CN108638674A - Carbon ribbon box mounting structure and printer - Google Patents

Abstract

The present invention relates to a kind of carbon ribbon box mounting structure and printers, carbon ribbon box mounting structure includes printing panel, carbon tape box and limited block, the carbon tape box and limited block are set to the same side of printing panel, the carbon tape box is set on printing panel, the printing panel is equipped with location structure, the location structure can be moved for limiting carbon tape box lateral or longitudinal movement, limited block on printing panel relative to carbon tape box；At first position, carbon tape box is located between limited block and printing panel limited block, and limited block is moved with printing panel cooperation limitation carbon tape box to the direction far from printing panel；For limited block at the second position, limited block is detached from carbon tape box, and carbon tape box can be moved to the direction far from printing panel, to drop influence of the dismounting to printer capability.

Description

Carbon ribbon box mounting structure and printer

Technical field

The present invention relates to printer technology fields, more particularly to a kind of carbon ribbon box mounting structure and printer.

Background technology

The carbon ribbon volume of existing thermal transfer printer is generally mounted to printer.The replacement of each carbon ribbon volume be required to from Remove carbon tape box in printer, but due to carbon tape box mounting structure design obtain it is unreasonable, as carbon tape box dismounts the increasing of number More, the stability of printer declines, and the printing effect of printer cannot ensure.

Invention content

Based on this, the invention reside in overcoming the deficiencies of existing technologies, a kind of carbon ribbon box mounting structure, printer is provided and beaten Print machine, to drop influence of the dismounting to printer capability.

A kind of carbon ribbon box mounting structure, including printing panel, carbon tape box and limited block, the carbon tape box and limited block setting In the same side of printing panel, the carbon tape box is set on printing panel, and the printing panel is equipped with location structure, described fixed Bit architecture can be moved for limiting carbon tape box lateral or longitudinal movement, limited block on printing panel relative to carbon tape box；Limit At first position, carbon tape box is located between limited block and printing panel position block, limited block and printing panel cooperation limitation carbon ribbon Box is moved to the direction far from printing panel；For limited block at the second position, limited block is detached from carbon tape box, and carbon tape box can be to separate Print the direction movement of panel.

Above-mentioned carbon ribbon box mounting structure, carbon tape box are set on printing panel, and the location structure printed on panel limits Carbon tape box lateral or longitudinal movement on printing panel.At first position, limited block coordinates with printing panel by carbon limited block Tape drum is limited between limited block and printing panel.For limited block at the second position, limited block is detached from carbon tape box, and carbon tape box can be to Direction movement far from printing panel.Compared with prior art, the logical location structure of the application limits carbon tape box in printing panel On movement, carbon tape box can be so limited to printing panel on specific region in.Detent mechanism controls carbon tape box and is beating The movement on panel is printed, installation accuracy of the carbon tape box on printing panel is improved.During completing carbon tape box dismounting, carbon Tape drum is moved to the direction far from printing panel, and so during dismounting carbon tape box, carbon tape box is to location structure Deformation effect is small, so ensure that the stability of carbon tape box installation site, ensure that the printing effect of printer.Avoid carbon ribbon For box when printing panel moves up dynamic dismounting, for carbon tape box after being dismounted for multiple times, carbon tape box installation site is unstable, and axially position is not Accurately, the problem of printing effect difference.

Further, the location structure includes the first positioning region, the second positioning region, third positioning region and the 4th positioning region； First positioning region and third positioning region are arranged at intervals on the both lateral sides of carbon tape box, and the first positioning region and third positioning region are matched Close the transverse shifting of limitation carbon tape box；Second positioning region and the 4th positioning region are arranged at intervals on longitudinal both sides of carbon tape box, The longitudinal movement of second positioning region and the 4th positioning region cooperation limitation carbon tape box.

In installing and using, the cooperation of the first positioning region and third positioning region limits the traverse range of carbon tape box, the The cooperation of two positioning regions and the 4th positioning region limits the longitudinal movement range of carbon tape box.Such vertical and horizontal to carbon tape box The mode of restriction facilitates the installation positioning of carbon tape box.

Further, the printing panel is equipped with deep gouge, and the carbon tape box is set in deep gouge, the side wall of deep gouge both lateral sides Respectively described first positioning region and the third positioning region, the side walls of deep gouge longitudinal direction both sides are second positioning region and described 4th positioning region；Or the printing panel be equipped with first partition, second partition, third partition board and the 4th partition board, described first every Plate and third baffle interval are set to the both sides of carbon tape box transverse direction, and first partition is first positioning region, and third partition board is institute Third positioning region is stated, second partition and the 4th baffle interval are set to the both sides of carbon tape box longitudinal direction, and second partition is described second Positioning region, the 4th partition board are the 4th positioning region.Using partition board or cell wall as the first positioning region, the second positioning region, third The structure of positioning region and the 4th positioning region is simple, easy to process.

Further, the limited block is slidably disposed on printing panel.The shifting that limited block passes through opposite printing panel It moves to realize that the position between first position and the second position switches.

Further, carbon ribbon box mounting structure further includes return unit, and one end of the return unit is abutted with printing panel, described The other end of return unit is abutted with limited block, and return unit is used to that limited block to be driven to move to close to the direction of carbon tape box.Before installation, Limited block overcomes the elastic force of return unit to be moved to the direction far from carbon tape box, and installation passage is reserved to carbon tape box；After installation, limit Block return unit elastic force effect under to close to carbon tape box direction move, by carbon tape box be limited to limited block and printing panel it Between.

Further, the printing panel is equipped with guide groove, and limited block is installed in guide groove and is slidably matched with guide groove, The return unit is set in guide groove, and one end of return unit is abutted with printing panel, and the other end and the limited block of return unit support It connects.Under the promotion of return unit, limited block is slided along guide groove, and guide groove limits the movement locus of limited block.

Further, there are two the limited blocks, two limited blocks are arranged at intervals at the opposite sides of the carbon tape box.Two Limited block is arranged at intervals at the opposite sides of carbon tape box, and the mounting stability of carbon tape box can be effectively ensured.

Further, it is equipped with rotatable first rotating stand and the second rotating stand in the carbon tape box, described first turn Dynamic bearing and the second rotating stand are spaced setting side by side；First rotating stand is used to recycle volume transmission cooperation, institute with carbon ribbon The second rotating stand is stated for supplying volume transmission cooperation with carbon ribbon.When the first rotating stand is active bearing, the second rotating stand For driven bearing when, the first rotating stand rotates forward, and the second rotating stand is rotated forward by carbon ribbon；When the second rotating stand When for active bearing, the first rotating stand being driven bearing, the second rotating stand rotates backward, and the first rotating stand passes through carbon ribbon It rotates backward.During printer use, the first rotating stand and the second rotating stand active bearing and driven bearing each other, By switching the corresponding working state of the first rotating stand and the second rotating stand, carbon ribbon can be made to recycle volume and carbon ribbon in carbon ribbon It is freely shifted between supply volume, and then realizes the advance of carbon ribbon in printer, retreats.

Further, carbon ribbon box mounting structure further includes the first drive seat being rotatably set in carbon tape box and the second driving Seat, first drive seat coordinate with the transmission of the first rotating stand, and second drive seat coordinates with the transmission of the second rotating stand； When the first drive seat is active bearing, the second rotating stand is driven bearing, the first rotating stand rotates forward, the second rotation Bearing is rotated forward by carbon ribbon；When the second rotating stand is active bearing, the first rotating stand is driven bearing, second turn Dynamic bearing rotates backward, and the first rotating stand is rotated backward by carbon ribbon.By select the first drive seat or the second drive seat for The mode of active bearing realizes rotating forward and rotating backward for carbon ribbon, and then realizes the receipts of carbon ribbon recycling volume and carbon ribbon supply volume It puts.

Further, the first driving piece is equipped between first drive seat and the first rotating stand, the first driving piece Side is abutted with the first drive seat, and the other side of the first driving piece is abutted with the first rotating stand；Second drive seat and the The second driving piece is equipped between two rotating stands, the side of the second driving piece is abutted with the second drive seat, the second driving piece The other side is abutted with the second rotating stand.When the first drive seat is active bearing, the second rotating stand is driven bearing, first Driving piece is rotated by the frictional force between the first drive seat and the first driving piece with the first drive seat, and the first rotating stand passes through Frictional force between first rotating stand and the first driving piece is with the first driving piece rotation；Carbon ribbon draws the second rotating stand and overcomes Frictional force between second rotating stand and the second driving piece rotates.Pass through rubbing between the second rotating stand and the second driving piece Power is wiped, the second rotating stand makes the second rotating stand of traction rotation carbon ribbon be in the flat state of tensioning support, avoids carbon ribbon appearance Fold ensure that the consistency of the first drive seat and the movement of the second rotating stand.When the second drive seat be active bearing, first turn When dynamic bearing is driven bearing, the second driving piece is by the frictional force between the second drive seat and the second driving piece with the second driving Seat rotation, the second rotating stand is by the frictional force between the second rotating stand and the second driving piece with the second driving piece rotation； First rotating stand overcomes the first rotating stand and first that the frictional force between piece is driven to rotate.Pass through the first rotating stand and Frictional force between one driving piece, the first rotating stand make the first rotating stand of traction rotation carbon ribbon be in the flat shape of tensioning support State avoids carbon ribbon and fold occurs, ensure that the consistency of the second drive seat and the movement of the first rotating stand.In the first drive seat When for active bearing or the second drive seat being active bearing, the first driving piece and the second driving piece make carbon ribbon supply volume and carbon ribbon return Carbon ribbon between winding is in tensioning state, avoids the problem of carbon ribbon relaxation influences printing effect.

