CN105620056A - Printing and cutting device - Google Patents

Abstract

The invention provides a printing and cutting device which allows a cutting end or an ink-jetting end to move stably in the main scanning direction. The printing and cutting device is provided with a first connection device (51) and a second connection device (52), wherein the ink-jetting end (40) and a drive sliding rack (30) are connected into a freely detachable structure by the first connection device (51), and the cutting end (70) and the drive sliding rack (30) are connected into a freely detachable structure by the second connection device (52). By means of the second connection device (52), the force of connection of the cutting end (70) and the drive sliding rack (30) is set to be larger than that needed for enabling the cutting end (70) to move in the main scanning direction when a cutter (72) is used for cutting media (5).

Description

Print and cutter sweep

Technical field

The present invention relates to printing and cutter sweep.

Background technology

All the time, recording such as Japanese Patent Application Laid-Open JP 2011-79201 publication, it is known to possessing can along the printing of the ink gun that main scanning direction moves and the cutting head that can move along main scanning direction and cutter sweep (PrintandCutdevice). According to this device, it is possible to same medium is printed continuously and cuts.

Above-mentioned printing and cutter sweep possess the driving balladeur train moved along main scanning direction. When printing, ink gun is linked to driving balladeur train, and ink gun moves along main scanning direction by driving balladeur train. When cutting, cutting head is linked to driving balladeur train, and cutting head moves along main scanning direction by driving balladeur train. By such structure, it is not necessary to be respectively provided with and make the unit that ink gun moves along main scanning direction and the unit making cutting head move along main scanning direction, it is possible to cut down components number. And, it is possible to make printing and cutter sweep cheapization.

Summary of the invention

When printing, ink gun and driving balladeur train move back and forth along main scanning direction. When cutting, cutting head and driving balladeur train move back and forth along main scanning direction. In order to make cutting head or ink gun stably move along main scanning direction, it is desirable to constitute cutting head and the hookup mechanism etc. driving balladeur train to link.

It is an object of the invention to provide a kind of printing that cutting head or ink gun can be made stably to move along main scanning direction and cutter sweep.

Printing and the cutter sweep of the present invention possess: leading axle, extend along main scanning direction; Handling device, along the direction transporting medium vertical with described main scanning direction; Ink gun, engages with described leading axle in the way of moving freely along described main scanning direction, has the nozzle to described medium ejection ink; Cutting head, engages with described leading axle in the way of moving freely along described main scanning direction, has the sickle that described medium is cut; Drive balladeur train, move freely along described main scanning direction; Driving device, drives described driving balladeur train along described main scanning direction; First hookup mechanism, connects to dismounting freely by described ink gun and described driving balladeur train; And second hookup mechanism, described cutting head and described driving balladeur train are connected to dismounting freely, and described second hookup mechanism makes the binding strength that described cutting head and described driving balladeur train link be set greater than when described medium is cut by described sickle and make described cutting head move required power along described main scanning direction.

According to a currently preferred mode, described second hookup mechanism makes the binding strength that described cutting head and described driving balladeur train link be set as to make described cutting head move more than 1.5 times of required power along described main scanning direction when described medium is cut by described sickle.

According to currently preferred another way, described second hookup mechanism makes the binding strength that described cutting head and described driving balladeur train link be set as to make described cutting head move more than 2 times of required power along described main scanning direction when described medium is cut by described sickle.

According to currently preferred another way, described second hookup mechanism comprises the Magnet being located at described cutting head and/or described driving balladeur train.

According to currently preferred another way, described sickle is metal system, and described sickle and described Magnet separate be positioned at the outside of the scope of the impact of the magnetic force being subject to described Magnet by described sickle in the way of.

According to currently preferred another way, described second hookup mechanism comprises the permanent magnet being located at described cutting head and is located at the magnetic of described driving balladeur train.

According to currently preferred another way, described second hookup mechanism comprises the permanent magnet being located at described driving balladeur train and the magnetic being located at described cutting head.

Another printing of the present invention and cutter sweep possess: leading axle, extend along main scanning direction; Handling device, along the direction transporting medium vertical with described main scanning direction; Ink gun, engages with described leading axle in the way of moving freely along described main scanning direction, has the nozzle to described medium ejection ink; Cutting head, engages with described leading axle in the way of moving freely along described main scanning direction, has the sickle that described medium is cut; Driving device, drives described cutting head along described main scanning direction; And hookup mechanism, described cutting head and described ink gun are connected to dismounting freely, and described hookup mechanism makes the binding strength that described cutting head and described ink gun link be set greater than when described medium is cut by described sickle and make described cutting head move required power along described main scanning direction.

