JP4876996B2 - Printer device - Google Patents

Description

  The present invention relates to a composite processing type printer apparatus provided with a printer unit and a cutting processing unit, and more particularly to a printer device that improves processing speed.

  2. Description of the Related Art Printer devices that perform a cutting process that prints on a rolled sheet and cuts out to an arbitrary shape, and printer apparatuses that perform a printing process, a laminating process, and a cutting process are widely known.

  The printer device described in Patent Document 1 has a built-in word processor unit, a printer head disposed upstream of the sheet supply, and a cutting head disposed downstream. For example, when creating a label, an input unit is used. After inputting desired characters and figures and printing these characters on a sheet by a printer head, the characters are cut out as labels having rectangular outlines with different dimensions by a cutting head.

  In the printer device described in Patent Document 2, a printer unit, a laminating unit, and a cutting unit are sequentially arranged from the upstream side of the sheet conveying path, and a recess is provided in the conveying path between the laminating unit and the cutting unit. Yes, in the reverse feed process of the cutting process, the sheet fed upstream by the transport roller of the cutting process part does not have to be rewound by allowing the sheet to enter the recess in the transport path. It is composed.

  The cutting device disclosed in Patent Document 3 includes, in order from the upstream side of the sheet conveyance path, a printer unit, a cutting unit that cuts the sheet in the width direction, a sheet guide that is controlled to be switched between the sheet conveyance path and the retracted position, and cutting. And a processing unit. The sheet guide guides the path of the sheet sent in the reverse direction (upstream direction) in the cutting process step to the outside of the sheet conveyance path.

When the sheet printed on the sheet conveyance path and printed by the printer unit is separated from the subsequent portion by the cutting means and conveyed to the cutting processing unit, the sheet guide moves on the sheet conveyance path, and the sheet to be cut The upstream portion hits the sheet guide and is guided out of the sheet conveyance path. In this way, the sheet is cut in one set of printing units, and the sheet is prevented from returning to the upstream conveying path in the cutting process, thereby preventing sheet jamming (jamming).
Japanese Patent Laid-Open No. 11-165443 Japanese Patent Laid-Open No. 11-221792 JP 2003-11095 A (Claim 2)

  In the case of a printer apparatus that performs printing, laminating processing, and cutting processing using a sheet roll, in the configuration of Patent Document 1 in which a sheet is not cut into a single unit until one cycle of label production process is completed, one label production is completed. Until then, the next operation cycle cannot be started and label creation takes time.

  The printer device described in Patent Document 2 is provided with a concave portion that serves as a sheet pool in the conveyance path between the laminating unit and the cutting unit, and it is not necessary to drive all the sheet conveyance mechanisms in both the forward and reverse directions during the cutting process. Instead, cutting is performed by moving the sheet only in the cutting processing unit. Accordingly, the printing and laminating process and the cutting process are performed in parallel, that is, the next label printing is started and the sheet is sent to the cutting processing unit side while the cutting process is being performed on the first print portion. Although it is not impossible to configure the control means, the sheet is bent when the sheet reversed from the cutting processing unit during the cutting process and the sheet sent from the upstream laminating unit are folded in the recess. The print sheet length is determined by the volume of the recess. In addition, disposing a recess having a sufficient capacity also hinders downsizing.

  The cutting device described in Patent Document 3 cuts a printed portion of a sheet printed by a printer unit by a cutting means, and sends the cut portion to the cutting processing unit to perform cutting while moving back and forth. The sheet guide appears on the conveyance path upstream of the section, and when the sheet is moved in the reverse direction, the traveling direction is changed by the sheet guide so that the sheet guides out of the upstream conveyance path. Is preventing. Therefore, since the sheet guide blocks the conveyance path during the cutting process, the subsequent sheet cannot be sent from the upstream to the downstream, and it is impossible to perform the cutting process and the printing for the subsequent sheet in parallel.

  Thus, in the conventional configuration, there is a problem that there is a limit to the length of one label that can be created, and it is difficult to enter the next processing cycle until one cycle is completed, and it takes time to create a label. is there. Thus, there is a technical problem to be solved in order to relax the limitation on the label length that can be created and to increase the processing time, and the present invention aims to solve the above problem.