Further, carbon ribbon box mounting structure further includes the first input shaft and the second input shaft；First input shaft and carbon Tape drum is rotatably connected, and one end of the first input shaft is located at outside carbon tape box, and the other end of first input shaft is located at carbon tape box Interior, first drive seat is rotated synchronously with the first input shaft and is connected, and first rotating stand and the rotation of the first input shaft connect It connects；Second input shaft is rotatably connected with carbon tape box, and one end of the second input shaft is located at outside carbon tape box, second input The other end of axis is located in carbon tape box, and second drive seat is rotated synchronously with the second input shaft and connected, the second rotation branch Seat is rotatablely connected with the second input shaft, and transmission is simple, compact-sized.

Further, first drive seat is equipped with the first rotation stop hole, and first rotating stand is equipped with the first transfer hole, the One drive seat, which is socketed on the first input shaft by the first rotation stop hole and is rotated synchronously with the first input shaft, to be coordinated, the first rotation branch Seat is sheathed on the first input shaft by the first transfer hole and is rotatably coordinated with the first input shaft；Second drive seat is equipped with Second rotation stop hole, second rotating stand are equipped with the second transfer hole, and the second drive seat is socketed on second by the second rotation stop hole It rotates synchronously on input shaft and with the second input shaft and coordinates, the second rotating stand is sheathed on the second input shaft by the second transfer hole Above and with the second input shaft rotatably coordinate, mounting structure is simple, and transmission is effective.

Further, carbon ribbon box mounting structure further includes first gear and second gear, and the first gear is located at carbon tape box Outside, first gear is rotated synchronously with the first input shaft and is connected, and the first gear is used to coordinate with printer driver mechanism driving； The second gear is located at outside carbon tape box, and second gear and the second input shaft, which rotate synchronously, to be connected, the second gear be used for Printer driver mechanism driving coordinates, and reduces the influence that drive mechanism rolls up carbon ribbon, simple in structure.

Further, the carbon tape box is equipped with the first supported hole and the second supported hole；First is equipped in first supported hole Rolling bearing, first input shaft are installed in the first rolling bearing；The second rolling bearing is equipped in second supported hole, Second input shaft is installed in the second rolling bearing.The setting of rolling bearing reduces the first input shaft, the second input shaft Rotary resistance.

Further, the carbon tape box is equipped with the first installing port and the second installing port, the first installing port and the second installing port point The both sides of carbon ribbon not between carbon ribbon supply volume and carbon ribbon recycling volume, printing panel is equipped with pacifies with the first installing port and second Fill the corresponding print head of mouth；The print head passes through the first installing port and the second installing port to protrude from outside carbon tape box, and print head is used It is abutted in the carbon ribbon supplied between volume and carbon ribbon recycling volume with carbon ribbon.Carbon tape box is when to close to printing panel movement installation, printing Head abuts with carbon ribbon after sequentially passing through the first installing port and the second installing port and carbon ribbon is overhanged carbon tape box.

Further, the print head is equipped with the first guide protrusions and the second guide protrusions, first guide protrusions and the Two guide protrusions are along the axially spaced-apart setting of carbon ribbon supply volume, first guide protrusions and the second guide protrusions are used for and carbon ribbon Carbon ribbon cooperation between supply volume and carbon ribbon recycling volume.First guide protrusions and the second guide protrusions can be to the carbon by print head Band carries out mobile guide.

The present invention also provides a kind of printer, including paper feed portion and printing portion, the printing portion includes the carbon tape box Mounting structure forms the first paper feed channel between the paper feed portion and printing portion, the paper feed portion is on the side of printing portion Equipped with marking roll, the print head of the printing portion is oppositely arranged with the marking roll, between the marking roll and the print head Type channel is formed, is equipped with the second paper feed channel in the paper feed portion, first paper feed channel, second paper feed channel are equal It is connected to the type channel, the paper feed portion includes the first driving mechanism, and first driving mechanism is beaten for respectively driving Printing paper moves in first paper feed channel or second paper feed channel, and the printing portion includes the second driving mechanism, institute The second driving mechanism is stated with the first drive seat or the transmission of the second drive seat to coordinate.

Above-mentioned printer can drive the first printing paper by beating when needing to switch printing paper first with the first driving mechanism Print channel retracts to the first paper feed channel, while the second driving mechanism drives the second drive seat to keep carbon ribbon and above-mentioned printing paper same Step retracts, and makes the partial rollback printed on carbon ribbon, recycles the second driving mechanism that another printing paper is driven to be led to by the second paper feed Road advances in type channel, the second driving mechanism drive the first drive seat make carbon ribbon and above-mentioned printing paper advanced in unison again before Into process, unprinted part will not stretch out type channel on carbon ribbon, cause the waste of carbon ribbon, while carbon ribbon and the printings of volume two Paper synchronizing moving will not cause to rub between carbon ribbon and printing paper, cause the abrasion to carbon ribbon.

Further, second driving mechanism includes first motor and the second motor, and the first motor drives with first Seat transmission cooperation, second motor and the transmission of the second drive seat coordinate, and the first motor and second motor are list Steering motor.When carbon ribbon advances, marking roll and print head cooperation driving printing paper march forward, and first motor drives the first drive seat Rotation, the first drive seat is active bearing, the second rotating stand is driven bearing, and the first rotating stand rotates forward, second turn Dynamic bearing is rotated forward by carbon ribbon.When carbon ribbon retracts, marking roll and print head cooperation driving printing paper are drawn back, the second electricity Machine drives the rotation of the second drive seat, and the second drive seat is active bearing, the first rotating stand is driven bearing, the second rotating stand It rotates forward, the first rotating stand is rotated backward by carbon ribbon.By selecting first motor or the second motor for active bearing Mode realizes rotating forward and rotating backward for carbon ribbon, and then realizes the retractable of carbon ribbon recycling volume and carbon ribbon supply volume.

Further, the second driving mechanism includes third motor, and the third motor and the transmission of the second drive seat coordinate, described First drive seat coordinates with marking roll transmission.The rotation of the volume of carbon ribbon supply at this time is controlled by third motor, and carbon ribbon recycling volume Rotation can be coordinated by the transmission of the first drive seat and marking roll to be controlled, and can facilitate control at this time.

Further, the marking roll and the first drive seat gear engaged transmission.Gear-driven transmission stability is good, favorably In raising printing effect.

Further, the printing portion further includes first panel, and the paper feed portion further includes second panel and third panel；The Plate face relative spacing is arranged successively for one panel, second panel and third panel, and institute's first panel and second panel cooperatively form institute The first paper feed channel is stated, second panel and third panel cooperatively form second paper feed channel；The first panel is equipped with the One perforation, the second panel be equipped with third perforate and it is corresponding with the first perforation second perforation, the third panel equipped with Corresponding 4th perforation of third perforation；The first connecting pole, first connection are equipped in first perforation and the second perforation It is arranged at intervals with the first abutting block and second in the axial direction of column and abuts block, described first abuts block with first panel far from the second face The side of plate abuts, and the second abutting block is abutted with side of the second panel far from first panel；Third perforation and the It is equipped with the second connecting pole in four perforation, third is arranged at intervals in the axial direction of second connecting pole and abuts block and the 4th abutting Block, the third abut block and are abutted with side of the second panel far from third panel, and the 4th abutting block is remote with third panel Side from second panel abuts.First on first connecting pole and the second connecting pole, which abuts block, the second abutting block, third, abuts Block and the 4th abutting block can correct the cooperation spacing of first panel, second panel and third panel, make paper feed interchannel away from uniform, And then reduce the height change in the first paper feed channel and the second paper feed channel, improve strip-like carrier in the first paper feed channel and Guidance quality in second paper feed channel, improves the smoothness of strip-like carrier paper feed in printer.

Further, first connecting pole and the first perforation and the rotatable cooperation of the second perforation, described the is biperforate interior Wall is equipped with the first straight slot for abutting block cooperation with second, and first straight slot is arranged along the direction of the second perforation to the first perforation； When first connecting pole goes to first position, the second abutting block is corresponding with the first straight slot, and the first connecting pole can be in the second perforation To the square upward sliding of the first perforation；When first connecting pole goes to the second position, described second abuts block and the disengaging of the first straight slot, Second abutting block is abutted with side of the second panel far from first panel；Second connecting pole is perforated with third and the 4th perforation Rotatable cooperation, the inner wall of the third perforation, which is equipped with, abuts the second straight slot that block coordinates with third, and second straight slot is along the Direction setting of three perforation to third perforation；When second connecting pole goes to first position, the described 4th abuts block and the second straight slot Corresponding, the second connecting pole can be in the square upward sliding of the 4th perforation to third perforation；When second connecting pole goes to the second position, institute It states the 4th abutting block and the second straight slot is detached from, the 4th abutting block is abutted with side of the third panel far from second panel.By turning Dynamic and the first connecting pole of sliding realizes the dismounting of the first connecting pole and second panel, by rotating and sliding the second connecting pole reality The dismounting of the second connecting pole and third panel is showed.

