KR20210079592A - Take-up reel operator for thermal sublimation printer - Google Patents

Abstract

The present invention relates to a ribbon take-up reel driving apparatus for a dye sublimation printer and, more specifically, to a ribbon take-up reel driving apparatus for a dye sublimation printer, capable of organically controlling the ascent of a pickup roller, the ascent of a flatten roller and the driving of a take-up reel gear in accordance with the forward/backward movement of a slide plate. In accordance with the present invention, the ribbon take-up reel driving apparatus, which is a ribbon take-up reel driving apparatus for a dye sublimation printer selectively driving a take-up reel gear combined with a winding reel for winding a ribbon, includes: a feed gear combined with a feed roller rotated bidirectionally; a swing lever combined with a shaft of the feed roller to be rotated bidirectionally, and having a swing control groove formed horizontally; a swing gear combined with the swing lever to be regularly geared to the feed gear, and selectively geared to or ungeared from the take-up reel gear in accordance with a rotating direction of the swing lever; and a gearing keeping member connecting a flatten roller provided to be liftable in a lower part of a head, with the shaft of the feed roller.

Description

Ribbon take-up reel drive device for dye-sublimation printer {TAKE-UP REEL OPERATOR FOR THERMAL SUBLIMATION PRINTER}

The present invention relates to a ribbon take-up reel driving device for a dye-sublimation printer, and more particularly, organically controlling the lifting and lowering of the pickup roller, the lifting and lowering of the platen roller, and the driving of the take-up reel gear according to the advance and retreat of the slide plate It relates to a ribbon take-up reel drive device of a dye sublimation printer that can do this.

In a dye sublimation printer, a thermal recording head (hereinafter referred to as a 'head') heats an ink ribbon coated with yellow (Y), magenta (M), and cyan (C) dyes of three colors to provide high-quality A device that allows you to print photos.

Therefore, it is necessary to transfer the ink ribbon and the recording medium in close contact between the head and the platen roller to sublimate the dyes of three colors, and the transfer of the ink ribbon and the forward and reverse transfer of the recording medium must be controlled according to each step. do.

However, the conventional dye-sublimation printer has a very complicated configuration of a driving device for controlling the transfer of the ribbon and the transfer of the recording medium in the forward and reverse directions, and it is difficult to simultaneously control them.

Patent Application No. 10-2018-0143942 Patent Application No. 10-2018-0143949 Patent Application No. 10-2018-0143951 Patent Application No. 10-2018-0143953

The present invention has been devised to solve the above problems, and an object of the present invention is to provide a ribbon take-up reel driving device for a dye sublimation printer capable of organically controlling the driving of a take-up reel gear according to the advance and retreat of a slide plate. is in providing.

In order to solve the above technical problem, a ribbon take-up reel driving device according to the present invention is a ribbon take-up reel driving device of a dye sublimation printer that selectively drives a take-up reel gear coupled to a take-up reel for winding a ribbon, in both directions. a feed gear coupled to the rotating feed roller; a swing lever coupled to the shaft of the feed roller to rotate in both directions and having a swing control groove formed horizontally; a swing gear coupled to the swing lever and always meshing with the feed gear, and selectively meshing with or not meshing with the take-up reel gear according to a rotational direction of the swing lever; and a meshing holding member connecting the platen roller and the shaft of the feed roller to be elevated at the lower part of the head.

In addition, the meshing holding member is preferably formed with a leg protruding toward the discharge side.

Preferably, the leg presses the front side of the swing lever downward to maintain meshing between the swing gear and the take-up reel gear when the platen roller is raised.

In addition, when the swing lever rotates in a direction in which the swing gear does not mesh with the take-up reel gear, the front side of the leg abuts against the swing lever to limit the rotation range of the swing lever.

In addition, when the swing lever rotates in a direction in which the swing gear does not mesh with the take-up reel gear, the swing lever may come into contact with each other to limit the rotation range of the swing lever.

In addition, it is preferable to include a swing control unit for controlling the swing of the swing lever by forming a protrusion moving forward and backward along the swing control groove.