The present invention is to propose in order to achieve the above object, a printer apparatus for performing a cutting process in addition to printing or printing and laminating process on printing sheet wound into a roll for printing A first conveyance path for sending sheets to the printer unit, or the printer unit and the laminating unit, a cutting processing unit, a second conveyance path disposed below the first conveyance path, and a print arranged and disposed in the first conveyance path For printing that has a path switching device that switches the path of the printing sheet between the first conveyance path and the cutting processing unit, and a cutting mechanism that cuts the printing sheet, and that has been subjected to printing or printing and laminating processing on the first conveyance path The processed portion of the sheet is sent to the cutting processing unit through the path switching device, and is cut by the cutting mechanism either before or after feeding to the cutting processing unit. In the printer device that performs the cutting processing computing unit and the second conveyance path while moving, the printed sheet after transfer and cut to the cutting unit from the first conveyance path, to return the path switching device to its initial position The present invention provides a printer apparatus comprising control means for simultaneously executing a cutting process in the second conveyance path and a printing process in the first conveyance path .

  In the printer device of the present invention, the sheet conveyance path in which the printer unit, the laminating unit, and the like are arranged, and the conveyance path for performing the cutting process are set as separate separate paths, and printing and laminating processing are performed in the first conveyance path, By transferring and cutting the sheet from the first conveyance path to the cutting processing unit by the path switching device, and then cutting the cut sheet using the second conveyance path below the first conveyance path. The length of one sheet to be created is not limited by the distance between the printer unit and the cutting processing unit, and a long label can be created. Further, by separating the conveyance path, the width of the apparatus can be reduced and the size can be reduced. In addition, after transferring and cutting the printed sheet from the first conveyance path to the cutting processing unit, the processing is performed by simultaneously executing the cutting process in the second conveyance path and the printing process in the first conveyance path. Speed is significantly improved.

This invention provides a printer apparatus for performing a cutting process in addition to printing or printing and laminating process on printing sheet wound into a roll, the printer unit for printing sheet, or a printer unit and a laminating unit, etc. A first conveying path, a cutting processing unit, a second conveying path disposed below the first conveying path, and a path of the printing sheet disposed in the first conveying path along the first conveying path and the cutting processing unit. And a cutting mechanism for cutting the printing sheet, and the processed portion of the printing sheet that has been printed or printed and laminated in the first transport path is cut through the path switching device. And cut by the cutting mechanism either before or after feeding to the cutting processing unit, and move on the cutting processing unit and the second conveyance path. In the printer device that performs the cutting process, the printed sheet after transfer and cut to the cutting unit from the first conveyance path, to return the path switching apparatus to the initial position, and the cutting process in the second conveying path, first By providing means for simultaneously executing processing such as printing on the conveyance path, the object of providing a printer device capable of producing a long label and having a high processing time is achieved.

  FIG. 1 shows a printer device 1 that performs two-color printing, surface lamination processing and cutting processing on an adhesive sheet with release paper, the first printer unit 2 on the left side, the second printer unit 3 on the upper left side, and the upper surface Laminate processing part 4 is arranged on the right, and these three mechanism parts 2, 3, and 4 are hinged to the frame, respectively, and as shown in FIG. Can be exposed. In addition to the above configuration, each mechanism part 2, 3, 4 is hinged to the frame on one side in the width direction of the adhesive sheet with release paper, and the inner surface side is exposed by pulling up one end and inverting it. You may make it make it.

  FIG. 3 is a front view of the printer apparatus 1 with the front cover removed, and FIG. 4 is a simplified front view in which portions other than the main parts are not displayed. As shown in FIG. 4, the lower side of the center portion of the frame 5 is a sheet roll storage chamber 6, and the adhesive sheet roll SR with release paper attached to the sheet roll support shaft 7 is supported in the air. A first transport path 8 is arranged from the left to the top of the sheet roll storage chamber 6, and this first transport path 8 is a semicircular shape that reverses rightward from the left to the top of the sheet roll storage chamber 6. The reversing curved surface portion 8a and the non-reversing curved surface portion 8b, which is a flat surface extending horizontally from the upper end of the reversing curved surface portion 8a toward the right side of the frame 5, are arranged below the first transport path 8 in the first transport. A second transport path 71 is arranged in parallel with the path 8

  The first conveyance path 8 has the apex of the motor-driven conveyance roller 9 and the driven guide roller 10 exposed from the inner surface side through slits formed at important points, and is counted from the entrance on the sheet roll housing chamber 6 side. The second roller is a grid roller 11 in which the surface of a hard material such as metal or ceramic is subjected to anti-slip processing, and in the printing process described later, the feeding amount of the adhesive sheet with release paper is precisely controlled by the grid roller 11. It is configured.