Further, it described second abuts there are two blocks, two second abutting block being provided at circumferentially spaced along the first connecting pole； There are two first straight slots, and two the first straight slots abut block with two second and correspond；Described 4th abuts there are two blocks, Two the 4th abutting block being provided at circumferentially spaced along the second connecting pole；There are two second straight slots, two the second straight slots and two A 4th, which abuts block, corresponds.Second abut number of blocks increase, increase the second abutting block abutted with second panel it is steady Qualitative, the 4th abuts the increase of number of blocks, increases the stability that the 4th abutting block is abutted with third panel.

Description of the drawings

Fig. 1 is the structural schematic diagram of the carbon ribbon box mounting structure described in the embodiment of the present invention；

Fig. 2 is the A of Fig. 1 to sectional view；

Fig. 3 is the structural schematic diagram of the carbon tape box described in the embodiment of the present invention；

Fig. 4 is the B of Fig. 3 to schematic diagram；

Fig. 5 is the explosive view of Fig. 3；

Fig. 6 is the structural schematic diagram of the printer described in the embodiment of the present invention；

Fig. 7 is enlarged drawing at the C of Fig. 6；

Fig. 8 is that the second driving mechanism of the printer described in the embodiment of the present invention includes the knot of first motor and the second motor Structure schematic diagram；

Fig. 9 is that the second driving mechanism of the printer described in the embodiment of the present invention includes the structural schematic diagram of third motor；

Figure 10 is the structural schematic diagram of the second panel and third panel of the printer described in the embodiment of the present invention；

Figure 11 is the C direction views of Figure 10；

Figure 12 is the structural representation of the 4th perforation of the third panel mounting structure of the printer described in the embodiment of the present invention Figure；

Figure 13 is the structural schematic diagram of the second connecting pole of the printer described in the embodiment of the present invention.

Reference sign：100, print panel, the 111, first positioning region, the 112, second positioning region, 113, third positioning Portion, the 114, the 4th positioning region, 121, first partition, 122, second partition, 123, third partition board, the 124, the 4th partition board, 130, lead To slot, 200, carbon tape box, the 201, first supported hole, the 202, second supported hole, the 203, first installing port, the 204, second installing port, 211, the first rotating stand, 211a, the first transfer hole, the 212, first drive seat, 212a, the first rotation stop hole, the 213, first driving Piece, the 214, first input shaft, 215, first gear, the 216, first rolling bearing, the 221, second rotating stand, 221a, second Transfer hole, the 222, second drive seat, 222a, the second rotation stop hole, the 223, second driving piece, the 224, second input shaft, 225, second Gear, the 226, second rolling bearing, 230, mounting blocks, the 241, first positioning column, 241a, the first sliding eye, the 242, second positioning Column, 242a, the second sliding eye, the 251, first resilient thrusting member, the 252, second resilient thrusting member, 260, print head, 261, structural member, 261a, the first guide protrusions, 261b, the second guide protrusions, 262, heating member, 263, cambered surface part, 264, the flat bar of support, 265, tensioning Bar, 300, limited block, 310, sliding part, 320, clicking section, 330, return unit, 400, paper feed portion, 410, marking roll, 411, Three gears, the 420, first paper feed channel, the 430, second paper feed channel, 440, type channel, 500, printing portion, the 520, second driving Mechanism, 521, first motor, the 522, second motor, 523, third motor, the 524, the 4th gear, 600, second panel, 610, Three perforation, the 620, second arc bump, 621, third limiting section, the 622, the 4th limiting section, the 700, third panel, the 710, the 4th Perforation, the 711, second straight slot, the 800, second connecting pole, 810, third abut block, the 820, the 4th abut block, the 821, second guide cone Face, 822, second abuts guide surface, the 830, second elastic component, the 840, second locating part, and 910, printing paper, 920, carbon ribbon.

Specific implementation mode

To facilitate the understanding of the present invention, below with reference to relevant drawings to invention is more fully described.In attached drawing Give the better embodiment of the present invention.But the present invention can realize in many different forms, however it is not limited to herein Described embodiment.On the contrary, the purpose of providing these embodiments is that making to understand more the disclosure Add thorough and comprehensive.

It should be noted that when element is referred to as " being fixed on " another element, it can be directly on another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it can be directly connected to To another element or it may be simultaneously present centering elements.On the contrary, when element is referred to as " directly existing " another element "upper", There is no intermediary elements.Term as used herein " vertically ", " horizontal ", "left", "right" and similar statement are For illustrative purposes, it is not offered as being unique embodiment.

Unless otherwise defined, all of technologies and scientific terms used here by the article and belong to the technical field of the present invention The normally understood meaning of technical staff is identical.Used term is intended merely to description tool in the description of the invention herein The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term " and or " used herein includes one or more Any and all combinations of relevant Listed Items.

In conjunction with Fig. 1, Fig. 2, the embodiment of the present invention provides a kind of carbon ribbon box mounting structure, including printing panel 100, carbon ribbon Box 200 and limited block 300, the carbon tape box 200 and limited block 300 are set to the same side of printing panel 100, the carbon ribbon Box 200 is set on printing panel 100, and the printing panel 100 is equipped with location structure, and the location structure is for limiting carbon ribbon Box 200 lateral or longitudinal movement, limited block 300 on printing panel 100 can be moved relative to carbon tape box 200；Limited block 300 At first position, carbon tape box 200 is located between limited block 300 and printing panel 100, and limited block 300 is matched with printing panel 100 Limitation carbon tape box 200 is closed to move to the direction far from printing panel 100；For limited block 300 at the second position, limited block 300 is de- From carbon tape box 200, carbon tape box 200 can be moved to the direction far from printing panel 100.

Above-mentioned carbon ribbon box mounting structure, carbon tape box 200 are set on printing panel 100, print the positioning on panel 100 Structure limits the lateral or longitudinal movement on printing panel 100 of carbon tape box 200.Limited block 300 is at first position, limit Carbon tape box 200 is limited between limited block 300 and printing panel 100 by block 300 and the cooperation of printing panel 100.Limited block 300 At the second position, limited block 300 is detached from carbon tape box 200, and carbon tape box 200 can be moved to the direction far from printing panel 100.With The prior art is compared, and the application leads to location structure and limits movement of the carbon tape box 200 on printing panel 100, so can be by carbon Tape drum 200 is limited in the specific region on printing panel 100.Detent mechanism controls carbon tape box 200 in printing panel 100 On movement, improve carbon tape box 200 printing panel 100 on installation accuracy.In the process for completing the dismounting of carbon tape box 200 In, carbon tape box 200 is moved to the direction far from printing panel 100, so during dismounting carbon tape box 200, carbon ribbon Box 200 is small to the deformation effect of location structure, so ensure that the stability of 200 installation site of carbon tape box, ensure that printer Printing effect.Carbon tape box 200 is avoided in mobile dismounting on printing panel 100, carbon tape box 200 after being dismounted for multiple times, 200 installation site of carbon tape box is unstable, and axially position is inaccurate, the problem of printing effect difference.

Further, the location structure includes the first positioning region 111, the second positioning region 112, third positioning region 113 and the Four positioning regions 114；First positioning region 111 and third positioning region 113 are arranged at intervals on the both lateral sides of carbon tape box 200, the The transverse shifting of one positioning region 111 and the cooperation of third positioning region 113 limitation carbon tape box 200；Second positioning region 112 and Four positioning regions 114 are arranged at intervals on longitudinal both sides of carbon tape box 200, the cooperation of second positioning region, 112 and the 4th positioning region 114 Limit the longitudinal movement of carbon tape box 200.

In installing and using, the cooperation of the first positioning region 111 and third positioning region 113 limits the lateral of carbon tape box 200 and moves Dynamic range, the cooperation of the second positioning region 112 and the 4th positioning region 114 limit the longitudinal movement range of carbon tape box 200.It is such The installation positioning of carbon tape box 200 is facilitated to the mode that the vertical and horizontal of carbon tape box 200 limit.

Specifically, in the present embodiment the printing panel 100 be equipped with first partition 121, second partition 122, third every Plate 123 and the 4th partition board 124, the first partition 121 and third partition board 123 are arranged at intervals at the lateral both sides of carbon tape box 200, First partition 121 is first positioning region 111, and third partition board 123 is the third positioning region 113,122 He of second partition 4th partition board 124 is arranged at intervals at the longitudinal both sides of carbon tape box 200, and second partition 122 is second positioning region 112, and the 4th Partition board 124 is the 4th positioning region 114.Using partition board as the first positioning region 111, the second positioning region 112, third positioning region 113 and the 4th positioning region 114 structure it is simple, it is easy to process.

In other embodiments, the printing panel 100 is equipped with deep gouge, and the carbon tape box 200 is set in deep gouge, deep gouge The side wall of both lateral sides is respectively first positioning region 111 and the third positioning region 113, and the side wall of deep gouge longitudinal direction both sides is Second positioning region 112 and the 4th positioning region 114.

It should be noted that above-mentioned is to surround to limit opposite 100 cross of printing panel of carbon tape box 200 by partition board or deep gouge To or longitudinal movement location structure, and in other embodiments, location structure can be pin, block etc..

