed when the rear portion of the corrugated sheet passes.
  • Slot processing In this case, when the upper and lower cylinders rotate, the upper and lower rotary blades slot the cardboard sheet, and when the cylinder rotary blades slot, the cardboard sheet is supported by the front and rear conveying rollers. It can be transported. That is, the upper and lower conveying rollers are required before and after the upper and lower cylinders (upper and lower rotary blades).
  • the present invention solves the above-described problems, and provides a slotter device, a sheet grooving method, and a box making machine that can perform processing according to various types of sheets without increasing the size of the device. With the goal.
  • the slotter device of the present invention includes an upper slotter head that is rotatably supported and has a cutting edge on a part of its outer periphery, an upper drive device that can drive and rotate the upper slotter head, A lower blade supported rotatably below the upper slotter head and capable of conveying a sheet, a lower drive device capable of driving and rotating the lower blade, and the upper drive device to reduce the rotation speed of the upper slotter head. And a control device that can be controlled at a speed different from the rotational speed of the blade.
  • the upper slotter head is driven and rotated by the upper driving device, the lower blade is rotated by the lower driving device, and the sheet is inserted between them, so that grooving can be performed while the sheet is conveyed.
  • the control device controls the rotation speed of the upper slotter head to a speed different from the rotation speed of the lower blade by the upper drive device, so that the upper slotter head rotates at a high speed according to the grooving length in a predetermined area.
  • the sheet rotates at a low speed can be easily processed into a desired shape while conveying the sheet, and can be processed according to various types of sheets without increasing the size of the apparatus.
  • the lower blade is a lower slotter head disposed to face the upper slotter head, and can be driven and rotated by the lower drive device.
  • the upper slotter head rotates at a high speed or a low speed according to the grooving length in a predetermined region.
  • the sheet can be easily processed into a desired shape while being conveyed.
  • the control device changes the rotational speed of the upper slotter head to a higher speed or a lower speed than the rotational speed of the lower blade by the upper driving device in accordance with the conveyance position of the sheet. It is said.
  • control device can easily process the sheet into a desired shape while conveying the sheet regardless of the grooving length by controlling the speed at the time of grooving by the upper slotter head and at the time of conveyance. Can do.
  • the upper drive device when the upper slotter head is at a transport position where the sheet is not grooved, rotates the lower blade with a rotation speed of the upper slotter head. It is characterized by changing to a lower speed than the speed.
  • the control device reduces the rotation speed of the upper slotter head by the upper drive device without increasing the diameter of the upper slotter head. Grooving and transport can be performed.
  • the control device uses the upper drive device to determine the rotational speed at the sheet transport position of the upper slotter head, and the rotational speed at the grooving position of the sheet in the upper slotter head. It is characterized by changing to a lower speed side.
  • control device sets the rotation speed when the upper slotter head conveys the sheet by the upper drive device to a lower speed side than the rotation speed when the sheet is grooved so that the diameter of the upper slotter head and the cutting edge are reduced.
  • the sheet can be grooved and conveyed without increasing the circumferential length of the sheet.
  • the slotter device according to the present invention is characterized in that the upper slotter head and the lower blade can convey the sheet while sandwiching the sheet.
  • the sheet can be conveyed with high accuracy by the upper slotter head and the lower blade.
  • the slotter device is characterized in that the upper slotter head sandwiches the sheet between the lower blade and a conveying roller that is rotatable relative to the cutting blade.
  • the sheet can be nipped and conveyed by the conveying roller of the upper slotter head and the lower blade, and the sheet can be conveyed properly by the lower blade even if the rotation speed of the upper slotter head is changed.
  • the slotter device according to the present invention is characterized in that the transport roller can be rotated with the lower blade via the sheet.
  • the conveying roller rotates with the rotation force transmitted from the lower blade via the sheet, it is possible to simplify the apparatus without requiring a separate driving device and to achieve an energy saving effect. .
  • the slotter device is characterized in that the transport roller is coupled to be able to be driven and rotated in synchronization with the lower blade.
  • the transport roller is coupled so as to be able to be driven and rotated in synchronization with the lower blade, it is possible to simplify the apparatus by eliminating the need for a separate drive device, etc., and to achieve an energy saving effect.
  • the sheet can be properly conveyed while preventing slippage between the conveying roller and the sheet.
  • a transport roller driving device capable of driving and rotating the transport roller
  • the control device can drive and rotate the transport roller in synchronization with the lower blade by the transport roller driving device. It is characterized by being.
  • the conveyance roller can be driven and rotated in synchronization with the lower blade by the conveyance roller driving device, slip between the conveyance roller and the sheet can be prevented and the sheet can be conveyed appropriately.
  • a slitter head that is supported so as to be relatively rotatable concentrically with the upper slotter head and provided with a cutting edge on the entire circumference, and is supported rotatably below the slitter head so that a sheet can be conveyed.
  • a slitter head lower blade is provided, and the slitter head is rotatable in synchronization with the slitter head lower blade.
  • the slitter head rotates in synchronization with the lower blade for the slitter head without being affected by the rotational speed of the upper slotter head, the slitter head is moved by the cutting blade between the lower blade for the slitter head and the sheet. Can be cut, and even if the rotation speed of the upper slotter head is changed, the sheet can be cut appropriately.
  • the upper slotter head is provided with a counterweight facing the cutting blade in the radial direction.
  • the weight balance is stably rotated, and the grooving accuracy of the sheet can be improved.
  • the upper slotter head and the lower blade having a cutting edge on a part of the outer periphery are rotated, and the sheet is passed between the upper slotter head and the lower blade.
  • the upper slotter head is moved from the lower blade at a position where the upper slotter head does not groov the sheet. It is characterized by rotating at a low speed.
  • the box making machine of the present invention includes a sheet feeding unit that supplies a sheet, a printing unit that performs printing on the sheet, and a sheet discharge that performs ruled line processing and grooving on the surface of the sheet.
  • a folding part that folds the sheet and joins end parts to form a box, and a counter ejector part that discharges every predetermined number after stacking while counting the box,
  • the paper discharge unit is rotatably supported and has an upper slotter head provided with a cutting edge on a part of the outer periphery, an upper drive device capable of driving and rotating the upper slotter head, and a lower part of the upper slotter head.
  • the lower blade that is supported and can transport the sheet, the lower drive device that can drive and rotate the lower blade, and the upper drive device can control the rotational speed of the upper slotter head to a speed different from the rotational speed of the lower blade.
  • Control equipment When, is characterized in that it has a.
  • the printing unit prints the sheet from the paper feeding unit, the ruled line processing and the grooving processing are performed in the paper discharge unit, and the box is formed by folding the folding unit and joining the end portions.
  • the boxes are stacked while being counted by the counter ejector.
  • the upper slotter head is rotated at a high speed or a low speed in a predetermined area according to the grooving length, etc., and it is possible to easily process the sheet into a desired shape while conveying the sheet.
  • Many types of cardboard boxes can be manufactured without conversion.
  • the rotational speed of the upper slotter head having the cutting blade is controlled to a speed different from the rotational speed of the lower slotter head.