According to currently preferred another way, described hookup mechanism makes the binding strength that described cutting head and described ink gun link be set as to make described cutting head move more than 1.5 times of required power along described main scanning direction when described medium is cut by described sickle.

According to currently preferred another way, described hookup mechanism makes the binding strength that described cutting head and described ink gun link be set as to make described cutting head move more than 2 times of required power along described main scanning direction when described medium is cut by described sickle.

According to currently preferred another way, described hookup mechanism comprises the Magnet being located at described cutting head and/or described ink gun.

According to currently preferred another way, described sickle is metal system, and described sickle and described Magnet separate be positioned at the outside of the scope of the impact of the magnetic force being subject to described Magnet by described sickle in the way of.

According to currently preferred another way, described hookup mechanism comprises the permanent magnet being located at described cutting head and is located at the magnetic of described ink gun.

According to currently preferred another way, described hookup mechanism comprises the permanent magnet being located at described ink gun and is located at the magnetic of described cutting head.

Invention effect

According to the present invention, it is possible to provide a kind of printing that cutting head or ink gun can be made stably to move along main scanning direction and cutter sweep.

Accompanying drawing explanation

Fig. 1 is the axonometric chart of the printing of one embodiment of the present invention and cutter sweep.

Fig. 2 indicates that the top view of the internal structure of above-mentioned printing and cutter sweep.

The top view driving balladeur train and ink gun when Fig. 3 is to drive balladeur train to link with ink gun.

The front view driving balladeur train and ink gun when Fig. 4 is to drive balladeur train to link with ink gun.

The top view driving balladeur train and cutting head when Fig. 5 is to drive balladeur train to link with cutting head.

The front view driving balladeur train and cutting head when Fig. 6 is to drive balladeur train to link with cutting head.

Fig. 7 is an illustration for driving the link of balladeur train and ink gun and deviates from and drives the link of balladeur train and cutting head and the explanation figure deviated from.

Fig. 8 is the front view of the cutting head in the printing of another embodiment of the present invention and cutter sweep and ink gun.

Label declaration

1 prints and cutter sweep

5 records paper (medium)

20 leading axles

24 motor

26 rollers (Handling device)

30 drive balladeur train

40 ink guns

51 first hookup mechanisms

52 second hookup mechanisms

70 cutting heads

X sub scanning direction

Y main scanning direction

Detailed description of the invention

Hereinafter, with reference to accompanying drawing, embodiments of the present invention are described.

(the first embodiment)

The printing of the present embodiment shown in Fig. 1 and cutter sweep 1 are to possess ink gun 40 described later and cutting head 70 (with reference to Fig. 2) and record paper 5 device that prints and cut to the example as medium. It should be noted that in this manual, the cutting of medium includes carrying out situation about cutting throughout the whole thickness direction of medium, and this is self-evident, also includes the situation that a part for the thickness direction to medium is cut. The situation that sickle moves relative to medium with the state running through medium includes certainly, also includes the situation that sickle moves relative to medium with the state thrusting a part for medium. Label Y shown in figure represents main scanning direction, and label X represents the direction vertical with main scanning direction Y and sub scanning direction.

Print and cutter sweep 1 possesses: there is the apparatus main body 10 of the housing 10A extended along main scanning direction; The lower limb 11 that apparatus main body 10 is supported. Guidance panel 12 is configured on the right side of apparatus main body 10. Although diagram is omitted, but is configured with multiple display part and multiple operation button at guidance panel 12.

Opening and closing front shroud 15 freely is installed in the upside of apparatus main body 10. The outlet 13 discharging record paper 5 it is formed with in the bottom of main body 10. The guiding piece 14 record paper 5 obliquely downward forward discharged from outlet 13 guided it is provided with in the position of the front obliquely downward of outlet 13.

It should be noted that an above-mentioned structure only example. The printing of the present invention and the external structure of cutter sweep do not have any restriction.