Further, in conjunction with Fig. 2, the limited block 300 is slidably disposed on printing panel 100.Limited block 300 passes through Realize that the position between first position and the second position switches relative to the movement of printing panel 100.

Further, 200 mounting structure of carbon tape box further includes return unit 330, one end and the printing panel of the return unit 330 100 abut, and the other end of the return unit 330 abuts with limited block 300, return unit 330 be used to drive limited block 300 to by The direction movement of nearly carbon tape box 200.In installation, limited block 300 overcomes the elastic force of return unit 330 to the side far from carbon tape box 200 To movement, installation passage is reserved to carbon tape box 200；After installation, limited block 300 is under the elastic force effect of return unit 330 to close The direction of carbon tape box 200 is moved, and carbon tape box 200 is limited between limited block 300 and printing panel 100.

Specifically, in the present embodiment, the carbon tape box 200 close to printing panel 100 side be equipped with for limit The mounting blocks 230 that block 300 coordinates, for limited block 300 at first position, mounting blocks 230 are located at limited block 300 and printing panel Between 100.The setting of mounting blocks 230 keeps 200 mounting structure of carbon tape box compact.

Further, the printing panel 100 is equipped with guide groove 130, limited block 300 be installed in guide groove 130 and with lead It is slidably matched to slot 130, the return unit 330 is set in guide groove 130, one end and the printing panel 100 of return unit 330 It abuts, the other end of return unit 330 is abutted with limited block 300.Under the promotion of return unit 330, limited block 300 is along guide groove 130 slidings, guide groove 130 limit the movement locus of limited block 300.

Specifically, limited block 300 includes the sliding part 310 being set in guide groove 130 and protrudes from outside guide groove 130 Clicking section 320.In use, limited block 300 is limited by the sliding part 310 in guide groove 130 with the printing cooperation of panel 100 The position of carbon tape box 200, limited block 300 are moved by clicking section 320 to the direction far from carbon tape box 200.

Further, there are two the limited blocks 300, two limited blocks 300 are arranged at intervals at the phase of the carbon tape box 200 To both sides.Two limited blocks 300 are arranged at intervals at the both sides of carbon tape box 200, and the installation that carbon tape box 200 can be effectively ensured is stablized Property.Specifically, in the present embodiment, there are two above-mentioned mounting blocks 230, two mounting blocks 230 are located at carbon tape box 200 Longitudinal both sides, two limited blocks 300 are respectively arranged at the longitudinal both sides of carbon tape box 200, and one of limited block 300 is located at second Side of the partition board 122 far from carbon tape box 200, another limited block 300 are located at one of the 4th partition board 124 far from carbon tape box 200 Side, two mounting blocks 230 and two limited blocks 300 correspond and coordinate；Limited block 300 is at first position, one of limit The clicking section 320 of position block 300 abuts positioning with side of the second partition 122 far from carbon tape box 200, another limited block 300 Clicking section 320 abut positioning with the 4th side of the partition board 124 far from carbon tape box 200.

Further, rotatable first rotating stand 211 and the are equipped in conjunction with Fig. 3, Fig. 4, Fig. 5, in the carbon tape box 200 Two rotating stands 221, first rotating stand, the 211 and second interval setting side by side of rotating stand 221；The first rotation branch For recycling volume transmission cooperation with carbon ribbon, second rotating stand 221 is used to supply volume transmission cooperation with carbon ribbon seat 211.When When first rotating stand 211 is active bearing, the second rotating stand 221 is driven bearing, the first rotating stand 211 is positive to be turned Dynamic, the second rotating stand 221 is rotated forward by carbon ribbon；When the second rotating stand 221 is active bearing, the first rotating stand 211 be driven bearing when, the second rotating stand 221 rotates backward, and the first rotating stand 211 is rotated backward by carbon ribbon.It is beating During print machine use, the first rotating stand 211 and the second rotating stand 221 active bearing and driven bearing each other, by cutting The corresponding working state for changing the first rotating stand 211 and the second rotating stand 221 can be that carbon ribbon recycles volume and carbon ribbon in carbon ribbon It is freely shifted between supply volume, and then realizes the advance of carbon ribbon in printer, retreats.

Further, carbon ribbon box mounting structure further includes 212 He of the first drive seat being rotatably set in carbon tape box 200 Second drive seat 222, first drive seat, 212 and first rotating stand 211 transmission cooperation, second drive seat 222 with The transmission cooperation of second rotating stand 221；When the first drive seat 212 is active bearing, the second rotating stand 221 is driven bearing When, the first rotating stand 211 rotates forward, and the second rotating stand 221 is rotated forward by carbon ribbon；When the second rotating stand 221 When for active bearing, the first rotating stand 211 being driven bearing, the second rotating stand 221 rotates backward, the first rotating stand 211 are rotated backward by carbon ribbon.Select the first drive seat 212 or the second drive seat 222 for active bearing by way of realize Carbon ribbon rotating forward and rotating backward, and then realizes the retractable of carbon ribbon recycling volume and carbon ribbon supply volume.

Further, between first drive seat, 212 and first rotating stand 211 be equipped with first driving piece 213, described first The side of driving piece 213 is abutted with the first drive seat 212, and the other side of the first driving piece 213 is supported with the first rotating stand 211 It connects；The second driving piece 223 is equipped between second drive seat, 222 and second rotating stand 221, the second driving piece 223 Side is abutted with the second drive seat 222, and the other side of the second driving piece 223 is abutted with the second rotating stand 221.

When the first drive seat 212 is active bearing, the second rotating stand 221 is driven bearing, the first driving piece 213 is logical The frictional force crossed between the first drive seat 212 and first driving piece 213 is rotated with the first drive seat 212, the first rotating stand 211 drive the frictional force between piece 213 to be rotated with the first driving piece 213 by the first rotating stand 211 and first；Carbon ribbon is drawn Frictional force between second rotating stand 221 overcomes the second rotating stand 221 and second to drive piece 223 rotates.Pass through second turn Dynamic bearing 221 and second drives the frictional force between piece 223, the second rotating stand 221 that the second rotating stand of traction 221 is made to rotate Carbon ribbon is in tensioning and supports flat state, avoids carbon ribbon and fold occurs, ensure that the first drive seat 212 and the second rotating stand The consistency of 221 movements.When the second drive seat 222 is active bearing, the first rotating stand 211 is driven bearing, second drives Movable plate 223 drives the frictional force between piece 223 to be rotated with the second drive seat 222 by the second drive seat 222 and second, second turn Dynamic bearing 221 drives the frictional force between piece 223 to be rotated with the second driving piece 223 by the second rotating stand 221 and second；The Frictional force between one rotating stand 211 overcomes the first rotating stand 211 and first to drive piece 213 rotates.Pass through the first rotation Bearing 211 and first drives the frictional force between piece 213, the first rotating stand 211 that the first rotating stand of traction 211 is made to rotate carbon Band supports flat state in tensioning, avoids carbon ribbon and fold occurs, ensure that the second drive seat 222 and the first rotating stand 211 The consistency of movement.

As it can be seen that when the first drive seat 212 is active bearing or the second drive seat 222 is active bearing, the first driving piece 213 and second drive piece 223 that the carbon ribbon between carbon ribbon supply volume and carbon ribbon recycling volume is made to be in tensioning state, and it is loose to avoid carbon ribbon Relaxation influences the problem of printing effect.

In some special circumstances, when the first drive seat 212 and the second rotating stand 221 need asynchronous transmission, first Asynchronous transmission can be realized between drive seat 212 and the second rotating stand 221 by the second driving piece 223；When the second drive seat 222 When needing asynchronous transmission with the first rotating stand 211, first can be passed through between the second drive seat 222 and the first rotating stand 211 Driving piece 213 realizes asynchronous transmission.

200 mounting structure of carbon tape box further includes the first input shaft 214 and the second input shaft 224；First input shaft 214 It is rotatably connected with carbon tape box 200, one end of the first input shaft 214 is located at outside carbon tape box 200, first input shaft 214 The other end is located in carbon tape box 200, and first drive seat, 212 and first input shaft 214, which rotates synchronously, to be connected, described first turn 211 and first input shaft 214 rotation connection of dynamic bearing；Second input shaft 224 is rotatably connected with carbon tape box 200, and second One end of input shaft 224 is located at outside carbon tape box 200, and the other end of second input shaft 224 is located in carbon tape box 200, described Second drive seat 222 and the second input shaft 224, which rotate synchronously, to be connected, 224 turns of second rotating stand 221 and the second input shaft Dynamic connection, transmission is simple, compact-sized.

First drive seat 212 is equipped with the first rotation stop hole 212a, and first rotating stand 211 is equipped with the first transfer hole 211a, the first drive seat 212 are socketed on by the first rotation stop hole 212a on the first input shaft 214 and same with the first input shaft 214 Step is rotatably assorted, the first rotating stand 211 be sheathed on the first input shaft 214 by the first transfer hole 211a and with it is first defeated Enter axis 214 rotatably to coordinate；Second drive seat 222 is equipped with the second rotation stop hole 222a, and second rotating stand 221 is set There is the second transfer hole 221a, the second drive seat 222 is socketed on the second input shaft 224 by the second rotation stop hole 222a and with second Input shaft 224 rotates synchronously cooperation, and the second rotating stand 221 is sheathed on the second input shaft 224 by the second transfer hole 221a Above and with the second input shaft 224 rotatably coordinate, mounting structure is simple, and transmission is effective.