  • FIG. 1 is a schematic configuration diagram illustrating a box making machine according to a first embodiment of the present invention.
  • FIG. 2 is a schematic configuration diagram illustrating the slotter device according to the first embodiment.
  • FIG. 3 is a perspective view illustrating the slotter device according to the first embodiment.
  • FIG. 4 is a cross-sectional view of a main part of the slitter head in the slotter device according to the first embodiment.
  • FIG. 5 is a perspective view of a slitter head in the slotter device according to the first embodiment.
  • FIG. 6 is a cross-sectional view of a main part of the first slotter head in the slotter device according to the first embodiment.
  • FIG. 1 is a schematic configuration diagram illustrating a box making machine according to a first embodiment of the present invention.
  • FIG. 2 is a schematic configuration diagram illustrating the slotter device according to the first embodiment.
  • FIG. 3 is a perspective view illustrating the slotter device according to the first embodiment.
  • FIG. 4 is a
  • FIG. 7 is a cross-sectional view of a main part of the first slotter head in the slotter device according to the first embodiment.
  • FIG. 8 is a schematic view showing the slotter rotation speed with respect to the cardboard sheet.
  • FIG. 9 is an explanatory diagram illustrating grooving by the slotter device according to the first embodiment.
  • FIG. 10 is an explanatory diagram illustrating grooving by the slotter device according to the first embodiment.
  • FIG. 11 is an explanatory diagram illustrating grooving by the slotter device according to the first embodiment.
  • FIG. 12 is a perspective view of the cardboard sheet before processing.
  • FIG. 13 is a perspective view of the corrugated cardboard sheet after ruled line processing and grooving.
  • FIG. 14 is a perspective view of a corrugated cardboard sheet representing a state during folding.
  • FIG. 15 is a perspective view of a cardboard box that is folded and joined.
  • FIG. 16 is a schematic configuration diagram illustrating a slotter device according to a second embodiment of the present invention.
  • FIG. 17 is a schematic view showing the slotter rotation speed with respect to the cardboard sheet.
  • FIG. 1 is a schematic configuration diagram illustrating a box making machine according to a first embodiment of the present invention
  • FIG. 2 is a schematic configuration diagram illustrating a slotter device according to the first embodiment
  • FIG. 3 is a perspective view illustrating the slotter device according to the first embodiment
  • 4 is a cross-sectional view of the main part of the slitter head in the slotter device according to the first embodiment
  • FIG. 5 is a perspective view of the slitter head in the slotter device according to the first embodiment
  • FIGS. 6 and 7 are slotters according to the first embodiment.
  • FIG. 8 is a schematic diagram showing the slotter rotation speed with respect to the corrugated cardboard sheet
  • FIG. 9 to 11 are explanatory views showing grooving by the slotter device according to the first embodiment.
  • 12 is a perspective view of the corrugated cardboard sheet before processing
  • FIG. 13 is a perspective view of the corrugated cardboard sheet after ruled line processing and grooving
  • FIG. 14 is a perspective view of the corrugated cardboard sheet showing a state in the middle of folding
  • FIG. Folded joint And is a perspective view of a cardboard box.
  • the box making machine of Example 1 manufactures a cardboard box (box body) B by processing a cardboard sheet (sheet material) S.
  • the box making machine includes a sheet feeding unit 11, a printing unit 21, a sheet discharging unit 31, a die cutting unit 41, a folding unit 51, arranged linearly in a direction D in which the cardboard sheet S and the cardboard box B are conveyed. It comprises a counter ejector unit 61.
  • the paper feeding unit 11 feeds the cardboard sheets S one by one and sends them to the printing unit 21 at a constant speed.
  • the sheet feeding unit 11 includes a table 12, a front pad 13, a supply roller 14, a suction device 15, and a feed roll 16.
  • the table 12 can be mounted by stacking a large number of cardboard sheets S and is supported so as to be lifted and lowered.
  • the front pad 13 can position the front end position of the cardboard sheets S stacked on the table 12, and a gap through which one cardboard sheet S can pass is secured between the lower end portion and the table 12. .
  • a plurality of supply rollers 14 are arranged in the conveying direction D of the corrugated cardboard sheet S corresponding to the table 12, and when the table 12 descends, the supply roller 14 is at the lowest position among the stacked corrugated cardboard sheets S.
  • the table 12 can be sent forward.
  • the suction device 15 sucks the stacked cardboard sheets S downward, that is, toward the table 12 or the supply roller 14 side.
  • the feed roll 16 can supply the cardboard sheet S sent out by the supply roller 14 to the printing unit 21.
  • the printing unit 21 performs multicolor printing (four color printing in this embodiment) on the surface of the corrugated cardboard sheet S.
  • four printing units 21A, 21B, 21C, and 21D are arranged in series, and printing can be performed on the surface of the cardboard sheet S using four ink colors.
  • Each printing unit 21A, 21B, 21C, 21D is configured in substantially the same manner, and has a printing cylinder 22, an ink supply roll (anilox roll) 23, an ink chamber 24, and a receiving roll 25.
  • a printing cylinder 22 is attached to the outer periphery of the printing cylinder 22 and is rotatably provided.
  • the ink supply roll 23 is disposed so as to be in contact with the printing plate 26 in the vicinity of the printing cylinder 22 and is rotatably provided.
  • the ink chamber 24 stores ink and is provided in the vicinity of the ink supply roll 23.
  • the receiving roll 25 conveys the corrugated cardboard sheet S with the printing cylinder 22 while applying a predetermined printing pressure, and is provided rotatably below the printing cylinder 22. Yes.
  • each printing unit 21A, 21B, 21C, 21D is provided with a pair of upper and lower feed rolls in the front and rear.
  • the paper discharge unit 31 performs a ruled line process and a grooving process on the corrugated cardboard sheet S.
  • the paper discharge unit 31 includes a first ruled line roll 32, a second ruled line roll 33, a slitter head 34, a first slotter head 35, and a second slotter head 36.
  • the first ruled line roll 32 is formed in a circular shape, and a plurality of (four in this embodiment) are arranged at predetermined intervals in the horizontal direction orthogonal to the conveyance direction D of the corrugated cardboard sheet S, and can be rotated by a driving device (not shown). It has become.
  • the second ruled line roll 33 is formed in a circular shape, and a plurality of (four in this embodiment) are arranged at predetermined intervals in the horizontal direction orthogonal to the conveyance direction D of the corrugated cardboard sheet S, and can be rotated by a driving device (not shown). It has become.
  • the first ruled line roll 32 arranged on the lower side applies a ruled line process to the back surface (lower surface) of the cardboard sheet S
  • the second ruled line roll 33 arranged on the lower side is a first ruled line roll.
  • the back surface (lower surface) of the corrugated cardboard sheet S is subjected to ruled line processing, and receiving rolls 37, 38 are rotatably provided synchronously at an upper position facing the ruled line rolls 32, 33. Yes.