Then, the internal structure of printing and cutter sweep 1 is described. As in figure 2 it is shown, be provided with in the inside of apparatus main body 10 along the main scanning direction Y leading axle 20 extended. The shape of leading axle 20 is not particularly limited. Such as, leading axle 20 can be cylindric, it is also possible to for prism-shaped. It should be noted that when observing printing and cutter sweep 1 from front, main scanning direction Y corresponds to left and right directions, sub scanning direction X corresponds to fore-and-aft direction. Therefore, below, main scanning direction Y is properly termed as left and right directions, sub scanning direction X is properly termed as fore-and-aft direction. Impressing flat board 25 it is configured with in the front of the central part of leading axle 20. Impressing flat board 25 is part record paper 5 supported when the cutting of the printing based on ink gun 40 and the record paper 5 based on cutting head 70. The printing of record paper 5 and cutting carry out on impressing flat board 25.

It is provided with driving pulley 21 in the right of impressing flat board 25, is provided with follow-up pulley 22 in the left of impressing flat board 25. Driving the band 23 being wound with ring-type on pulley 21 and follow-up pulley 22. It should be noted that in Fig. 4 etc., label 23a represents the upper portion with 23, and label 23b represents the lower portion with 23. As in figure 2 it is shown, pulley 21 is linked with motor 24 driving. When motor 24 is to when driving pulley 21 to be driven, band 23 is driving circulation between pulley 21 and follow-up pulley 22. At motor 24 so that control device 35 can be connected in the way of communicating. Motor 24 is positive and negative rotation motor freely. Control device 35 by motor 24 is controlled, control the movement of driving balladeur train 30 described later. Motor 24, drive pulley 21, follow-up pulley 22 and band 23 composition will the driving driving device that drives along main scanning direction of balladeur train 30. It should be noted that, in the present embodiment, driving pulley 21 is set in the right of impressing flat board 25, follow-up pulley 22 is set in the left of impressing flat board 25, but driving pulley 21 can also be set in the left of impressing flat board 25, follow-up pulley 22 is set in the right of impressing flat board 25.

Band 23 is provided with driving balladeur train 30. Balladeur train 30 is driven to be configured to move freely along main scanning direction. In the present embodiment, balladeur train 30 is driven to engage with leading axle 20 in the way of moving freely along leading axle 20. But, drive balladeur train 30 can not also engage with leading axle 20. In the present embodiment, balladeur train 30 is driven to move in left-right direction along with the circulation with 23. As it is shown on figure 3, at the right part fixed permanent magnet 31 driving balladeur train 30. At the left part fixed permanent magnet 32 driving balladeur train 30. Permanent magnet 31 and permanent magnet 32 move integratedly with driving balladeur train 30.

As in figure 2 it is shown, be each configured with the pair of rolls up and down 26 (it should be noted that the roller 26 on the upside of only illustrating in fig. 2) sent by record paper 5 along sub scanning direction X in the left part of impressing flat board 25 and right part. The roller 26 of either one in upper and lower pair of rolls 26 is the autonomous driving roller rotated, and the roller 26 of the opposing party is the pinch roll for clamping record paper 5 together with this driving roller. The action driving roller is controlled by controlling device 35. Above-mentioned roller 26 constitutes the Handling device along sub scanning direction X carrying record paper 5. It should be noted that the position that arranges of roller 26 is not defined to left part and the right part of impressing flat board 25, it is also possible to be other position.

Then, ink gun 40 is illustrated. Ink gun 40 is directed towards record paper 5 and sprays the head of ink. As it is shown on figure 3, ink gun 40 engages with leading axle 20 in the way of moving freely along main scanning direction.

As shown in Figure 4, ink gun 40 has: have multiple printheads 41 of the nozzle 43 of ejection ink; The print head carriage 42 that above-mentioned printhead 41 is supported. Print head carriage 42 engages with leading axle 20 in the way of moving in left-right direction freely. Printhead 41 sprays downward ink droplet from nozzle 43. Although diagram is omitted, but the print cartridge being filled with ink is installed at the rear portion of apparatus main body 10. Printhead 41 is connected with above-mentioned print cartridge via pipe (not shown) etc. Ink is supplied to printhead 41 from above-mentioned print cartridge. It should be noted that the spray action of ink gun 40 is controlled by controlling device 35.

At least opposed with permanent magnet 31 part 44 in ink gun 40 is made up of magnetic. At this, magnetic is the object being made up of magnetic material (magneticmaterial), is the object with the character being adsorbed in Magnet. In the present embodiment, above-mentioned part 44 is contained in print head carriage 42, and print head carriage 42 is made up of metals such as ferrum. By permanent magnet 31 and the above-mentioned part (hereinafter referred to as adsorption section) 44 that is made up of magnetic, constitute and ink gun 40 is connected to dismounting the first hookup mechanism 51 freely with driving balladeur train 30.