  A pinch roller 12 is elastically in contact with the motor-driven transport roller 9, and the pinch roller 12 facing the grid roller 11 is supported by a cam-driven link (not shown), and other than the printing process. In this feeding process, it is separated from the grid roller 11 and is controlled so as to elastically contact the grid roller 11 only by the printing process by the control unit. That is, the conveyance roller 9 and the pinch roller 12 sandwich the release sheet-attached adhesive sheet S and feed it in the forward direction (downstream from the release sheet-attached adhesive sheet roll SR). During printing, the conveyance roller 9 and the grid roller 11 and the pinch roller 12 And the adhesive sheet S with release paper is fed in the opposite direction across the adhesive sheet S with release paper.

  A first printer unit 2 arranged in a vertical posture facing the left end of the inverted curved surface portion 8a of the first transport path 8, and a second printer unit 3 arranged in a horizontal posture facing the upper end of the inverted curved surface portion 8a. Have the same configuration, and a planar thermal head 13 is attached to a printer unit housing 13 which is a cradle for the ink ribbon roll IR. In the printing process, the thermal head 14 is illustrated by a cam mechanism (not shown). 4 moves from the floating position to the lowered position in contact with the guide roller 10 to perform thermal transfer printing on the surface of the pressure-sensitive adhesive sheet S with release paper. For example, two-color printing of black and red can be performed by attaching a black ink ribbon to the first printer unit 2 and attaching a red ink ribbon to the second printer unit 3.

  By disposing the thermal head 14 so as to face the inverted curved surface portion 8a of the first transport path 8, the lateral width of the apparatus can be suppressed as compared with a structure in which a plurality of thermal heads are disposed on the straight transport path, and a platen roller or a rib, etc. Therefore, it is not necessary to locally raise the sheet, so that satisfactory print quality can be obtained with the planar thermal head instead of the end face type thermal head, and there is no possibility of causing tunneling of the sheet floating from the release paper.

  The first printer unit 2 and the second printer unit 3 have a shaft hole 15 at the upstream end engaged with a shaft 16 provided in the main body frame 5, and are latched with a hook shape and a wedge shape as shown in FIG. 17 is fixed to the frame 5 in a closed state. By operating the latch 17 biased to the lock position by the spring in the unlocking direction, the first printer unit 2 and the second printer unit 3 can be opened by rotating about the shaft 16 as a fulcrum. The latch 17 is automatically engaged and fixed to a locking portion (not shown) of the frame 5.

  As shown in FIG. 4, a pair of front and rear open bearings 18 are formed on the left and right side surfaces of the printer housing 13, and the core of the ink ribbon roll IR is received by the open bearings. Gears are arranged in the vicinity of each of the pair of open bearings 18, the upstream side gear (the side near the sheet roll storage chamber) is the take-up gear 19, and the downstream side gear is the supply gear 20. 21 is connected to a gear G provided at the end of the core of the ink ribbon roll IR.

  A pair of front and rear intermediate gears 21 are attached to the tips of swing levers 22 coaxial with the shafts of the take-up gear 19 and the supply gear 20, respectively, and are stretched over the other ends of the two front and rear swing levers 22. Due to the spring force of the coil spring 23, the intermediate gear 21 is in elastic contact with the gear G at the end of the ink ribbon core. A torque limiter type brake (not shown) is connected to the shaft of the supply gear 20, and an appropriate back tension is applied to the ink ribbon when winding the ink ribbon.

  A link portion 22a extending in a direction approaching each other is formed at an intermediate portion between the two front and rear swing levers 22, and is a link attached to the side surface of the printer unit housing 13 by an axis A separately from the swing lever 22. A pin at the tip of the lever 24 engages with an elongated hole at the tip of the link portion 22a of the two swing levers 22 to constitute an interlocking link mechanism for the two swing levers 22.

  As shown in FIG. 4, when the first printer unit 2 and the second printer unit 3 are closed, the intermediate gear 21 is urged outward by the spring force of the tension coil spring 23, and the end of the core of the ink ribbon IR. The rear end of the link lever 24 is in contact with a first stopper pin 25 provided on the main body frame 5 and is prevented from rotating counterclockwise. That is, the intermediate gear 21 cannot move away from the gear G of the ink ribbon roll IR, and power is reliably transmitted from the take-up gear 19.