  • the slitter head 34 and the first slotter head 35 are formed in a circular shape, and a plurality (in this embodiment, five) of the slitter head 34 and the first slotter head 35 are arranged at predetermined intervals in the horizontal direction orthogonal to the conveying direction D of the cardboard sheet S. Can be rotated.
  • the slitter head 34 is composed of a single piece and is provided corresponding to the end in the width direction of the corrugated cardboard sheet S to be conveyed. The end of the cardboard sheet S in the width direction can be cut.
  • the first slotter head 35 is composed of four pieces and is provided corresponding to a predetermined position in the width direction of the corrugated cardboard sheet S to be conveyed, and grooving is performed at a predetermined position in the corrugated cardboard sheet S. Can do.
  • the second slotter head 36 is composed of four pieces and is provided corresponding to a predetermined position in the width direction of the corrugated cardboard sheet S to be conveyed, and grooving is performed at a predetermined position in the corrugated cardboard sheet S. It can be carried out.
  • the slitter head 34 and the first and second slotter heads 35 and 36 are provided so that the lower blades 39 and 40 can rotate synchronously at lower positions facing each other.
  • the die-cut part 41 performs a hole punching process on the corrugated cardboard sheet S.
  • the die cut portion 41 has a pair of upper and lower feed pieces 42, an anvil cylinder 43 and a head cylinder 44.
  • the feed piece 42 conveys the corrugated cardboard sheet S from above and below, and is rotatably provided.
  • the anvil cylinder 43 and the head cylinder 44 are each formed in a circular shape, and can be rotated in synchronization with a driving device (not shown). In this case, the anvil cylinder 43 has an anvil formed on the outer peripheral portion, while the head cylinder 44 has a head and a die formed at predetermined positions on the outer peripheral portion.
  • the folding unit 51 is formed by folding the cardboard sheet S while moving it in the transport direction D, and joining both end portions in the width direction to form a flat cardboard box B.
  • the folding unit 51 includes an upper conveyor belt 52, lower conveyor belts 53 and 54, and a molding device 55.
  • the upper conveyor belt 52 and the lower conveyor belts 53 and 54 sandwich and convey the cardboard sheet S and the cardboard box B from above and below.
  • the forming device 55 has a pair of left and right forming belts and folds each end of the corrugated cardboard sheet S in the width direction while folding it downward.
  • the folding unit 51 is provided with a gluing device 56.
  • the gluing device 56 has a glue gun, and can paste at a predetermined position on the cardboard sheet S by discharging the glue at a predetermined timing.
  • the counter ejector section 61 is for stacking the cardboard boxes B while counting them, sorting them into a predetermined number of batches, and then discharging them.
  • the counter ejector unit 61 has a hopper device 62.
  • the hopper device 62 has a liftable elevator 63 on which the cardboard boxes B are stacked.
  • the elevator 63 is provided with a front contact plate and a rectifying plate (not shown) as shaping means.
  • a carry-out conveyor 64 is provided below the hopper device 62.
  • the corrugated board sheet S is formed by gluing a corrugated core 303 between the front liner 301 and the back liner 302 as shown in FIG.
  • two folding lines 311 and 312 are formed in the previous process of the box making machine.
  • the folding lines 311 and 312 are for folding the flap when the cardboard box B manufactured by the box making machine is assembled later.
  • Such corrugated cardboard sheets S are stacked on the table 12 of the paper feeding unit 11 as shown in FIG.
  • a large number of cardboard sheets S stacked on the table 12 in the paper feeding unit 11 are first positioned by the front pad 13 and then lowered by the plurality of supply rollers 14 as the table 12 descends.
  • the cardboard sheet S in the lower position is sent out.
  • the corrugated cardboard sheet S is supplied to the printing unit 21 on a predetermined constant side by the pair of feed rolls 16.
  • ink is supplied to the surface of the ink supply roll 23 from the ink chamber 24.
  • ink supply is performed.
  • the ink on the surface of the roll 23 is transferred to the printing plate 26.
  • the cardboard sheet S is conveyed between the printing cylinder 22 and the receiving roll 25, the cardboard sheet S is sandwiched between the printing plate 26 and the receiving roll 25, and printing pressure is applied to the cardboard sheet S.
  • the printed cardboard sheet S is conveyed to the paper discharge unit 31 by a feed roll.
  • the ruled lines 322, 323, and 324 are formed on the back side of the cardboard sheet S, that is, on the back liner 302 side, as shown in FIG. , 325 are formed. Further, when the cardboard sheet S passes through the second ruled line roll 33, the ruled lines 322, 323, 324, and 325 are re-formed on the back side of the cardboard sheet S, that is, on the back liner 302 side, as with the first ruled line roll 32. Is done. Next, when the cardboard sheet S on which the ruled lines 322, 323, 324 and 325 are formed passes through the slitter head 34, the end portion 330 of the cardboard sheet S is cut at the cutting position 321.
  • grooves 331a, 332a, and 333a are formed at the positions of the ruled lines 322, 323, 324, and 325, and the end portion 326a is cut. Further, when the corrugated cardboard sheet S passes through the second slotter head 36, grooves 331b, 332b, 333b are formed at the positions of the ruled lines 322, 323, 324, 325, and the end portion 326b is cut to form the adhesive margin piece 334. Is formed.
  • the cardboard sheet S on which the grooves 331 a, 332 a, 333 a, 331 b, 332 b, 333 b and the adhesive margin piece 334 are formed at the positions of the ruled lines 322, 323, 324, 325 is conveyed to the die cut part 41.
  • the corrugated cardboard sheet S is moved in the conveying direction D by the upper conveying belt 52 and the lower conveying belts 53 and 54, and after the glue is applied by the glue margin piece 334 by the gluing device 56, it is molded.
  • the device 55 folds downward using the ruled lines 322 and 324 as base points.
  • the folding force increases, and the adhesive margin piece 334 and the end portion of the corrugated cardboard sheet S overlying the adhesive margin piece 334 are pressed and brought into close contact with each other, and both end portions of the corrugated cardboard sheet S are joined.
  • the cardboard box B two gaps 351 are formed at the joining portion. And this cardboard box B is conveyed to the counter ejector part 61, as shown in FIG.
  • the cardboard box B detected as a non-defective product by the counter ejector unit 61 is sent to the hopper device 62.
  • the cardboard box B sent to the hopper device 62 is stacked on the elevator 63 in a state in which the front end portion in the transport direction D hits the front contact plate and is shaped by the rectifying plate. Then, when a predetermined number of cardboard boxes B are stacked on the elevator 63, the elevator 63 descends, and the predetermined number of cardboard boxes B are discharged as one batch by the carry-out conveyor 64, and in the subsequent process of the box making machine. Sent.
  • the paper discharge unit 31 performs ruled line processing and grooving processing on the corrugated cardboard sheet S.
  • the paper discharge unit 31 includes a first ruled line roll 32 and a receiving roll 37, a second ruled line roll 33 and a receiving roll 38, a slitter head 34, a first slotter head (upper slotter head) 35, and a lower blade (lower slotter head) 39.
  • the second slitter head (upper slotter head) 36 and the lower blade (lower slotter head) 40 are configured.