When permanent magnet 31 contacts with the adsorption section 44 of ink gun 40, adsorption section 44 is adsorbed by permanent magnet 31. As a result of which it is, drive balladeur train 30 and ink gun 40 to link. On the other hand, when ink gun 40 is fixed on apparatus main body 10, band 23 circulation, when to when driving balladeur train 30 to apply power to the left, permanent magnet 31 deviates from from the adsorption section 44 of ink gun 40. That is, after ink gun 40 is fixed on original position HP described later (with reference to Fig. 2), when driving balladeur train 30 to move to the left, the link of balladeur train 30 and ink gun 40 is driven to be released from.

Then, cutting head 70 is illustrated. Cutting head 70 is the head that record paper 5 is cut. As it is shown in figure 5, cutting head 70 engages with leading axle 20 in the way of moving freely along main scanning direction.

As shown in Figure 6, cutting head 70 possesses sickle 72 and the case 71 that sickle 72 is supported. Case 71 engages with leading axle 20 in the way of moving in left-right direction freely.

At least opposed with permanent magnet 32 part (hereinafter referred to as adsorption section) 74 in cutting head 70 is made up of magnetic. In the present embodiment, adsorption section 74 is contained in case 71, and case 71 is made up of metals such as ferrum. By permanent magnet 32 and the adsorption section 74 that is made up of magnetic, constitute and cutting head 70 is connected to dismounting the second hookup mechanism 52 freely with driving balladeur train 30.

When permanent magnet 32 contacts with the adsorption section 74 of cutting head 70, adsorption section 74 is adsorbed by permanent magnet 32. As a result of which it is, drive balladeur train 30 and cutting head 70 to link. On the other hand, when cutting head 70 is fixed, band 23 circulation, when to when driving balladeur train 30 to apply power to the right, permanent magnet 32 deviates from from the adsorption section 74 of cutting head 70. That is, cutting head 70 is after apparatus main body 10 is fixed at original position HC described later (with reference to Fig. 2) place, when driving balladeur train 30 to move to the right, drives the link of balladeur train 30 and cutting head 70 to be released from.

Then, the action of printing and cutter sweep 1 is described. As described above, print and cutter sweep 1 can carry out the printing based on ink gun 40 and the cutting based on cutting head 70.

When printing, cutting head 70 is from driving balladeur train 30 to separate, and HC (with reference to Fig. 2) place is standby in position. It should be noted that in the present embodiment, the left end portion in apparatus main body 10 is the original position of cutting head 70. As illustrated schematically in figure 7, it is provided with fixture structural unit 75 at cutting head 70, the fixture structural unit 28 that the fixture structural unit 75 being provided with cutting head 70 engages or departs from from the fixture structural unit 75 of cutting head 70 in the left part of apparatus main body 10. When cutting operation terminates, cutting head 70 is carried to original position HC by driving balladeur train 30. Further, when cutting head 70 arrives original position HC, fixture structural unit 28 becomes locking state (state shown in solid in Fig. 7) from non-locking state (Fig. 7 the state shown in imaginary line), engages with the fixture structural unit 75 of cutting head 70. When driving balladeur train 30 to move to the right in this condition, drive balladeur train 30 to overcome the magnetic force being fixed between the permanent magnet 32 and the adsorption section 74 of cutting head 70 that drive balladeur train 30, deviate from from cutting head 70. Thus, cutting head 70 is left in place HC, and HC is standby in position.

When printing, ink gun 40 links with driving balladeur train 30. The original position HP place being attached at ink gun 40 driving balladeur train 30 and ink gun 40 carries out. In the present embodiment, the original position HP that right end portion is ink gun 40 in apparatus main body 10. The original position HP of ink gun 40 is positioned at the right of impressing flat board 25. But, the original position HC of cutting head 70 can be contrary with the original position HP of ink gun 40. I.e., it is possible to be the original position HC of cutting head 70 be the right end portion in apparatus main body 10, the original position HP of ink gun 40 is the left end portion in apparatus main body 10. Can being the original position HC of cutting head 70 right being positioned at impressing flat board 25, the original position HP of ink gun 40 be positioned at the left of impressing flat board 25.