  On the other hand, in the state where the first printer unit 2 and the second printer unit 3 are rotated about the axis as shown in FIG. 5 and the surface on the thermal head side is exposed, the rear end of the link lever 24 is provided on the frame 5. The two swing levers 22 are rotated counterclockwise by hitting the two stopper pins 26, and the link lever 24 is rotated in the direction in which the intermediate gear 21 approaches against the spring force of the tension coil spring 23. As a result, the intermediate gear 21 is separated from the gear G of the ink ribbon roll IR, and the ink ribbon roll IR can be attached and detached.

  In the above configuration, the first printer unit 2 and the second printer unit 3 can be rotated and reversed to easily remove and load the ink ribbon roll IR from above, so it is necessary to use a cartridge type ink ribbon. There is an advantage that the cost of consumables can be reduced as compared with the cartridge replacement type.

  The laminating section 4 disposed in the upper right part of the main body is a unit that presses the laminating sheet L onto the surface of the adhesive sheet S with release paper printed by the printer units 2 and 3 using the laminate sheet roll LR with release paper. In addition, instead of the thermal head 14 of the printer units 2 and 3, a pressure roller 27 that moves up and down by a cam mechanism is provided, and the rotation direction when opening and closing is opposite to that of the first printer unit 2 and the second printer unit 3. Also, since the winding diameter of the laminate sheet roll LR with release paper is large, the number of intermediate gears is larger than that of the intermediate gear 21 of the printer units 2 and 3, and the basic configuration is the same as that of the first printer unit 2 and the second printer unit 3. Due to the same structure, the tension coil spring 23 'and the link mechanism similar to those of the printer units 2 and 3, the intermediate gear 21' is separated from the core gear G of the laminate sheet roll LR with release paper when opened, and the intermediate gear when closed. 21 'elastically contacts the gear G of the laminate sheet roll LR with release paper.

  A cutter blade 28 for cutting the laminate sheet L is disposed slightly downstream of the guide roller 10 of the first conveyance path 8 facing the pressure roller 27 of the laminating unit 4, and the cutter blade is used during the laminating process. 28 is driven obliquely downward toward the upstream direction of the first conveying path 8 to cut the end portion of the laminate sheet L attached to the surface of the adhesive sheet S with release paper.

  A path switching flap 51 is provided immediately after the cutter blade arrangement position of the first conveyance path 8, and a cutting processing unit 61 is disposed on the lower right side of the path switching flap 51. Further, the right end of the second conveyance path 71 disposed below the first conveyance path 8 faces the path switching flap 51.

  The path switching flap 51 switches the path of the release sheet-attached adhesive sheet S sent on the first transport path 8 to the end direction of the first transport path 8 or the cutting processing unit 61 direction. 4), the horizontal position in FIGS. 4 and 8 and the position rotated clockwise by a certain angle are switched.

  The route switching flap 51 has three layers of upper, middle, and lower seat passages 53, 54, and 55 formed therein. The upper seat passage 53 and the lower seat passage 55 are horizontal, and the middle seat passage 54 is inclined downwardly to the right. The middle sheet path 54 and the lower sheet path 55 are respectively expanded on the side that becomes the entrance of the adhesive sheet S with release paper, that is, the left side in the middle sheet path 54 and the right side in the lower sheet path 55. Thus, the adhesive sheet S with release paper can be reliably introduced.

  Immediately after the path switching flap 51, a motor-driven ridge 56 is arranged, and when the printed adhesive sheet with release paper S is sent to the cutting processing section through the middle sheet path 54 of the path switching flap 51, The pressure-sensitive adhesive sheet S with release paper is cut at the end of the printing range of the pressure-sensitive adhesive sheet S with release paper.

  The cutting processing unit 61 has the same configuration as a normal cutting plotter and includes a cutting head 62 that is controlled to move in the width direction of the sheet. Based on the cutting data, the cutting processing unit 61 removes the adhesive sheet S with release paper by a feeding mechanism by the grid roller 63. While moving in both the front and rear directions, the cutting head 62 is driven in the sheet width direction to cut only the pressure-sensitive adhesive sheet of the pressure-sensitive adhesive sheet S with release paper according to the cutting data.