  • Each of the pair of upper and lower roll shafts 71 and 72 is rotatably supported by a frame (not shown), and four first ruled line rolls 32 are fixed to the lower roll shaft 71 at predetermined intervals in the axial direction.
  • the four receiving rolls 37 are fixed to the upper roll shaft 72 at predetermined intervals in the axial direction.
  • the pair of upper and lower roll shafts 73 and 74 are rotatably supported at their ends by a frame (not shown), and the four second ruled rolls 33 are spaced apart from the lower roll shaft 73 in the axial direction.
  • the four receiving rolls 38 are fixed to the upper roll shaft 74 at predetermined intervals in the axial direction.
  • each first ruled line roll 32 and each receiving roll 37, each second ruled line roll 33 and each receiving roll 38 are arranged facing each other in the vertical direction.
  • each first ruled line roll 32 has a second ruled line roll 33 arranged on the downstream side thereof with a predetermined gap in the horizontal direction.
  • the first ruled line roll 32 and the second ruled line roll 33 are arranged at the same position in the axial direction of the roll shafts 71 and 73, and the diameter of the second ruled line roll 33 is larger than the diameter of the first ruled line roll 32. It is set small.
  • the first ruled line roll 32 and the receiving roll 37 are arranged to face each other vertically, and when the corrugated cardboard sheet S enters between the first ruled line roll 32 and the receiving roll 37, the outer periphery of the first ruled line roll 32 The outer periphery of the receiving roll 37 sandwiches the corrugated cardboard sheet S, and a ruled line is formed on the lower surface when the corrugated cardboard sheet S passes between the two.
  • the second ruled line roll 33 and the receiving roll 38 are disposed so as to face each other vertically.
  • the outer periphery of the second ruled line roll 33 is The outer periphery of the receiving roll 38 holds the corrugated cardboard sheet S, and when the corrugated cardboard sheet S passes between the two, a ruled line is re-formed on the lower surface.
  • the cardboard sheet S forms one ruled line by rolling the first ruled line roll 32 and the second ruled line roll 33 at the same position.
  • the pair of upper and lower slotter shafts 75 and 76 are rotatably supported at their respective ends by a frame (not shown), and one slitter head 34 and four first slotter heads 35 are pivoted on the upper slotter shaft 75.
  • the five lower blades 39 are fixed to the lower slotter shaft 76 at predetermined intervals in the axial direction.
  • one lower blade (lower blade for slitter head) 39 is disposed corresponding to one slitter head 34, and four lower blades (slotter head) corresponding to four first slotter heads 35. (Lower blade) 39 is disposed.
  • the pair of upper and lower slotter shafts 77 and 78 are rotatably supported at their ends by a frame (not shown), and four second slotter heads 36 are spaced apart from the upper slotter shaft 77 in the axial direction.
  • the four lower blades 40 are fixed to the lower slotter shaft 78 at predetermined intervals in the axial direction.
  • a slitter knife (cutting blade) 79 is fixed to the outer periphery of each slitter head 34, and a slotter knife (cutting blade) 80 is fixed to the outer periphery of each of the four first slotter heads 35.
  • counterweights 81 are fixed to the four first slotter heads 35 on the outer peripheral portions so as to face the slotter knife 80.
  • the four second slotter heads 35 each have a slotter knife (cutting blade) 83 fixed to the outer periphery thereof, and a counterweight 84 fixed to face the slotter knife 83.
  • the slitter knife 79 of the slitter head 34 is provided on the entire circumference, and the slotter knives 80 and 83 of the slotter heads 34 and 35 are provided on a part of the circumferential direction.
  • the slotter knives 80 and 83 and the counterweights 81 and 84 have substantially the same weight and are fixed at positions facing each other in the radial direction.
  • each first slotter head 35 and each lower blade 39, each second slotter head 36 and each lower blade 40 are arranged to face each other in the vertical direction. Further, the slitter head 34 and each first slotter head 35 are arranged with a predetermined gap in the horizontal direction on the downstream side of each second ruled line roll 33, and each first slotter head 35 has each second slot on the downstream side thereof.
  • the slotter head 36 is disposed with a predetermined gap in the horizontal direction.
  • the second ruled line rolls 33, the slitter heads 34, and the first slotter heads 35 are disposed at the same position in the axial direction of the slotter shafts 73 and 76, and the first slotter heads 35 and the second slotter heads. 36 is arranged at the same position in the axial direction of the slotter shafts 75 and 77.
  • the slitter head 34 and the first slotter head 35 and the lower blade 39 are disposed to face each other vertically, and the cardboard sheet S enters between the slitter head 34 and the first slotter head 35 and the lower blade 39, When passing between the two, the end portion is cut by the slitter knife 79 of the slitter head 34, and the groove is cut by the slotter knife 80 of the first slotter head 35.
  • the cardboard sheet S passes between the first slotter head 35 and the lower blade 39, in the region where the slotter knife 80 is not provided on the outer periphery, the outer periphery of the first slotter head 35 and the lower blade 39 It is sandwiched and conveyed by the outer periphery.
  • the second slotter head 36 and the lower blade 40 are disposed so as to face each other vertically, and when the cardboard sheet S enters between the second slotter head 36 and the lower blade 40 and passes between the two, Slotting is performed by the slotter knife 84 of the two slotter head 36.
  • the outer periphery of the second slotter head 36 and the lower blade 40 are not provided in the region where the slotter knife 83 is provided on the outer periphery. It is sandwiched and conveyed by the outer periphery.
  • the slotter shaft 75 is connected to a first motor (upper drive device) 85, and the first slotter head 35 can be driven and rotated by the first motor 85.
  • the slotter shaft 77 is connected to a second motor (upper drive device) 86, and the second motor 86 can drive and rotate the second slotter head 36.
  • the roll shafts 71, 72, 73, 74 and the slotter shafts 76, 78 are drivingly connected to a third motor (lower drive device) 87, and the ruled line rolls 32, 33 and the receiving rolls 37, 38 are driven by the third motor 87. And the lower blades 39 and 40 can be driven and rotated synchronously.
  • the third motor 87, the roll shafts 71, 72, 73, 74, and the slotter shafts 76, 78 are drivingly connected by gears (not shown).
  • the motor drivers 88, 89, 90 are connected to the motors 85, 86, 87, and the motor drivers 88, 89, 90 are connected to the control device 91.
  • the first and second motors 85 and 86 are equipped with rotary encoders 92 and 93 that detect their rotational positions, and the detection results are input to the control device 91.
  • rotary encoders 94 and 95 for detecting the rotational positions of the first and second slotter heads 35 and 36 are mounted, and the detection results are input to the control device 91.
  • the paper feeding unit 11 (see FIG. 1) in the box making machine is provided with a position sensor 96 that detects the position of the cardboard sheet S, and the detection result is input to the control device 91.
  • the control device 91 is connected to the operation device 97 and can control the motors 85, 86, and 87 based on operation signals from the operation device 97.