200 mounting structure of carbon tape box further includes first gear 215 and second gear 225, and the first gear 215 is located at Outside carbon tape box 200, first gear 215 and the first input shaft 214 are rotated synchronously and are connected, and the first gear 215 is used for and printing The transmission cooperation of machine driving mechanism；The second gear 225 is located at outside carbon tape box 200, second gear 225 and the second input shaft 224 Connection is rotated synchronously, the second gear 225 is used to coordinate with printer driver mechanism driving, reduces drive mechanism to carbon ribbon The influence of volume, it is simple in structure.

The carbon tape box 200 is equipped with the first supported hole 201 and the second supported hole 202；It is set in first supported hole 201 There are the first rolling bearing 216, first input shaft 214 to be installed in the first rolling bearing 216；Second supported hole 202 It is inside equipped with the second rolling bearing 226, second input shaft 224 is installed in the second rolling bearing 226.Rolling bearing is set It sets, reduces the rotary resistance of the first input shaft 214, the second input shaft 224.

Specifically, 200 mounting structure of carbon tape box further includes the first positioning column 241 and the second positioning column 242, the first positioning column 241 is corresponding with the first rotating stand 211, and the first positioning column 241 is used to abut positioning, the first rotation with one end of carbon ribbon recycling volume The other end for being rolled up with carbon ribbon recycling of bearing 211 abuts transmission；Second positioning column 242 is corresponding with the second rotating stand 221, With for abutting positioning with one end of carbon ribbon supply volume, the second rotating stand 221 is used to supply with carbon ribbon and roll up second positioning column 242 The other end abut transmission.

Further, the first positioning column 241 and the second positioning column 242 slidably coordinate with carbon tape box 200, the first positioning column 241 can slide to the direction closer or far from the first rotating stand 211；Second positioning column 242 can be to closer or far from second turn The direction sliding of dynamic bearing 221 facilitates the dismounting of carbon ribbon supply volume and carbon ribbon recycling volume.

Further, carbon tape box 200 is equipped with the first sliding eye 241a and the second sliding eye 242a, the first positioning column 241 are worn It is slidably matched in the first sliding eye 241a and with the first sliding eye 241a, is equipped between carbon tape box 200 and the first positioning column 241 One end of first resilient thrusting member 251, the first resilient thrusting member 251 is abutted with carbon tape box 200, the other end of the first resilient thrusting member 251 It is abutted with the first positioning column 241, the first resilient thrusting member 251 is for pushing the first positioning column 241 to close to the first rotating stand 211 Direction sliding；Second positioning column 242 is arranged in the second sliding eye 242a and is slidably matched with the second sliding eye 242a, carbon tape box 200 and second are equipped with the second resilient thrusting member 252 between rotating stand 221, and one end and the carbon tape box 200 of the second resilient thrusting member 252 support It connects, the other end of the second resilient thrusting member 252 is abutted with the second positioning column 242, and the second resilient thrusting member 252 is for pushing the second positioning Column 242 is slided to close to the direction of the second rotating stand 221.

In conjunction with Fig. 2, Fig. 5, the carbon tape box 200 is equipped with the first installing port 203 and the second installing port 204, the first installing port 203 and second installing port 204 be located at carbon ribbon supply volume carbon ribbon recycling volume between carbon ribbon both sides, print panel 100 Equipped with print head corresponding with the first installing port 203 and the second installing port 204 260；The print head 260 passes through the first installing port 203 and second installing port 204 protrude from outside carbon tape box 200, print head 260 be used for carbon ribbon supply volume carbon ribbon recycling volume between Carbon ribbon abut.For carbon tape box 200 when to close to the printing movement installation of panel 100, print head 260 is sequentially passing through the first peace It is abutted with carbon ribbon after dress mouth 203 and the second installing port 204 and carbon ribbon is overhanged into carbon tape box 200.

In conjunction with Fig. 2, the print head 260 is equipped with the first guide protrusions 261a and the second guide protrusions 261b, and described first Guide protrusions 261a and the second guide protrusions 261b is along the axially spaced-apart setting of carbon ribbon supply volume, the first guide protrusions 261a And second guide protrusions 261b be used for carbon ribbon supply volume carbon ribbon recycling volume between carbon ribbon coordinate.First guide protrusions 261a It can be to carrying out mobile guide by the carbon ribbon of print head 260 with the second guide protrusions 261b.

In conjunction with Fig. 6, Fig. 7, the present invention also provides a kind of printer, including paper feed portion 400 and printing portion 500, printing portion 500 Including the carbon ribbon box mounting structure, the first paper feed channel 420 is formed between the paper feed portion 400 and printing portion 500, it is described Paper feed portion 400 is equipped with marking roll 410 close to the side of printing portion 500, and the print head 260 of the printing portion 500 is beaten with described Print roller 410 is oppositely arranged, and type channel 440, the paper feed portion 400 are formed between the marking roll 410 and the print head 260 It is inside equipped with the second paper feed channel 430, first paper feed channel 420, second paper feed channel 430 are logical with the printing Road 440 is connected to, and the paper feed portion 400 includes the first driving mechanism, and first driving mechanism is for respectively driving printing paper 910 move in first paper feed channel, 420 or described second paper feed channel 430, and the printing portion 500 includes the second driving Mechanism 520, second driving mechanism, 520 and first drive seat 212 or the transmission cooperation of the second drive seat 222.

Above-mentioned printer can drive the first printing paper when needing to switch printing paper 910 first with the first driving mechanism 910 are retracted by type channel 440 to the first paper feed channel 420, while the second driving mechanism 520 drives the second drive seat 222 Make carbon ribbon 920 and 910 synchronized callback of above-mentioned printing paper, make the partial rollback printed on carbon ribbon 920, recycles the second driving machine Structure 520 drives another printing paper 910 to be advanced in type channel 440 by the second paper feed channel 430, and the second driving mechanism 520 is driven Dynamic first drive seat 212 makes the process that carbon ribbon 920 advances again with 910 advanced in unison of above-mentioned printing paper, is not beaten on carbon ribbon 920 The part of print will not stretch out type channel 440, cause the waste of carbon ribbon 920, while carbon ribbon 920 is synchronous with the printing papers 910 of volume two It is mobile, it will not cause to rub between carbon ribbon 920 and printing paper 910, cause the abrasion to carbon ribbon 920.

In conjunction with Fig. 8, second driving mechanism 520 includes first motor 521 and the second motor 522, the first motor 521 and first the transmission of drive seat 212 coordinate, the transmission cooperation of second motor, 522 and second drive seat 222, described first is electric Machine 521 and second motor 522 are single steering motor.When carbon ribbon 920 advances, marking roll 410 and print head 260 coordinate Driving printing paper 910 marches forward, and it is actively to prop up that first motor 521, which drives the rotation of the first drive seat 212, the first drive seat 212, Seat, the second rotating stand 221 are driven bearing, and the first rotating stand 211 rotates forward, and the second rotating stand 221 passes through carbon ribbon 920 rotate forward.When carbon ribbon 920 retracts, marking roll 410 and the cooperation driving printing paper 910 of print head 260 are drawn back, and second Motor 522 drives the rotation of the second drive seat 222, and the second drive seat 222 is active bearing, the first rotating stand 211 is driven branch Seat, the second rotating stand 221 rotate forward, and the first rotating stand 211 is rotated backward by carbon ribbon 920.Pass through the first electricity of selection Machine 521 or the mode that the second motor 522 is active bearing realize rotating forward and rotating backward for carbon ribbon 920, and then realize carbon Take back the retractable of winding and carbon ribbon supply volume.

Specifically, above-mentioned first motor 521 and the second motor 522 be set to printing panel 100 on, first motor 521 with The engaged transmission of first gear 215 on first input shaft 214, the second gear on the second motor 522 and the second input shaft 224 225 engaged transmissions.

In conjunction with Fig. 9, in other embodiments, the second driving mechanism 520 includes third motor 523, the third motor 523 It is driven and coordinates with the second drive seat 222, first drive seat 212 coordinates with the transmission of marking roll 410.The volume of carbon ribbon supply at this time Rotation controlled by third motor 523, and the rotation of carbon ribbon recycling volume can pass through the biography of the first drive seat 212 and marking roll 410 Dynamic cooperation control, can facilitate control at this time.Specifically, in the present embodiment, third motor 523 makes by second gear 225 Two drive seats 222 rotate.

Further, the transmission cooperation of the marking roll 410 and the first drive seat 212 can be gear engaged transmission.Gear The transmission stability of transmission is good, is conducive to improve printing effect.Specifically, the end set of the marking roll 410 has third tooth Wheel 411, marking roll 410 and the first drive seat 212 pass through the 4th gear 524 between third gear 411 and first gear 215 Engaged transmission.