Ink gun 40 standby in original position HP time, if driving balladeur train 30 to move to the right along leading axle 20, be then located at and drive the permanent magnet 31 of balladeur train 30 in the near future to contact with the adsorption section 44 of ink gun 40, drive balladeur train 30 and ink gun 40 to link. As it is shown in fig. 7, arrange fixture structural unit 45 at ink gun 40, the fixture structural unit 27 that can engage with fixture structural unit 45 or depart from from fixture structural unit 45 is set in the right part of apparatus main body 10. When printing, fixture structural unit 27 becomes non-locking state (state shown in solid in Fig. 7), is released with the engaging of the fixture structural unit 27 of apparatus main body 10 by the fixture structural unit 45 of ink gun 40. Therefore, when driving balladeur train 30 to move along main scanning direction, ink gun 40 also moves along main scanning direction integratedly with driving balladeur train 30.

Ink gun 40 1 edge main scanning direction moves back and forth, and sprays ink droplet towards record paper 5. Record paper 5 moving back and forth along with ink gun 40, is carried along sub scanning direction X by roller 26. Such as, when ink gun 40 moves from the right of main scanning direction to left, record paper 5 is forwards carried specific length, then when ink gun 40 reverses and moves to right from left, record paper 5 is forwards carried specific length again, is below repeatedly performed same action. Thus, record paper 5 is formed the image etc. of two dimension.

When cutting, ink gun 40 is from driving balladeur train 30 to separate, and HP is standby in position. When printing release, ink gun 40 is carried to original position HP by driving balladeur train 30. Further, when ink gun 40 arrives original position HP, fixture structural unit 27 becomes locking state (state shown in imaginary line in Fig. 7) from non-locking state (state shown in solid Fig. 7), engages with the fixture structural unit 45 of ink gun 40. When driving balladeur train 30 to move to the left in this condition, drive balladeur train 30 to overcome the magnetic force being located between the permanent magnet 31 and the adsorption section 44 of ink gun 40 that drive balladeur train 30, deviate from from ink gun 40. Thus, ink gun 40 stays in original position HP, and HP place is standby in position.

When cutting, cutting head 70 links with driving balladeur train 30. The original position HC place being attached at cutting head 70 driving balladeur train 30 and cutting head 70 carries out. Cutting head 70 standby in original position HC time, if driving balladeur train 30 to move to the left along leading axle 20, be then located at and drive the permanent magnet 32 of balladeur train 30 in the near future to contact with the adsorption section 74 of cutting head 70, drive balladeur train 30 and cutting head 70 to link. When cutting, fixture structural unit 28 becomes non-locking state, is released with the engaging of the fixture structural unit 28 of apparatus main body 10 by the fixture structural unit 75 of cutting head 70. Therefore, when driving balladeur train 30 to move to main scanning direction, cutting head 70 moves along main scanning direction integratedly with driving balladeur train 30.

When cutting head 70 moves to the position of the regulation of record paper 5, the sickle 72 (with reference to Fig. 6) of cutting head 70 declines, incision record paper 5. Further, when sickle 72 incision record paper 5, cutting head 70 moves along main scanning direction Y, and is carried along sub scanning direction X by record paper 5 by roller 26. Thus, record paper 5 is cut into regulation shape.

Ink gun 40 is set to the first binding strength with the power driving balladeur train 30 to link by the first hookup mechanism 51, and when cutting head 70 is set to the second binding strength with the power driving balladeur train 30 to link by the second hookup mechanism 52, the first binding strength and the second binding strength are different. It should be noted that the first binding strength is equal to release the load (such as 10Kgf) that ink gun 40 is required with the link of driving balladeur train 30. In other words, in order to make driving balladeur train 30 deviate from required load (such as 10Kgf) from ink gun 40 when the first binding strength is fixed on apparatus main body 10 equal to ink gun 40. Second binding strength is equal to release the load (such as 8Kgf) that cutting head 70 is required with the link of driving balladeur train 30. In other words, in order to make driving balladeur train 30 deviate from required load (such as 8Kgf) from cutting head 70 when the second binding strength is fixed on apparatus main body 10 equal to cutting head 70. It should be noted that in the present embodiment, the first hookup mechanism 51 possesses a group permanent-magnet 31 and adsorption section 44, and the first binding strength is equal to make a group permanent-magnet 31 and adsorption section 44 deviate from required load (such as 10Kgf). But, when possessing many group permanent-magnets 31 and adsorption section 44 at the first hookup mechanism 51, the first binding strength is equal to make above-mentioned all group permanent-magnets 31 and adsorption section 44 deviate from required load (such as 10Kgf). Equally, when possessing many group permanent-magnets 32 and adsorption section 74 at the second hookup mechanism 52, the second binding strength is equal to make above-mentioned all group permanent-magnets 32 and adsorption section 74 deviate from required load (such as 8Kgf).