  • the control device 91 includes the rotational positions of the motors 85 and 86 detected by the rotary encoders 92 and 93, the rotational positions of the first and second slotter heads 35 and 36 detected by the rotary encoders 94 and 95, and the position sensor 96. Based on the detected transport position of the corrugated cardboard sheet S, the first and second motors 85 and 86 are controlled. That is, the control device 91 adjusts the rotation positions of the first and second slotter heads 35 and 36 to the proper positions with respect to the conveyance position of the cardboard sheet S, that is, the slotter knives 80 and 83 are connected to the cardboard sheet S.
  • the rotational speeds of the first and second motors 85 and 86 are controlled so that appropriate positions (grooves 331a, 332a, 333a, 331b, 332b, and 333b) can be processed.
  • the control device 91 performs feedback control based on the rotational positions of the motors 85 and 86.
  • control device 91 controls the rotational speed of the first and second slotter heads 35 and 36 to a speed different from the rotational speed of the lower blades 39 and 40.
  • the rotational speed of the lower blades 39 and 40 is the conveyance speed of the cardboard sheet S.
  • the slitter head 34 has a rotating body 34b rotatably supported by a slotter shaft 75 via a bearing 34a, and a slitter knife 79 is disposed on the entire circumference of the rotating body 34a.
  • the fixing bolt 34d is fixed in a state of being clamped by the fixing member 34c.
  • the receiving roller 39 has a rotating body 39a fixed to the slotter shaft 76, a receiving ring 39b disposed on the outer periphery of the rotating body 39a, and fixed by a fastening bolt 39c.
  • a slotter knife 79 is fixed to a rotating body 34a that is rotatable relative to the slotter shaft 75, and a pair of receiving rings 39b in the receiving roller 39 is a space portion into which the slotter knife 80 enters. 39d is formed.
  • the slitter head 34 can cut the end portion of the corrugated cardboard sheet S by the slitter knife 79 entering the space 39 d of the receiving roller 39.
  • the slitter head 34 is relatively rotatable with respect to the slotter shaft 75 and is capable of rotating relative to the slotter shaft 75 even if the rotational speed of the first slotter head 35 (slotter shaft 75) is different from the rotational speed of the lower blade 39. Since the knife 79 enters and contacts the space 39d of the receiving roller 39, it is rotated by the rotational force of the lower blade 39 without being affected by the rotational speed of the first slotter head 35 (slotter shaft 75). Then, the cardboard sheet S can be cut.
  • a rotating body 35a is fixed to a slotter shaft 75, and a slotter knife 80 is disposed on a part of the outer periphery of the rotating body 35a, and is sandwiched by a fixing member 35b. In this state, it is fixed by a fastening bolt 35c.
  • the first slotter head 35 is located on both sides of the slotter knife 80 in the thickness direction, and a conveyance roller 35e is mounted on the outer peripheral portion of the rotating body 35a via a bearing 35d.
  • the receiving roller 39 has a rotating body 39a fixed to the slotter shaft 76, a receiving ring 39b disposed on the outer periphery of the rotating body 39a, and fixed by a fastening bolt 39c.
  • the pair of conveying rollers 35e in the first slotter head 35 is provided with a slotter knife 80 therebetween, and the pair of receiving rings 39b in the receiving roller 39 has a space portion 39d into which the slotter knife 80 enters. Is formed.
  • the slotter knife 80 of the first slotter head 35 faces the receiving roller 39, the slotter knife 80 enters the space 39d, and the pair of conveying rollers 35e and the pair of receiving rings 39b hold the corrugated cardboard sheet S.
  • the cardboard sheet S can be grooved by being held and conveyed.
  • the pair of conveying rollers 35 e and the pair of receiving rings 39 b sandwich and convey the cardboard sheet S. Can do.
  • the transport roller 35e is relatively rotatable with respect to the first slotter head 35.
  • the receiving ring 39b sandwich the cardboard sheet S, and the cardboard sheet S can be conveyed by the rotational force of the lower blade 39. That is, since the conveyance roller 35e can be rotated by receiving rotational force from the receiving roller 39 (receiving ring 39b) via the corrugated cardboard sheet S, the rotation speed (circumferential speed) of the lower blade 39 and the conveyance roller 35e
  • the rotational speed (peripheral speed) is substantially the same speed, and this speed is the conveying speed of the cardboard sheet S.
  • the control device 91 uses the first and second motors 85 and 86 to adjust the first and second slotter heads 35 and 36 according to the transport position of the cardboard sheet S.
  • the rotational speed is changed to be lower than the rotational speed of the lower blades 39 and 40. That is, when the first and second slotter heads 35 and 36 are in the conveying position where the corrugated cardboard sheet S is not grooved, the control device 91 uses the first and second motors 85 and 86 to perform the first and second slotters.
  • the rotational speed of the heads 35 and 36 is changed to be lower than the rotational speed of the lower blades 39 and 40.
  • control device 91 uses the first and second motors 85 and 86 to change the rotational speed of the first and second slotter heads 35 and 36 at the conveyance position of the cardboard sheet S to the first and second slotter heads 35. , 36, the rotational speed at the grooving position of the corrugated cardboard sheet S is changed to a lower speed side.
  • the speed is set to the same speed V as the peripheral speed (conveying speed of the cardboard sheet S) V of the lower blades 39, 40, and the first and second slotter heads 35, 36 process the grooves 331a (332a, 333a) of the cardboard sheet S. If not, the peripheral speed of the first and second slotter heads 35, 36 is set to a lower speed V1 than the peripheral speed of each of the lower blades 39, 40 (the conveying speed of the cardboard sheet S).
  • the slotter knife 80 of the first slotter head 35 processes the groove 331 a with respect to the cardboard sheet S. Therefore, in this area A1, the circumferential speed of the first slotter head 35 is set to the same speed V as the circumferential speed (conveying speed of the cardboard sheet S) V of the lower blade 39. Then, as shown in FIGS.
  • the peripheral speed of the first slotter head 35 is set to the peripheral speed of the lower blade 39 in this region A2. (Conveying speed of cardboard sheet S) The peripheral speed is slower than V. Of the area A2, in the first half area A21, the first slotter head 35 is decelerated to a predetermined speed, and in the second half area A22, the first slotter head 35 is accelerated to the peripheral speed of the lower blade 39.
  • the slotter knife 83 of the second slotter head 36 enters the groove 331a of the corrugated cardboard sheet S and swings idle. Then, as shown in FIGS. 8 and 11, when the region of the corrugated cardboard sheet S reaches the second slotter head 36, the peripheral speed of the second slotter head 36 is reduced to the lower blade 40 in this region A2. The peripheral speed is slower than the peripheral speed (conveying speed V of the cardboard sheet S). Of the area A2, in the first half area A21, the second slotter head 36 is decelerated to a predetermined speed, and in the area A22, the second slotter head 36 is accelerated to the peripheral speed of the lower blade 40.
  • the slotter knife 83 of the second slotter head 36 processes the groove 331b with respect to the cardboard sheet S. Therefore, in this area A3, the peripheral speed of the second slotter head 36 is set to the same speed V as the peripheral speed of the lower blade 40 (conveying speed of the cardboard sheet S) V.