Further, the printing portion 500 further includes first panel, and the paper feed portion 400 further includes second panel 600 and Three panels 700；Plate face relative spacing is arranged successively for the first panel, second panel 600 and third panel 700, first panel First paper feed channel 420 is cooperatively formed with second panel 600, second panel 600 and third panel 700 cooperatively form described Second paper feed channel 430；The first panel is equipped with the first perforation, and the second panel 600 is equipped with third perforation 610 and with the Corresponding second perforation of one perforation.In conjunction with Figure 10, Figure 11, the third panel 700 is equipped with and third perforation 610 the corresponding 4th Perforation 710；First connecting pole is arranged in the first perforation and the second perforation, is spaced and is set in the axial direction of first connecting pole It being equipped with the first abutting block and second and abuts block, the first abutting block is abutted with side of the first panel far from second panel 600, The second abutting block is abutted with side of the second panel 600 far from first panel；Second connecting pole 800 is arranged in third In perforation 610 and the 4th perforation 710, it is arranged at intervals with third in the axial direction of second connecting pole 800 and abuts block 810 and the 4th Block 820 is abutted, the third abuts block 810 and abutted with side of the second panel 600 far from third panel 700, and the described 4th supports Block 820 is connect to abut with side of the third panel 700 far from second panel 600.On first connecting pole and the second connecting pole 800 First abutting block, the second abutting block, the third abutting abutting block 820 of block 810 and the 4th can correct first panel, second panel 600 And the cooperation spacing of third panel 700, make paper feed interchannel away from uniform, and then reduce the first paper feed channel 420 and second and walk The height change in paper channel 430 improves guiding of the strip-like carrier in the first paper feed channel 420 and the second paper feed channel 430 Property, improve the smoothness of strip-like carrier paper feed in printer.

Further, first connecting pole and the first perforation and the rotatable cooperation of the second perforation, described the is biperforate interior Wall is equipped with the first straight slot for abutting block cooperation with second, and first straight slot is arranged along the direction of the second perforation to the first perforation； When first connecting pole goes to first position, the second abutting block is corresponding with the first straight slot, and the first connecting pole can be in the second perforation To the square upward sliding of the first perforation；When first connecting pole goes to the second position, described second abuts block and the disengaging of the first straight slot, Second abutting block is abutted with side of the second panel 600 far from first panel.In conjunction with Figure 12, Figure 13, second connecting pole 800 With third perforation 610 and the 4th rotatably cooperation of perforation 710, the inner wall of the third perforation 610 is equipped with abuts block with third Second straight slot 711 of 810 cooperations, second straight slot 711 are arranged along the direction of third perforation 610 to third perforation 610；The When two connecting poles 800 go to first position, the described 4th abuts that block is corresponding with the second straight slot 711, and the second connecting pole 800 can be the Square upward sliding of four perforation 710 to third perforation 610；When second connecting pole 800 goes to the second position, the described 4th abuts block 820 and second straight slot 711 be detached from, the 4th abutting block 820 is abutted with side of the third panel 700 far from second panel 600.Pass through Rotation and the first connecting pole of sliding realize the dismounting of the first connecting pole and second panel 600, by rotating and sliding the second company Connecing column 800 realizes the dismounting of the second connecting pole 800 and third panel 700.

Further, it described second abuts there are two blocks, two second abutting block being provided at circumferentially spaced along the first connecting pole； There are two first straight slots, and two the first straight slots abut block with two second and correspond；The 4th abutting block 820 has two It is a, two the 4th abutting being provided at circumferentially spaced along the second connecting pole 800 of block 820；There are two second straight slots 711, two Second straight slot 711 abuts block 820 with two the 4th and corresponds.Second abuts the increase of number of blocks, increases the second abutting block The stability abutted with second panel 600, the 4th abuts the increase of 820 quantity of block, increases the 4th abutting block 820 and third face The stability that plate 700 abuts.

Further, the first panel and first abut block between be equipped with the first elastic component, the one of first elastic component Side is abutted with first panel, and the other side of first elastic component abuts block with first and abuts；The second panel 600 and third It is equipped with the second elastic component 830 between abutting block 810, the side of second elastic component 830 is abutted with second panel 600, described The other side of second elastic component 830 abuts the abutting of block 810 with third.The first elasticity between first panel and the first abutting block Part can overcome the disadvantages that the second abutting block abuts the gap between block and first panel with second panel 600, first, make the first connecting pole It is in stable state with the link position relationship of first panel and second panel 600.Second panel 600 and third abut block 810 Between the second elastic component 830 can overcome the disadvantages that the 4th abutting block 820 abut block 810 and second panel with third panel 700, third Gap between 600 makes the second connecting pole 800 be in second panel 600 and the link position relationship of third panel 700 and stablizes State.

Further, side of the first panel far from second panel 600 is equipped with the first limit for abutting block cooperation with first Position portion and the second limiting section；When the first abutting block is abutted with the first limiting section, the second abutting block is corresponding with the first straight slot, the One connecting pole can be in the second perforation to the square upward sliding of the first perforation；When the first abutting block is abutted with the second limiting section, Second abuts block and the disengaging of the first straight slot, and the second abutting block is abutted with side of the second panel 600 far from first panel.In conjunction with figure 11, side of the second panel 600 far from third panel 700 is equipped with the third limiting section 621 that the cooperation of block 810 is abutted with third With the 4th limiting section 622；When the third abutting block 810 is abutted with third limiting section 621, the 4th, which abuts block 820 and second, leads to Slot 711 corresponds to, and the second connecting pole 800 can be in the 4th perforation 710 to the square upward sliding of third perforation 610；The third abuts When block 810 is abutted with the 4th limiting section 622, the 4th abuts block 820 and the disengaging of the second straight slot 711, and the 4th abuts block 820 and third Side of the panel 700 far from second panel 600 abuts.The setting of first limiting section and the second limiting section facilitates and judges that second supports Block and the first straight slot position matching are connect, the setting of third limiting section 621 and the 4th limiting section 622 facilitates and judges that the 4th supports Connect 711 position matching of block 820 and the second straight slot.

Further, side of the first panel far from second panel 600 is equipped with the first arc for abutting block cooperation with first One end of shape convex block, first arc bump is first limiting section, and the other end of first arc bump is described Second limiting section；Side of the second panel 600 far from third panel 700, which is equipped with, abuts the second of the cooperation of block 810 with third One end of arc bump 620, second arc bump 620 is the third limiting section 621, second arc bump 620 The other end be the 4th limiting section 622.The both ends of first arc bump are respectively the first limiting section and the second limiting section, The cooperation for abutting block with first by the first arc bump limits the slewing area of the first abutting block, facilitates control second and supports Connect the position relationship of block and the first straight slot；The both ends of second arc bump 620 are respectively third limiting section 621 and the 4th limiting section 622, the cooperation for abutting block 810 with third by the second arc bump 620 limits the slewing area that third abuts block 810, side Control the 4th abut block 820 and the second straight slot 711 position relationship.

Further, one end that the first abutting block abuts block far from second is equipped with the first guiding with the second perforation cooperation The conical surface；Described second abuts block abuts one end of block 820 equipped with the second guide cones with 710 cooperation of the 4th perforation far from the 4th Face 821.First is oriented to the setting of the conical surface, facilitates the second abutting block and biperforate installation；The second guiding conical surface 821 is set It sets, facilitates the installation of the 4th abutting block 820 and the 4th perforation 710.

Further, the first abutting block is equipped with first coordinated with second panel 600 close to one end of the second abutting block Guide surface is abutted, the first abutting guide surface is obliquely installed with respect to the rotation direction of the first connecting pole.In conjunction with Figure 13, described Three abutting blocks 810 are equipped with and second panel 600 coordinates second abuts guide surface 822 close to one end of the second abutting block, described Second abutting guide surface 822 is obliquely installed with respect to the rotation direction of the second connecting pole 800.It is simple in structure, facilitate the first connection Column and the second connecting pole 800 go to first position from the second position.

Further, first connecting pole is equipped with the first locating part coordinated with first panel, first locating part position Between first panel and second panel 600, the first locating part is for limiting the first connecting pole in the second perforation to the first perforation The range of square upward sliding；Second connecting pole 800 is equipped with the second locating part 840 coordinated with second panel 600, described Second locating part 840 is between second panel 600 and third panel 700, and the second locating part 840 is for limiting the second connecting pole 800 in the 4th perforation 710 to the range of third 610 side's upward slidings of perforation.The setting of first locating part limits the first connection Column, to the sliding scale in the first perforation direction, avoids the first connecting pole and is detached from first panel in the second perforation；Second locating part 840 setting limits sliding scale of second connecting pole 800 in the 4th perforation 710 to 610 directions of third perforation, avoids Second connecting pole 800 is detached from second panel 600.

It should be noted that the first connecting pole does not show in the accompanying drawings with the connecting installation structure of first panel and second panel Go out, the mounting structure of the first connecting pole is referred to the installation of the second connecting pole 800 and second panel and third panel in attached drawing Mechanism.

In conjunction with Fig. 7, print head 260 includes structural member 261, heating member 262, and structural member 261 is set to printing panel 100 On, structural member 261 sequentially passes through the first installing port 203 and the second installing port 204, and heating member 262 is set on structural member 261 and leans on The side of nearly marking roll 410, heating member 262 constitute the type channel 440, structural member 261 with the cooperation of the marking roll 410 The both sides of upper heating member 262 are respectively equipped with cambered surface part 263 and support flat bar 264.Cambered surface part 263 can guarantee that carbon ribbon 920 passes through cambered surface The process of part 263 is more smooth, while supportting flat bar 264 and being located at the both sides of heating member 262 with cambered surface part 263, it is ensured that carbon ribbon 920 It is fully evened up, improves subsequent printing effect.