  Next, a series of operations of the printer apparatus 1 having the above configuration will be described. First, as shown in FIG. 4, when the tip of the release sheet adhesive sheet S of the release sheet roll SR is inserted into the entrance of the first transport path 8, the first sheet sensor 29 disposed at the entrance detects the insertion of the sheet. Then, the motor of the feeding mechanism is activated, the sheet is sandwiched by the conveying roller 9 and the pinch roller 12, and is fed upward along the first conveying path 8. At this time, the pinch roller 12 facing the grid roller 11 that is the second conveying roller from the entrance is floating, and the sheet is fed by the conveying roller 9 excluding the grid roller 11.

  When the leading edge of the adhesive sheet S with release paper reaches the position of the second sheet sensor 30 disposed immediately before the pressure roller 27 of the laminating unit 4, the feeding is stopped by the detection signal of the second sheet sensor 30. At the same time, the pinch roller 12 facing the grid roller 11 is brought into elastic contact with the grid roller 11 to sandwich the adhesive sheet S with release paper.

  Since the conveyance path length from the position of the second sheet sensor 30 to the position of the thermal head 14 of the second printer unit 3 is known, the sheet is sent downstream or wound upstream according to the sheet length data to be printed. When the printing start point on the sheet is located immediately below the thermal head 14 of the second printer unit 3, the printing process is started while the adhesive sheet S with release paper is rewound.

  The first printer unit 2 with the black ink ribbon and the second printer unit 3 with the red ink ribbon each perform printing by bringing the thermal head 14 into pressure contact with the sheet surface under the control of the print control unit based on the print data. .

  As described above, the sheet is conveyed along a guide (not shown) in the sheet width direction before the sheet is sandwiched between the grid roller 11 and the pinch roller 12, thereby ensuring the straightness of the sheet. Also, when printing while rewinding the sheet, the leading edge of the sheet is not constrained. Therefore, compared to the configuration in which the sheet is printed while being pulled out from the sheet roll, the vertical skew caused by the accumulation of skew and directional displacement of the sheet is reduced. The possibility of occurrence and sheet clogging is greatly reduced.

  When printing is finished, the pinch roller 12 that is elastically in contact with the grid roller 11 is lifted, and the adhesive sheet S with release paper is sent downstream, and the tip of the adhesive sheet S with release paper is detected again by the second sheet sensor 30. From here, the leading edge of the adhesive sheet S with release paper is sent to the end of the conveyance roller 9 next to the second sheet sensor 30.

  Then, as shown in FIG. 6, the pressure roller 27 of the laminating section 4 is lowered, and the pressure-sensitive adhesive sheet S with release paper is moved downstream until the end of the lamination range of the pressure-sensitive adhesive sheet S with release paper reaches the pressure roller position. The laminate sheet is pressure-bonded to the surface of the pressure-sensitive adhesive sheet S with the release paper that has been printed. The leading end portion of the release sheet-attached pressure-sensitive adhesive sheet S passes through the horizontal upper sheet path 53 of the path switching flap 51 and is sent out from the right end of the first transport path 8.

  After completion of the laminating process, the pressure roller 27 of the laminating unit 4 is raised, and as shown in FIG. 7, the cutter blade 28 is driven obliquely downward toward the upstream side of the first conveying path 8, and the pressure-sensitive adhesive sheet with release paper S The end portion of the laminate sheet L attached to the surface of the sheet is cut.

  Next, reverse the sheet feeding direction, as shown in FIG. 8, rewind until the leading edge of the adhesive sheet S with release paper passes the path switching flap 51, rotate the path switching flap 51 in the clockwise direction, The entrance on the upstream side of the sheet passage 54 is lifted and opposed to the first conveyance path 8. Then, the feeding direction of the feeding mechanism is reversed again, and the adhesive sheet with release paper S is sent downstream.

  As shown in FIG. 9, the adhesive sheet S with release paper passes through the middle sheet passage 54 of the path switching flap 51 and moves obliquely downward to the right, and is sent to the cutting processing unit 61. When the end of the print range (including the margin) of the sheet based on the print data reaches the position of 鋏 56, the sheet feeding is stopped and the pinch roller 12 facing the grid roller 63 of the cutting processing unit 61 is lowered. Then, the pressure-sensitive adhesive sheet S with release paper is sandwiched, and the pressure sensitive adhesive 56 is driven to cut the pressure-sensitive adhesive sheet S with release paper.