In the present embodiment, the second hookup mechanism 52 makes cutting head 70 and the binding strength driving balladeur train 30 to link be set greater than to make cutting head 70 move required power along main scanning direction when record paper 5 is cut by sickle 72. That is, if making cutting head 70 move required power along main scanning direction when record paper 5 is cut by sickle 72 be set to " cutting force ", then the second binding strength is set greater than cutting force. Therefore, when cutting, by driving balladeur train 30 that cutting head 70 can be made stably to move. Record paper 5 can be cut well. And, when driving balladeur train 30 to move integratedly with cutting head 70, it is not susceptible to drive the link of balladeur train 30 and cutting head 70 surprisingly to be released.

It should be noted that the size of the second binding strength is not particularly limited, for instance, it is possible to it is set as more than 1.5 times of cutting force, it is also possible to be set as more than 2 times. Thus, by driving balladeur train 30 that cutting head 70 can be made more stably to move. And, it is possible to it is more reliably prevented from driving the link of balladeur train 30 and cutting head 70 surprisingly to be released.

The size of the second binding strength can be less than 10 times of cutting force, it is also possible to is less than 5 times, it is also possible to is less than 3 times. By so suppressing the size of the second binding strength, it is possible to use more cheap permanent magnet 32, it is possible to make the second hookup mechanism 51 cheapization.

In the present embodiment, sickle 72 is metal system. When driving balladeur train 30 to link with cutting head 70, sickle 72 and permanent magnet 32 separate be positioned at the outside of the scope of the impact of the magnetic force being subject to permanent magnet 32 by sickle 72 in the way of. Therefore, it does not have damage the probability of the function of cutting head 70 due to permanent magnet 32. Cutting head 70 can be made to work well.

It should be noted that in aforesaid embodiment, the first hookup mechanism 51 has is located at the permanent magnet 31 driving balladeur train 30 and the magnetic 44 being located at ink gun 40. It may, however, also be ink gun 40 is located at by permanent magnet 31 and driving balladeur train 30 is located at by magnetic 44. That is, the first hookup mechanism 51 can also have the permanent magnet 31 being located at ink gun 40 and be located at the magnetic 44 driving balladeur train 30.

In aforesaid embodiment, the second hookup mechanism 52 has is located at the permanent magnet 32 driving balladeur train 30 and the magnetic 74 being located at cutting head 70. It may, however, also be cutting head 70 is located at by permanent magnet 32 and driving balladeur train 30 is located at by magnetic 74. That is, the second hookup mechanism 51 can also have the permanent magnet 32 being located at cutting head 70 and be located at the magnetic 74 driving balladeur train 30.

First hookup mechanism 51 and the second hookup mechanism 52 are not limited to the hookup mechanism with permanent magnet and magnetic. Such as, the first hookup mechanism 51 and the second hookup mechanism 52 can be the hookup mechanisms with electric magnet and magnetic. In this case, it is possible to control the energising to electric magnet and the non-energized releasing carrying out the electric magnet link with magnetic and this link by controlling device 35. So, Magnet is not limited to permanent magnet. And, the first hookup mechanism 51 and the second hookup mechanism 52 are not limited to the hookup mechanism with Magnet.

Medium is not limited to record paper 5. Medium can be such as resinous thin slice, it is also possible to be metal thin slice.

(the second embodiment)

As described above, the printing of the first embodiment and cutter sweep 1 possess: by the driving device driving balladeur train 30 to drive along main scanning direction, connected to dismounting the first hookup mechanism 51 freely with driving balladeur train 30, with driving balladeur train 30, cutting head 70 is connected to the second hookup mechanism 52 dismounted freely by ink gun 40. Relatively to this, the printing of the second embodiment shown in Fig. 8 and cutter sweep possess cutting head 70 is driven along main scanning direction driving device, cutting head 70 and ink gun 40 are connected to dismounting hookup mechanism 53 freely.

In present embodiment (with reference to Fig. 8), cutting head 70 engages with leading axle 20, and is fixed on band 23. Therefore, along with 23 circulation, cutting head 70 moves along main scanning direction. Motor 24, driving pulley 21, follow-up pulley 22 and driving device cutting head 70 driven along main scanning direction with 23 compositions. In the present embodiment, balladeur train 30 is driven to be absent from.