Specifically, above-mentioned first guide protrusions 261a and the second guide protrusions 261b are respectively arranged on structural member 261.

Specifically, the carbon ribbon of the carbon ribbon support portion of flat bar 264, the carbon ribbon support portion of heating member 262 and cambered surface part 263 is supportted Support portion is in fold-line-shaped, and the carbon ribbon 920 by supportting flat bar 264, heating member 262 and cambered surface part 263 is coated on marking roll with part On 410, so makes carbon ribbon 920 more abundant with print head 260 and by the contact of the printing paper of marking roll 410, not will produce pleat Wrinkle, printing effect are more preferable.

Further, nutted rod 265 is equipped in the carbon tape box 200, the opposite flat bar 264 that supports of nutted rod 265 is set to heating The other side of part 262.Nutted rod 265 can guarantee that carbon ribbon 920 keeps tensioning state in moving process, prevent skidding or pleat Situations such as wrinkle, is conducive to further increase printing effect.

The present invention also provides a kind of printer control methods to be included the following steps using above-mentioned printer：

First driving mechanism drives the first printing paper 910 to retract, and the first printing paper 910 is made to be retracted extremely by type channel 440 In first paper feed channel 420, the second driving mechanism 520 drives carbon ribbon 920 and 910 synchronized callback of the first printing paper；

First driving mechanism drive the second printing paper 910 advance, make the second printing paper 910 by the second paper feed channel 430 before It proceeds in type channel 440, the second driving mechanism 520 drives carbon ribbon 920 and 910 advanced in unison of the second printing paper.

Above-mentioned printer control method, carbon ribbon 920 are unprinted on carbon ribbon 920 by retracting and the process advanced again Part will not stretch out type channel 440, avoid the waste of printing paper 910.

Further, above-mentioned second driving mechanism 520 drives carbon ribbon 920 and 910 synchronized callback of the first printing paper, specifically includes Following steps：After second driving mechanism 520 drives carbon ribbon 920 and the first printing paper 910 synchronized callback to the first precalculated position, the Two driving mechanisms 520 drive carbon ribbon 920 to stop, wherein the first precalculated position is located in the first paper feed channel 420, and first is pre- Positioning is setting in the second paper feed channel 430 and side of 440 intersection of type channel far from type channel 440.

The first printing paper 910 retracts to the first paper feed channel 420 at this time, will not be made to the advance of the second printing paper 910 At interference.

Further, above-mentioned second driving mechanism 520 drives carbon ribbon 920 and 910 advanced in unison of the second printing paper, specifically includes Following steps：After second printing paper 910 advances to the second precalculated position, the second driving mechanism 520 drives carbon ribbon 920 and second 910 advanced in unison of printing paper, wherein the second precalculated position is located in the second paper feed channel 430, and the second precalculated position is pre- with first The paper feed of positional distance type channel 440 is determined apart from equal.

Since the paper feed of the first precalculated position and the second precalculated position apart from type channel 440 is apart from equal, then carbon ribbon 920 The distance that the first printing paper 910 retracts is followed to be followed with carbon ribbon 920 equal at a distance from the advance of second printing paper 910, it is ensured that carbon When band 920 and the second printing paper 910 are advanced in type channel 440, the intersection for not printing and having printed on carbon ribbon 920 is just In type channel 440, the waste of carbon ribbon 920 will not be caused, while being moved through in above-mentioned printing paper 910 and carbon ribbon 920 Relative friction will not occur between printing paper 910 and carbon ribbon 920 for Cheng Zhong.

Further, it after above-mentioned second driving mechanism 520 drives carbon ribbon 920 and 910 advanced in unison of the second printing paper, also wraps Include following steps：

When the second printing paper 910 advances in type channel 440, print head 260 starts print job.

Print head 260 will not work during the first printing paper 910 switches with the second printing paper 910 at this time, more power saving.

Each technical characteristic of embodiment described above can be combined arbitrarily, to keep description succinct, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, it is all considered to be the range of this specification record.

Several embodiments of the invention above described embodiment only expresses, the description thereof is more specific and detailed, but simultaneously It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art It says, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to the protection of the present invention Range.Therefore, the protection domain of patent of the present invention should be determined by the appended claims.

Claims (29)

1. a kind of carbon ribbon box mounting structure, which is characterized in that including printing panel, carbon tape box and limited block, the carbon tape box and Limited block is set to the same side of printing panel, and the carbon tape box is set on printing panel, and the printing panel is equipped with positioning Structure, for the location structure for limiting carbon tape box lateral or longitudinal movement on printing panel, the limited block can relative carbon Tape drum moves；

At first position, carbon tape box is located between limited block and printing panel limited block, and limited block is limited with printing panel cooperation Carbon tape box processed is moved to the direction far from printing panel；

For limited block at the second position, limited block is detached from carbon tape box, and carbon tape box can be moved to the direction far from printing panel.

2. carbon ribbon box mounting structure according to claim 1, which is characterized in that the location structure includes the first positioning Portion, the second positioning region, third positioning region and the 4th positioning region；

First positioning region and third positioning region are arranged at intervals on the both lateral sides of carbon tape box, the first positioning region and third positioning The transverse shifting of portion's cooperation limitation carbon tape box；Second positioning region and the 4th positioning region are arranged at intervals on longitudinal the two of carbon tape box Side, the longitudinal movement of second positioning region and the 4th positioning region cooperation limitation carbon tape box.

3. carbon ribbon box mounting structure according to claim 2, which is characterized in that

The printing panel is equipped with deep gouge, and the carbon tape box is set in deep gouge, and the side wall of deep gouge both lateral sides is respectively described The side wall of first positioning region and the third positioning region, deep gouge longitudinal direction both sides is second positioning region and the 4th positioning Portion；

Or the printing panel is equipped with first partition, second partition, third partition board and the 4th partition board, the first partition and third Baffle interval is set to the both sides of carbon tape box transverse direction, and first partition is first positioning region, and third partition board is fixed for the third Position portion, second partition and the 4th baffle interval are set to the both sides of carbon tape box longitudinal direction, and second partition is second positioning region, the Four partition boards are the 4th positioning region.

4. carbon ribbon box mounting structure according to claim 1, which is characterized in that the limited block, which is slidably disposed in, to be beaten It prints on panel.

5. carbon ribbon box mounting structure according to claim 4, which is characterized in that further include return unit, the return unit One end is abutted with printing panel, and the other end of the return unit is abutted with limited block, and return unit is used to drive limited block to close It moves in the direction of carbon tape box.

6. carbon ribbon box mounting structure according to claim 5, which is characterized in that the printing panel is equipped with guide groove, limit Position block is slidably matched with guide groove, and the return unit is set in guide groove, and one end of elastic component is abutted with the cell wall of guide groove, The other end of return unit is abutted with limited block.

7. according to claim 1-6 any one of them carbon ribbon box mounting structures, which is characterized in that there are two the limited blocks, Two limited blocks are arranged at intervals at the opposite sides of the carbon tape box.

8. carbon ribbon box mounting structure according to claim 1, which is characterized in that be equipped with rotatable the in the carbon tape box One rotating stand and the second rotating stand, first rotating stand and the second rotating stand are spaced setting side by side；Described first Rotating stand is used to recycle volume transmission cooperation with carbon ribbon, and second rotating stand is used to supply volume transmission cooperation with carbon ribbon.

9. carbon ribbon box mounting structure according to claim 8, which is characterized in that further include rotatably being set in carbon tape box The first drive seat and the second drive seat, the transmission of first drive seat and the first rotating stand coordinates, second drive seat It is driven and coordinates with the second rotating stand；

When the first drive seat is active bearing, the second rotating stand is driven bearing, the first rotating stand rotates forward, and second Rotating stand is rotated forward by carbon ribbon；

When the second rotating stand is active bearing, the first rotating stand is driven bearing, the second rotating stand rotates backward, the One rotating stand is rotated backward by carbon ribbon.

10. carbon ribbon box mounting structure according to claim 9, which is characterized in that first drive seat and the first rotation The first driving piece is equipped between bearing, the side of the first driving piece is abutted with the first drive seat, the other side of the first driving piece It is abutted with the first rotating stand；

The second driving piece is equipped between second drive seat and the second rotating stand, the side of the second driving piece is driven with second Dynamic seat abuts, and the other side of the second driving piece is abutted with the second rotating stand.

11. carbon ribbon box mounting structure according to claim 9 or 10, which is characterized in that further include the first input shaft and Two input shafts；

First input shaft is rotatably connected with carbon tape box, and one end of the first input shaft is located at outside carbon tape box, and described first is defeated The other end for entering axis is located in carbon tape box, and first drive seat is rotated synchronously with the first input shaft and connected, first rotation Bearing and the first input shaft are rotatablely connected；

Second input shaft is rotatably connected with carbon tape box, and one end of the second input shaft is located at outside carbon tape box, and described second is defeated The other end for entering axis is located in carbon tape box, and second drive seat is rotated synchronously with the second input shaft and connected, second rotation Bearing and the second input shaft are rotatablely connected.