  Subsequently, the sheet feeding direction is reversed, and as shown in FIG. 10, the sheet switching adhesive sheet S with release paper is rewound until the leading edge passes the path switching flap 51, and the path switching flap 51 is rotated counterclockwise. Return to the initial position. At this time, the rear end of the adhesive sheet S with release paper that has been cut and remained on the cutting processing unit 61 faces the entrance of the lower sheet passage 55 of the path switching flap 51, and as shown in FIG. The part 61 performs the cutting operation by reciprocating the cutting head 62 in the width direction of the sheet while switching the feeding of the adhesive sheet S with release paper in both forward and reverse directions, and the adhesive sheet S with release paper is directly under the first conveying path 8 Enters the second conveyance path 71 arranged in the area.

  When the cutting process is started on the printed adhesive sheet with release paper S, a new printing process is started on the first conveying path 8 side, and the above-described processes are executed from the beginning. In this way, the conveyance path is divided into the first conveyance path 8 and the second conveyance path 71, and each sheet can be independently fed, and the control means is used to perform cutting and the next sheet printing in parallel. By configuring, the overall processing speed is significantly improved.

  When the cutting process is completed, the pinch roller 12 that is elastically in contact with the grid roller 63 of the cutting processing unit 61 is raised, and the adhesive sheet S with release paper that has been subjected to the cutting process as shown in FIG. It is discharged outside.

  The present invention is not limited to the above-described embodiment, and the name of the present invention is a printer device. However, for example, a laminating / cutting device in which the printer unit is removed from the first conveyance path side may be used. In addition, the arrangement position of the scissors as the sheet cutting mechanism may be upstream of the path switching flap or downstream of the cutting processing unit. Furthermore, the cutting processing unit may also serve as a cutting mechanism. In addition, various modifications are possible within the technical scope of the present invention, such as extending the length of the path switching flap to make the path switching flap itself the second transport path, and the present invention is a modification of those. It goes without saying.

1 is a perspective view of a printer apparatus according to an embodiment of the present invention. FIG. 3 is a perspective view of the printer device in a state where a printer unit, a laminating unit, and a front door are opened. FIG. 3 is a front view of the printer device with the front cover removed. The front view which simplified and displayed only the main mechanism part. The front view of the state which open | released the printer part and the lamination process part. The front view which shows a lamination process process. FIG. 7 is a front view showing a laminate sheet cutting step subsequent to FIG. 6. FIG. 8 is a front view showing a rewinding process following FIG. FIG. 9 is a front view showing a feeding process to the cutting processing section following FIG. 8. FIG. 10 is a front view showing a sheet cutting process following FIG. 9. FIG. 11 is a front view showing a cutting process step following FIG. FIG. 12 is a front view showing a cutting sheet discharging process subsequent to FIG.

Explanation of symbols

1 Printer device
2 First printer section
3 Second printer section
4 Laminating section
5 frames
6 Sheet roll storage chamber
8 First transport path
9 Transport roller
10 Guide roller
11 Grid roller
12 Pinch roller
13 Printer housing
14 Thermal head
18 Open bearing
19 Winding gear
20 Supply gear
21 Intermediate gear
22 Swing lever
22a Link section
23 Tension coil spring
24 Link lever
25 First stopper pin
26 Second stopper pin
27 Crimp roller
28 Cutter blade
29 First sheet sensor
30 Second sheet sensor
51 Route switching flap
53 Upper seat passage
54 Middle seat passage
55 Lower seat passage
56 鋏
61 Cutting processing section
62 Cutting head
63 Grid roller
71 Second transport path

Claims (1)

A printer device that performs a cutting process in addition to printing or a printing and laminating process on a printing sheet wound in a roll,
A first conveying path for sending a printing sheet to the printer unit or the printer unit and the laminating unit, a cutting processing unit, a second conveying path disposed below the first conveying path, and a first conveying path. A path switching device that switches the path of the printing sheet between the first conveyance path and the cutting processing unit, and a cutting mechanism that cuts the printing sheet,
The processed portion of the printing sheet that has been printed or printed and laminated in the first conveyance path is sent to the cutting processing section through the path switching device, and the cutting is performed either before or after feeding to the cutting processing section. In the printer device that cuts by the mechanism and executes the cutting process while moving on the cutting processing unit and the second transport path,
After transferring and cutting the printed sheet from the first conveyance path to the cutting processing unit, the path switching device is returned to the initial position, and the cutting process in the second conveyance path and the printing process in the first conveyance path are performed simultaneously. A printer apparatus comprising control means for executing.

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