Right part at cutting head 70 is fixed with permanent magnet 33. At least opposed with permanent magnet 33 part 44 in ink gun 40 is made up of magnetic. Above-mentioned part 44 is contained in print head carriage 42, and print head carriage 42 is made up of metals such as ferrum. By permanent magnet 33 and the above-mentioned part (hereinafter referred to as adsorption section) 44 that is made up of magnetic, constitute and cutting head 70 and ink gun 40 are connected to dismounting hookup mechanism 53 freely.

About other structure, printing and cutter sweep 1 with the first embodiment are identical, therefore omit the description.

In the present embodiment, when record paper 5 is printed, cutting head 70 and ink gun 40 being linked by hookup mechanism 53, cutting head 70 and ink gun 40 are integrally forming and move along main scanning direction. Ink gun 40 moves along main scanning direction by cutting head 70. Ink gun 40 1 edge main scanning direction moves, and sprays ink, and record paper 5 is carried along sub scanning direction by roller 26. Further, in the same manner as the first embodiment, record paper 5 is printed.

When cutting record paper 5, being released from the link of ink gun 40 based on the cutting head 70 of hookup mechanism 53, cutting head 70 deviates from from ink gun 40. Cutting head 70 moves along main scanning direction, and ink gun 40 HP place in position is standby. When sickle 72 incision record paper 5, cutting head 70 moves along main scanning direction, and records paper 5 by roller 26 along sub scanning direction carrying. Thus, in the same manner as the first embodiment, record paper 5 is cut into regulation shape.

In the present embodiment, hookup mechanism 53 makes the binding strength that cutting head 70 and ink gun 40 link be set greater than to make cutting head 70 move required power along main scanning direction when record paper 5 is cut by sickle 72. That is, the binding strength of hookup mechanism 53 is set greater than cutting force. Owing to the binding strength of hookup mechanism 53 is sufficiently large, therefore when cutting head 70 links with ink gun 40, it is possible to make cutting head 70 and ink gun 40 stably move. When making ink gun 40 move along main scanning direction by cutting head 70, it is possible to make ink gun 40 stably move, it is possible to print well. And, when cutting head 70 moves integratedly with ink gun 40, it is possible to prevent the link of cutting head 70 and ink gun 40 from surprisingly being released.

The size of the binding strength of hookup mechanism 53 is not particularly limited, for instance can set that more than 1.5 times into cutting force, it is also possible to be set as more than 2 times. Thus, when cutting head 70 links with ink gun 40, it is possible to make cutting head 70 and ink gun 40 more stably move. And, it is possible to the link being more reliably prevented from cutting head 70 and ink gun 40 is surprisingly released.

The size of the binding strength of hookup mechanism 53 can be less than 10 times of cutting force, it is also possible to is less than 5 times, it is also possible to is less than 3 times. So by suppressing the size of the binding strength of hookup mechanism 53, it is possible to use more cheap permanent magnet 33, it is possible to make hookup mechanism 53 cheapization.

In the present embodiment, sickle 72 is metal system. When cutting head 70 links with ink gun 40, sickle 72 and permanent magnet 33 separate be positioned at the outside of the scope of the impact of the magnetic force being subject to permanent magnet 33 by sickle 72 in the way of. Therefore, it does not have damage the probability of the function of cutting head 70 due to permanent magnet 33. Cutting head 70 can be made to work well.

It should be noted that in the present embodiment, hookup mechanism 53 has the permanent magnet 33 being located at cutting head 70 and the magnetic 44 being located at ink gun 40. It may, however, also be ink gun 40 is located at by permanent magnet 33, cutting head 70 is located at by magnetic 44. That is, hookup mechanism 53 can have the permanent magnet 33 being located at ink gun 40 and the magnetic 44 being located at cutting head 70.

Hookup mechanism 53 is not limited to the hookup mechanism with permanent magnet and magnetic. Such as, hookup mechanism 53 can also be the hookup mechanism with electric magnet and magnetic. In this case, it is possible to control the energising to electric magnet and the non-energized releasing carrying out the electric magnet link with magnetic and this link by controlling device 35. It should be noted that, when having the hookup mechanism of electric magnet and magnetic, " linking required load to release " is not link required load when electric magnet is non-power status to release, but link required load to release when electric magnet is "on" position (that is, when hookup mechanism is connecting state). So, Magnet is not limited to permanent magnet. And, hookup mechanism 53 is not limited to the hookup mechanism with Magnet.