12. carbon ribbon box mounting structure according to claim 11, which is characterized in that first drive seat is stopped equipped with first Turn hole, first rotating stand are equipped with the first transfer hole, and the first drive seat is socketed on the first input shaft by the first rotation stop hole It is upper and rotate synchronously and coordinate with the first input shaft, the first rotating stand be sheathed on the first input shaft by the first transfer hole and with First input shaft rotatably coordinates；

Second drive seat is equipped with the second rotation stop hole, and second rotating stand is equipped with the second transfer hole, and the second drive seat is logical It crosses the second rotation stop hole and is socketed on the second input shaft and is rotated synchronously with the second input shaft and coordinate, the second rotating stand passes through second Transfer hole is sheathed on the second input shaft and rotatably coordinates with the second input shaft.

13. carbon ribbon box mounting structure according to claim 11, which is characterized in that further include first gear and the second tooth Wheel,

The first gear is located at outside carbon tape box, and first gear is rotated synchronously with the first input shaft and connected, and the first gear is used Coordinate in printer driver mechanism driving；

The second gear is located at outside carbon tape box, and second gear is rotated synchronously with the second input shaft and connected, and the second gear is used Coordinate in printer driver mechanism driving.

14. carbon ribbon box mounting structure according to claim 11, which is characterized in that the carbon tape box is equipped with the first supported hole With the second supported hole；

The first rolling bearing is equipped in first supported hole, first input shaft is installed in the first rolling bearing；

The second rolling bearing is equipped in second supported hole, second input shaft is installed in the second rolling bearing.

15. carbon ribbon box mounting structure according to claim 8, which is characterized in that the carbon tape box is equipped with the first installing port With the second installing port, first installing port and the second installing port are correspondingly arranged, and the first installing port and the second installing port distinguish position The both sides of the carbon ribbon between volume and carbon ribbon recycling volume are supplied in carbon ribbon；

It prints panel and is equipped with print head corresponding with the first installing port and the second installing port, the print head passes through the first installing port It is protruded from outside carbon tape box with the second installing port, print head is used to abut the carbon ribbon that carbon ribbon is supplied between volume and carbon ribbon recycling volume.

16. carbon ribbon box mounting structure according to claim 15, which is characterized in that it is convex that the print head is equipped with the first guiding It rises and the second guide protrusions, first guide protrusions and the second guide protrusions is along the axially spaced-apart setting of carbon ribbon supply volume, institute It states the first guide protrusions and the second guide protrusions is used to coordinate with the carbon ribbon that carbon ribbon is supplied between volume and carbon ribbon recycling volume.

17. a kind of printer, which is characterized in that including paper feed portion and printing portion, the printing portion includes that claim 9-14 appoints Carbon ribbon box mounting structure described in one forms the first paper feed channel, the paper feed between the paper feed portion and the printing portion Portion is equipped with marking roll close to the side of the printing portion, and the print head of the printing portion is oppositely arranged with the marking roll, institute It states and forms type channel between marking roll and the print head, the second paper feed channel is equipped in the paper feed portion, described first walks Paper channel, second paper feed channel are connected to the type channel, and the paper feed portion includes the first driving mechanism, and described the One driving mechanism is moved for respectively driving printing paper in first paper feed channel or second paper feed channel, described to beat Print portion includes the second driving mechanism, and second driving mechanism coordinates with the first drive seat or the transmission of the second drive seat.

18. printer according to claim 17, which is characterized in that second driving mechanism includes first motor and Two motors, the first motor coordinate with the transmission of the first drive seat, and second motor and the transmission of the second drive seat coordinate, described First motor and second motor are single steering motor.

19. printer according to claim 17, which is characterized in that second driving mechanism includes third motor, institute It states third motor and the transmission of the second drive seat coordinates, first drive seat coordinates with marking roll transmission.

20. printer according to claim 19, which is characterized in that the marking roll engages biography with the first drive seat gear It is dynamic.

21. printer according to claim 17, which is characterized in that the printing portion further includes first panel, it is described walk Paper portion further includes second panel and third panel；Plate face relative spacing is arranged successively for first panel, second panel and third panel, Institute's first panel and second panel cooperatively form first paper feed channel, and second panel and third panel cooperatively form described Two paper feed channels；The first panel be equipped with first perforation, the second panel be equipped with third perforate and it is corresponding with the first perforation Second perforation, the third panel be equipped with it is corresponding with third perforation the 4th perforation；

It is equipped with the first connecting pole in first perforation and the second perforation, is arranged at intervals in the axial direction of first connecting pole First abuts block and second abuts block, and the first abutting block is abutted with side of the first panel far from second panel, and described the Two abutting blocks are abutted with side of the second panel far from first panel；

It is equipped with the second connecting pole in the third perforation and the 4th perforation, is arranged at intervals in the axial direction of second connecting pole Third abuts block and the 4th abuts block, and the third abuts block and abutted with side of the second panel far from third panel, and described the Four abutting blocks are abutted with side of the third panel far from second panel.

22. printer according to claim 21, which is characterized in that first connecting pole is worn with the first perforation and second Hole rotatably coordinates, and biperforate inner wall is equipped with the first straight slot for abutting block cooperation with second, first straight slot edge The direction of second perforation to the first perforation is arranged；When first connecting pole goes to first position, described second, which abuts block and first, leads to Slot corresponds to, and the first connecting pole can be in the second perforation to the square upward sliding of the first perforation；When first connecting pole goes to the second position, Described second abuts block and the disengaging of the first straight slot, and the second abutting block is abutted with side of the second panel far from first panel；

Second connecting pole is perforated with third and the rotatable cooperation of the 4th perforation, and the inner wall of the third perforation is equipped with and third The second straight slot of block cooperation is abutted, second straight slot is arranged along the direction that third perforation to third is perforated；Second connecting pole turns When to first position, the 4th abutting block is corresponding with the second straight slot, and the second connecting pole can be in the 4th perforation to third perforation Square upward sliding；When second connecting pole goes to the second position, the described 4th, which abuts block and the second straight slot, is detached from, the 4th abut block and Side of the third panel far from second panel abuts.

23. printer according to claim 22, which is characterized in that described second abuts there are two blocks, and two second are supported Connect block being provided at circumferentially spaced along the first connecting pole；There are two first straight slots, and two the first straight slots are abutted with two second Block corresponds；

Described 4th abuts there are two blocks, two the 4th abutting block being provided at circumferentially spaced along the second connecting pole；Described second is logical There are two slots, and two the second straight slots abut block with two the 4th and correspond.

24. printer according to claim 21, which is characterized in that be equipped between the first panel and the first abutting block The side of first elastic component, first elastic component is abutted with first panel, and the other side of first elastic component is supported with first Connect block abutting；

The second panel and third are equipped with the second elastic component, the side of second elastic component and second panel between abutting block It abuts, the other side of second elastic component abuts block abutting with third.

25. printer according to claim 22, which is characterized in that side of the first panel far from second panel is set There are the first limiting section and the second limiting section for abutting block cooperation with first；When the first abutting block is abutted with the first limiting section, Second abuts the square upward sliding that block is corresponding with the first straight slot, and the first connecting pole can perforate in the second perforation to first；Described When one abutting block is abutted with the second limiting section, second abuts block and the disengaging of the first straight slot, and the second abutting block and second panel are separate An example of first panel abuts；

Side of the second panel far from third panel is equipped with the third limiting section that block cooperation is abutted with third and the 4th limit Portion；When the third abuts block and abutted with third limiting section, the 4th abutting block is corresponding with the second straight slot, and the second connecting pole can be the Square upward sliding of four perforation to third perforation；When the third abuts block and is abutted with the 4th limiting section, the 4th abutting block and the Two straight slots are detached from, and the 4th abutting block is abutted with side of the third panel far from second panel.

26. printer according to claim 25, which is characterized in that side of the first panel far from second panel is set There is the first arc bump for abutting block cooperation with first, one end of first arc bump is first limiting section, described The other end of first arc bump is second limiting section；

Side of the second panel far from third panel is equipped with and abuts the second arc bump that block coordinates with third, and described second One end of arc bump is the third limiting section, and the other end of second arc bump is the 4th limiting section.

27. printer according to claim 22, which is characterized in that described first abuts one that block abuts block far from second End is equipped with is oriented to the conical surface with the first of the second perforation cooperation；

Described second abuts the one end of block far from the 4th abutting block is oriented to the conical surface equipped with second with the 4th perforation cooperation.

28. printer according to claim 22, which is characterized in that described first abuts one that block abuts block close to second End is equipped with and second panel coordinate first abuts guide surface, and the first abutting guide surface is relative to the rotation side of the first connecting pole To being obliquely installed；

The third abuts block and is equipped with and second panel coordinates second abuts guide surface close to one end of the second abutting block, described Second abutting guide surface is obliquely installed with respect to the rotation direction of the second connecting pole.

29. printer according to claim 22, which is characterized in that first connecting pole is equipped with to be coordinated with first panel The first locating part, first locating part is between first panel and second panel, and the first locating part is for limiting first Range of the connecting pole in the second perforation to first perforation side's upward sliding；

Second connecting pole is equipped with the second locating part for coordinate with second panel, second locating part be located at second panel with Between third panel, the second locating part is used to limit the model that the second connecting pole arrives third perforation side upward sliding in the 4th perforation It encloses.