  • the peripheral speed when the first and second slotter heads 35 and 36 process the grooves 331a (332a and 333a) of the corrugated cardboard sheet S is the peripheral speed of the lower blades 39 and 40 (the corrugated cardboard sheet S of the corrugated cardboard sheet S).
  • the circumferential speed when the first and second slotter heads 35, 36 do not process the grooves 331a (332a, 333a) of the cardboard sheet S is the circumferential speed of the lower blades 39, 40 (conveyance of the cardboard sheet S).
  • the speed is lower than that of the speed, it is not limited to this control method.
  • the first and second slotter heads 35 and 36 are first in regions A1 and A3 where the grooves 331a (332a and 333a) of the cardboard sheet S are processed.
  • the peripheral speed of the second slotter heads 35, 36 is set to a lower speed Va by a predetermined speed than the peripheral speed (conveying speed of the corrugated cardboard sheet S) V of the lower blades 39, 40, and the first and second slotter heads 35, 36 are corrugated.
  • the peripheral speed of the first and second slotter heads 35, 36 is set to the peripheral speed of the lower blades 39, 40 (corrugated sheet S).
  • the lower speed Va1 is set.
  • the peripheral speed of the second slotter heads 35, 36 is set to a lower speed Vb by a predetermined speed than the peripheral speed (conveying speed of the corrugated board sheet S) V of the lower blades 39, 40, and the first and second slotter heads 35, 36 are corrugated.
  • the peripheral speed of the first and second slotter heads 35, 36 is set to the peripheral speed of the lower blades 39, 40 (corrugated sheet S).
  • Vb1 is set at a lower speed than the (conveying speed).
  • the first and second slotter heads 35 and 36 reduce the peripheral speed in the regions A1 and A3 where the grooves 331a of the corrugated cardboard sheet S are processed, while the first and second slotter heads 35 and 36.
  • the peripheral speed deceleration and acceleration of the first and second slotter heads 35 and 36 in the areas A21 and A22 are increased.
  • the peripheral speed difference between the areas A1, A3 and A2 can be reduced, and the load on the motors 85, 86 is reduced.
  • the first and second slotter heads 35 and 36 which are rotatably supported and provided with the slotter knives 80 and 83 on a part of the outer periphery, and the first and second slots.
  • First and second motors 85 and 86 capable of driving and rotating the slotter heads 35 and 36, and a lower blade 39 which is rotatably supported below the first and second slotter heads 35 and 36 and can convey the cardboard sheet S.
  • 40 a third motor 87 capable of driving and rotating the lower blades 39, 40, and the first and second motors 85, 86 to reduce the rotational speed of the first and second slotter heads 35, 36 of the lower blades 39, 40.
  • a control device 91 that can be controlled at a speed different from the rotational speed is provided.
  • the first and second slotter heads 35 and 36 are driven and rotated by the first and second motors 85 and 86, the lower blades 39 and 40 are rotated by the third motor 87, and the cardboard sheet S is inserted therebetween.
  • the cardboard sheet S can be grooved at a predetermined position while being conveyed.
  • the control device 91 controls the rotational speed of the first and second slotter heads 35 and 36 to a speed different from the rotational speed of the lower blades 39 and 40 by the first and second motors 85 and 86, thereby
  • the speed of the first and second slotter heads 35 and 36 is changed in accordance with the grooving length and box depth in the region, and the cardboard sheet S can be easily processed into a desired shape while being conveyed.
  • the control device 91 makes the rotational speed of the first and second slotter heads 35 and 36 lower than the rotational speed of the lower blades 39 and 40 according to the transport position of the cardboard sheet S. It has changed. That is, when the first and second slotter heads 35 and 36 are in a conveyance area where the corrugated cardboard sheet S is not grooved, the control device 91 reduces the rotational speed of the first and second slotter heads 35 and 36 to the lower blade. The rotational speed is changed from 39 and 40 to a lower speed.
  • first and second slotter heads 35 and 36 rotate at a low speed when the corrugated cardboard sheet S is not grooved without increasing the diameter of the first and second slotter heads 35 and 36.
  • the corrugated cardboard sheet S can be appropriately conveyed by the lower blades 39 and 40.
  • the control device 91 determines the rotational speed of the first and second slotter heads 35 and 36 at the conveyance position of the cardboard sheet S, and determines the rotation speed of the cardboard sheet S in the second slotter heads 35 and 36.
  • the rotational speed at the grooving position is changed to a lower speed side. Therefore, the cardboard sheet S can be appropriately grooved and conveyed without increasing the diameter of the first and second slotter heads 35 and 36 and the circumferential length of the slotter knives 80 and 83, and the apparatus It can be simplified.
  • first and second slotter heads 35 and 36 are provided, and the front and rear grooving processes in the corrugated cardboard sheet S are performed separately, so that the diameters and slotter knives 80 and 83 in the first and second slotter heads 35 and 36 are obtained. It is possible to reduce the circumferential length.
  • the first and second slotter heads 35 and 36 and the lower blades 39 and 40 can convey the corrugated cardboard sheet S therebetween.
  • the first and second slotter heads 35 and 36 are provided with transport rollers 35e that can rotate relative to the slotter knives 80 and 83. Accordingly, the corrugated cardboard sheet S can be held and conveyed by the conveying roller 35e of the first and second slotter heads 35 and 36 and the lower blades 39 and 40, and the circumference of the first and second slotter heads 35 and 36 can be conveyed. Even if the speed is different from the peripheral speed of the lower blades 39, 40, the corrugated cardboard sheet S can be conveyed appropriately and with high accuracy.
  • this conveyance roller 35e can be rotated with the lower blades 39 and 40 via the corrugated cardboard sheet S, it is possible to simplify the apparatus by eliminating the need for a driving device or the like, and to provide an energy saving effect. be able to.
  • the slitter head 34 is supported by the bearing 34a on the slotter shaft 75 to which the upper slotter head 35 is mounted so as to be relatively rotatable.
  • the slitter head 34 can be rotated in synchronization with the lower blade 39. It is said. Accordingly, the slitter head 34 is synchronously rotated by receiving the rotational force from the lower blade 39 via the corrugated cardboard sheet S without being affected by the rotational speed of the upper slotter head 35, so that the rotational speed of the upper slotter head 35 is reduced. Even if it is changed, the corrugated cardboard sheet S can be appropriately cut.
  • the first and second slotter heads 35 and 36 are provided with counterweights 81 and 84 facing the radial direction of the slotter knives 80 and 83, respectively. Therefore, when the slotter knives 80 and 83 and the counterweights 81 and 84 are opposed to each other in the radial direction, the weight balance is stabilized when the first and second slotter heads 35 and 36 are rotated. Grooving accuracy can be improved.
  • the first and second slotter heads 35 and 36 and the lower blades 39 and 40 are rotated, and the corrugated sheet S is passed between them.
  • the first and second slotter heads 35 and 36 only convey the cardboard sheet S without grooving.