Medium is not limited to record paper 5. Medium can be such as resinous thin slice, it is also possible to be metal thin slice.

The leading axle engaged for ink gun 40 and the leading axle supplying cutting head 70 to engage can be identical as described embodiment, it is also possible to difference. Print and cutter sweep 1 can possess the leading axle for ink gun 40 engaging and the leading axle for cutting head 70 engaging, amount to two leading axles.

Claims (14)

1. printing and a cutter sweep, it possesses:

Leading axle, extends along main scanning direction;

Handling device, along the direction transporting medium vertical with described main scanning direction;

Ink gun, engages with described leading axle in the way of moving freely along described main scanning direction, has the nozzle to described medium ejection ink;

Cutting head, engages with described leading axle in the way of moving freely along described main scanning direction, has the sickle that described medium is cut;

Drive balladeur train, move freely along described main scanning direction;

Driving device, drives described driving balladeur train along described main scanning direction;

First hookup mechanism, connects to dismounting freely by described ink gun and described driving balladeur train; And

Second hookup mechanism, connects to dismounting freely by described cutting head and described driving balladeur train,

Described second hookup mechanism makes the binding strength that described cutting head and described driving balladeur train link be set greater than when described medium is cut by described sickle and make described cutting head move required power along described main scanning direction.

2. printing according to claim 1 and cutter sweep, wherein,

Described second hookup mechanism makes the binding strength that described cutting head and described driving balladeur train link be set as to make described cutting head move more than 1.5 times of required power along described main scanning direction when described medium is cut by described sickle.

3. printing according to claim 1 and cutter sweep, wherein,

Described second hookup mechanism makes the binding strength that described cutting head and described driving balladeur train link be set as to make described cutting head move more than 2 times of required power along described main scanning direction when described medium is cut by described sickle.

4. printing according to claim 1 and cutter sweep, wherein,

Described second hookup mechanism comprises the Magnet being located at described cutting head and/or described driving balladeur train.

5. printing according to claim 4 and cutter sweep, wherein,

Described sickle is metal system,

Described sickle and described Magnet separate be positioned at the outside of the scope of the impact of the magnetic force being subject to described Magnet by described sickle in the way of.

6. printing according to claim 1 and cutter sweep, wherein,

Described second hookup mechanism comprises the permanent magnet being located at described cutting head and is located at the magnetic of described driving balladeur train.

7. printing according to claim 1 and cutter sweep, wherein,

Described second hookup mechanism comprises the permanent magnet being located at described driving balladeur train and the magnetic being located at described cutting head.

8. printing and a cutter sweep, it possesses:

Leading axle, extends along main scanning direction;

Handling device, along the direction transporting medium vertical with described main scanning direction;

Ink gun, engages with described leading axle in the way of moving freely along described main scanning direction, has the nozzle to described medium ejection ink;

Cutting head, engages with described leading axle in the way of moving freely along described main scanning direction, has the sickle that described medium is cut;

Driving device, drives described cutting head along described main scanning direction; And

Hookup mechanism, connects to dismounting freely by described cutting head and described ink gun,

Described hookup mechanism makes the binding strength that described cutting head and described ink gun link be set greater than when described medium is cut by described sickle and make described cutting head move required power along described main scanning direction.

9. printing according to claim 8 and cutter sweep, wherein,

Described hookup mechanism makes the binding strength that described cutting head and described ink gun link be set as to make described cutting head move more than 1.5 times of required power along described main scanning direction when described medium is cut by described sickle.

10. printing according to claim 8 and cutter sweep, wherein,

Described hookup mechanism makes the binding strength that described cutting head and described ink gun link be set as to make described cutting head move more than 2 times of required power along described main scanning direction when described medium is cut by described sickle.

11. printing according to claim 8 and cutter sweep, wherein,

Described hookup mechanism comprises the Magnet being located at described cutting head and/or described ink gun.

12. printing according to claim 11 and cutter sweep, wherein,

Described sickle is metal system,

Described sickle and described Magnet separate be positioned at the outside of the scope of the impact of the magnetic force being subject to described Magnet by described sickle in the way of.

13. printing according to claim 8 and cutter sweep, wherein,

Described hookup mechanism comprises the permanent magnet being located at described cutting head and is located at the magnetic of described ink gun.

14. printing according to claim 8 and cutter sweep, wherein,

Described hookup mechanism comprises the permanent magnet being located at described ink gun and is located at the magnetic of described cutting head.