  • the first and second slotter heads 35 and 36 are rotated at a low speed. Accordingly, it is possible to easily process the cardboard sheet S into a desired shape while conveying the cardboard sheet S regardless of the grooving length, etc., and it is not necessary to provide a separate conveying roller, and the first and second slotters.
  • the cardboard sheet S can be grooved and conveyed without increasing the diameter of the heads 35 and 36.
  • the paper feeding unit 11, the printing unit 21, the paper discharge unit 31, the die cut unit 41, the folding unit 51, and the counter ejector unit 61 are provided.
  • the first and second slotter heads 35 and 36 provided with the slotter knives 80 and 83, the lower blades 39 and 40 capable of transporting the cardboard sheet S, and the first and second slotter heads 35 and 36 are rotated at a lower speed.
  • a control device 91 that can be controlled at a speed different from the rotational speed of the blades 39 and 40 is provided.
  • the cardboard sheet S from the paper supply unit 11 is printed by the printing unit 21, the ruled line processing and the grooving processing are performed by the paper discharge unit 31, and the punching processing is performed by the die cut unit 41.
  • the folding part 51 is folded and the ends are joined to form a cardboard box B, and the cardboard box B is counted while being counted by the counter ejector part 61.
  • the rotational speed of the first and second slotter heads 35 and 36 is changed to a high speed or a low speed, so that the cardboard sheet S is conveyed to a desired shape. Processing can be easily performed, and various types of cardboard boxes can be manufactured without increasing the size of the apparatus.
  • the conveyance roller 35e is provided in the first slotter head 35 via the bearing 35d so as to be relatively rotatable, and can be rotated by receiving rotational force from the receiving roller 39 via the cardboard sheet S.
  • the present invention is not limited to this configuration.
  • the conveying roller 35e since the lower blade 39 can be driven and rotated by the third motor, the conveying roller 35e may be driven and connected by a gear (not shown) so as to be driven and rotated in synchronization with the lower blade 39.
  • a fourth motor (conveying roller driving device) that can drive and rotate the conveying roller 35e may be provided separately, and the conveying roller 35e may be driven and rotated in synchronization with the lower blade 39 by this fourth motor.
  • the transport roller 35e by connecting the transport roller 35e so as to be capable of driving and rotating in synchronization with the lower blade 39, it is possible to simplify the apparatus by eliminating the need for a separate driving device and to achieve an energy saving effect. Further, it is possible to prevent the slip between the conveying roller 35e and the corrugated cardboard sheet S and convey the corrugated cardboard sheet S properly. Further, a fourth motor capable of driving and rotating the conveyance roller is provided, and the fourth motor is driven and controlled by the control device 97, and the conveyance roller 35e can be driven and rotated in synchronization with the lower blade 39. The cardboard sheet S can be properly conveyed while preventing slipping between the cardboard sheet S and the cardboard sheet S.
  • FIG. 16 is a schematic configuration diagram showing the slotter device according to the second embodiment of the present invention
  • FIG. 17 is a schematic diagram showing the slotter rotation speed with respect to the cardboard sheet.
  • symbol is attached
  • the paper discharge unit 101 performs a ruled line process and a grooving process on the corrugated cardboard sheet S.
  • the paper discharge unit 101 includes a first ruled line roll 32 and a receiving roll 37, a second ruled line roll 33 and a receiving roll 38, a slitter head 102, a first slotter head (upper slotter head) 103, and a lower blade (lower slotter head) 104. It is composed of
  • a pair of upper and lower slotter shafts 105 and 106 are rotatably supported at their respective ends by a frame (not shown), and one slitter head 102 and four slotter heads 103 are arranged on the upper slotter shaft 105 at predetermined intervals in the axial direction.
  • the five lower blades 104 are fixed to the lower slotter shaft 106 at predetermined intervals in the axial direction.
  • One slitter head 102 has a slitter knife (cutting blade) 107 fixed to the outer peripheral portion, and each of the four slotter heads 103 has a slotter knife (cutting blade) 108 fixed to the outer peripheral portion, and a counter.
  • a weight 109 is fixed.
  • the slitter knife 107 of the slitter head 102 is provided all around, and the slotter knife 108 of each slotter head 103 is provided in a part of the circumferential direction. Further, the slotter knife 108 and the counterweight 109 have substantially the same weight and are fixed at positions opposed in the radial direction.
  • the slitter head 102 and the slotter head 103 and the lower blade 104 are disposed so as to face each other vertically.
  • the slitter head 102 causes the cardboard
  • the end portion of the sheet S is cut and the cardboard sheet S is grooved by the slotter head 103.
  • the slotter shaft 105 is drivingly connected to a first motor (upper drive device) 111, and the first motor 111 can drive and rotate the slitter head 102 and the slotter head 103.
  • the roll shafts 71, 72, 73, 74 and the slotter shaft 106 are connected to a third motor (lower drive device) 112, and the third motor 112 lowers the ruled line rolls 32, 33 and the receiving rolls 37, 38.
  • the blade 104 can be driven and rotated in synchronization.
  • the motor drivers 113 and 114 are connected to the motors 111 and 112, and the motor drivers 113 and 114 are connected to the control device 115.
  • the first motor 111 is equipped with a rotary encoder 116 that detects its rotational position, and the detection result is input to the control device 115. Further, a rotary encoder 117 that detects the rotational position of the slotter head 103 is mounted, and the detection result is input to the control device 115.
  • a position sensor 96 for detecting the position of the cardboard sheet S is provided, and the detection result is input to the control device 115.
  • the control device 115 is connected to an operation device 118 and can control the motors 111 and 112 based on an operation signal from the operation device 118.
  • the control device 115 determines the first position based on the rotational position of the first motor 111 detected by the rotary encoder 116, the rotational position of the slotter head 103 detected by the rotary encoder 117, and the conveyance position of the cardboard sheet S detected by the position sensor 96.
  • One motor 111 is controlled. That is, the control device 115 makes the rotation position of the slotter head 103 an appropriate position with respect to the conveyance position of the corrugated cardboard sheet S, that is, the slotter knife 108 is moved to an appropriate position (grooves 331a, 332a, 333a, 331b, 332b, 333b) can be processed so that the rotational speed of the first motor 111 is controlled. In this case, the control device 115 performs feedback control based on the rotational position of the first motor 111.
  • the control device 115 controls the rotation speed of the slotter head 103 to a speed different from the rotation speed of the lower blade 104.
  • the rotation speed of the lower blade 104 is the conveyance speed of the cardboard sheet S.
  • the control device 115 changes the rotation speed of the slotter head 103 to be higher or lower than the rotation speed of the lower blade 104 by the first motor 111 according to the conveyance position of the cardboard sheet S. That is, the control device 115 changes the rotation speed of the slotter head 103 to be higher than the rotation speed of the lower blade 104 by the first motor 111 when the slotter head 103 is at a processing position where the cardboard sheet S is grooved.
  • the rotation speed of the slotter head 103 is changed to be lower than the rotation speed of the lower blade 104 by the first motor 111.
  • the control device 115 causes the rotation speed of the slotter head 103 at the conveyance position of the cardboard sheet S to be lower than the rotation speed of the slotter head 103 at the grooving position of the cardboard sheet S by the first motor 111. change. That is, when the slotter head 103 performs grooving of the cardboard sheet S with respect to the conveying speed of the cardboard sheet S by the lower blade 104, the slotter head 103 performs grooving of the cardboard sheet S. When transporting without changing, change to the low speed side.
  • the peripheral speed (rotational speed) of the lower blade 104 that is, the conveying speed of the cardboard sheet S is V
  • the peripheral speed (rotational speed) V11 of the slotter head 103 is set to Change according to the transport position. That is, when the slotter head 103 processes the grooves 331a (332a, 333a) of the corrugated cardboard sheet S (regions A1, A3), the peripheral speed of the slotter head 103 is set to the peripheral speed of the lower blade 104 (conveying speed of the corrugated cardboard sheet S) V.
  • the slotter head 103 When the slotter head 103 is transported without processing the grooves 331a (332a, 333a) of the corrugated cardboard sheet S (region A2), the slotter head 103 is set to have a peripheral speed of the lower blade 104 (corrugated cardboard sheet). S transport speed).
  • the slotter head 103 is accelerated to a predetermined speed in the first half areas A11 and A31, and the slotter head 103 is decelerated to the peripheral speed of the lower blade 104 in the second half areas A12 and A32. .
  • the slotter head 103 is decelerated to a predetermined speed
  • the slotter head 103 is accelerated to the peripheral speed of the lower blade 104.
  • the slotter head 103 that is rotatably supported and has the slotter knife 108 provided on a part of the outer periphery thereof, the first motor 111 that can drive and rotate the slotter head 103, and A lower blade 104 that is rotatably supported below the slotter head 103 and can transport the corrugated cardboard sheet S, a second motor 112 that can drive and rotate the lower blade 104, and a first motor 111 that controls the rotation speed of the slotter head 103.
  • a control device 115 that can be controlled at a speed different from the rotational speed of the lower blade 104 is provided.
  • the slotter head 103 rotates at a high speed or a low speed according to the grooving length or box depth in a predetermined region, and can be easily processed into a desired shape while conveying the cardboard sheet S. There is no need to provide a separate conveying roller or the like, and processing according to the cardboard sheet S sheet can be performed.
  • the control device 115 changes the rotation speed of the slotter head 103 to be higher or lower than the rotation speed of the lower blade 104 by the first motor 111 according to the conveyance position of the cardboard sheet S. ing. That is, the control device 115 changes the rotation speed of the slotter head 103 to be higher than the rotation speed of the lower blade 104 when the slotter head 103 is in a machining area where the cardboard sheet S is grooved. When the sheet S is in a conveyance area where grooving is not performed, the rotation speed of the slotter head 103 is changed to be lower than the rotation speed of the lower blade 104.
  • the slotter head 103 rotates at a low speed when grooving the corrugated cardboard sheet S, and rotates at a low speed when the corrugated cardboard sheet S is not grooved, regardless of the grooving length or the box depth.
  • the cardboard sheet S can be easily processed into a desired shape while appropriately transporting the cardboard sheet S without increasing the diameter of the slotter head 103 and the circumferential length of the slotter knife 108.
  • the two slotter heads 35 and 36 and the two lower blades 39 and 40 are provided, and when the slotter heads 35 and 36 are in the processing region where the corrugated cardboard sheet S is grooved, the periphery thereof is arranged.
  • the peripheral speed is the peripheral speed of the lower blades 39 and 40 (the conveyance speed of the corrugated cardboard sheet S)
  • the slotter heads 35 and 36 are in the conveyance area where the corrugated cardboard sheet S is not grooved
  • the peripheral speed is Although the speed is lower than the peripheral speed of 40 (the conveying speed of the cardboard sheet S), the present invention is not limited to this method. That is, as in the second embodiment, when the slotter heads 35 and 36 are in the processing region where the cardboard sheet S is grooved, the peripheral speed is higher than the peripheral speed of the lower blade 104 (the conveyance speed of the cardboard sheet S). It is good.
  • the box making machine is configured by the paper feeding unit 11, the printing unit 21, the paper discharge unit 31, the die cutting unit 41, the folding unit 51, and the counter ejector unit 61. If the hand holes 341 and 342 are unnecessary, the die cut portion 41 may be omitted.

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Abstract

La simplification de l'équipement est permise dans la machine à rainurer, le procédé de rainurage de feuilles et le dispositif de formation de cartons selon l'invention par le biais de la fourniture de première et seconde têtes de machine à rainurer (35, 36) supportées de façon rotative et dotées de couteaux de machine à rainurer (80, 83) sur une partie de la circonférence externe, de premier et deuxième moteurs (85, 86) permettant d'entraîner et de faire tourner les première et seconde têtes de machine à rainurer (35, 36), de lames inférieures (39, 40) permettant de transporter une feuille ondulée (S) supportée de façon rotative sous les première et seconde têtes de machine à rainurer (35, 36), d'un troisième moteur (87) permettant d'entraîner et de faire tourner les lames inférieures (39, 40) et d'un dispositif de commande (91) permettant de commander, par le biais des premier et deuxième moteurs (85, 86), la vitesse de rotation des première et seconde têtes de machine à rainurer (35, 36) à une vitesse différente de la vitesse de rotation des lames inférieures (39, 40).
PCT/JP2013/052736 2012-02-20 2013-02-06 Machine à rainurer, procédé de rainurage de feuilles et dispositif de formation de cartons WO2013125349A1 (fr)

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JP2012-034510 2012-02-20
JP2012034510A JP2013169687A (ja) 2012-02-20 2012-02-20 スロッタ装置及びシートの溝切り加工方法と製函機

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CN108430753A (zh) * 2015-12-24 2018-08-21 三菱重工机械系统株式会社 开槽装置及开槽机定位方法、制盒机、瓦楞纸板
CN112672865A (zh) * 2018-09-14 2021-04-16 三菱重工机械系统株式会社 开槽装置及制盒机

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JP6228942B2 (ja) * 2015-01-14 2017-11-08 三菱重工印刷紙工機械株式会社 スロッタヘッド、スロッタ装置、製函機
JP6529778B2 (ja) * 2015-02-17 2019-06-12 三菱重工機械システム株式会社 スロッタ装置及びシートの溝切り加工方法、製函機
JP7565581B2 (ja) 2020-09-25 2024-10-11 株式会社Isowa 段ボールシート製函機

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JPH05124135A (ja) * 1991-11-01 1993-05-21 Isowa Ind Co 段ボールシート加工装置
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CN108430753A (zh) * 2015-12-24 2018-08-21 三菱重工机械系统株式会社 开槽装置及开槽机定位方法、制盒机、瓦楞纸板
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CN112672865A (zh) * 2018-09-14 2021-04-16 三菱重工机械系统株式会社 开槽装置及制盒机
CN112672865B (zh) * 2018-09-14 2022-09-27 三菱重工机械系统株式会社 开槽装置及制盒机

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