In addition, it is preferable that an escape groove from which the lower end of the swing lever escapes is formed in the swing control unit.

In addition, it is preferable that the swing control unit is extended to the slide plate moving forward and backward toward the supply side and the discharge side.

In addition, it is preferable to include a pick-up plate provided in a standing state on one side wall of the slide plate, the outer wall having a guide groove formed in the longitudinal direction, and a cam part for advancing and retreating the pick-up plate by bidirectional rotation.

In addition, it is preferable that an end of the cam portion protrudes from one side of a locking protrusion positioned in the guide groove.

According to the present invention, it is possible to organically control the lifting and lowering of the pickup roller, the raising and lowering of the platen roller, and the driving of the take-up reel gear according to the advance and retreat of the slide plate.

Therefore, the number of parts is drastically reduced, the structure is very simple, and the driving of the pick-up roller, platen roller and take-up reel gear can be controlled according to each step.

1 to 4 are a perspective view and an exploded perspective view showing the configuration of an embodiment according to the present invention.
5 and 6 are a perspective view and an exploded perspective view showing the main part of the embodiment according to the present invention.
7 shows a pickup step of transferring the recording medium to the discharge side in the embodiment according to the present invention.
8 shows a printing step of printing an image on a recording medium in an embodiment according to the present invention.
9 shows a rewinding step of transferring the recording medium to the supply side in the embodiment according to the present invention.
10 shows a correction step of transferring the recording medium and the ribbon to the discharge side in the embodiment according to the present invention.

Hereinafter, the configuration and operation of the embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

1 to 4 , the dye sublimation printer 1 according to the present invention has a ribbon ('20' in FIG. 7 ) between a thermal printing head 10 and a platen roller 70 that provide heat. Reference) and the recording medium P are brought into close contact with the dye applied to the ribbon to sublimate to form a predetermined image on the recording medium.

The printer 1 includes a frame F in which a bottom surface and both side walls are bent.

An insertion groove into which a cartridge is inserted is formed in the frame, and the cartridge includes a receiving unit 110 for stacking and accommodating recording media, a supply reel 121 on which a ribbon 20 is wound, and a supply reel that is transferred from the supply reel. It includes a take-up reel 122 for winding the ribbon, and a take-up reel gear 122a shaft-coupled to one side of the take-up reel 122 . Therefore, when the take-up reel gear 122a is driven, the ribbon wound on the supply reel 121 is transferred while being wound on the take-up reel 122 .

The cartridge is provided with a locking member on the side, and the frame (F) is formed with a fastening hole to which the locking member is fastened.

In this embodiment, a slide plate 40 that advances and retreats toward a discharge side and a supply side is provided along the bottom surface of the frame, and the pick-up plate 42 is integrally formed on one side wall of the slide plate 40 in a standing state.

The pick-up plate 42 has a guide groove 42a formed on its outer wall in the longitudinal direction. In addition, a cam part 36 that receives the driving force of the pickup motor M1 and rotates in both clockwise and counterclockwise directions is provided. The cam part 36 has a locking protrusion 36a positioned in the guide groove 42a protruding from one side of the circumferential surface. That is, the locking protrusion 36a is assembled in a state constrained by the guide groove 42a, and when the cam part 36 rotates, the position of the locking protrusion is changed, and the pick-up plate ( 42) and the slide plate 40 integrated therewith is to advance and retreat. More specifically, when the cam part 36 rotates clockwise and the locking protrusion 42a is positioned between the 6 o'clock and 9 o'clock directions, the slide plate 40 retreats to the supply side L1, and the cam part ( 36) rotates counterclockwise so that the locking protrusion 36a is positioned between the 6 o'clock and 1 o'clock directions, and the slide plate 40 advances to the discharge side L2.

In addition, the cam part 36 is coupled to one side of the fixed shaft 33 fixed to the frame, and a transmission gear 32b is provided between the output shaft of the pickup motor and the cam part 36 to receive the driving force of the pickup motor M1. provided

In addition, a pickup roller 31 having a shaft 32 parallel to the fixed shaft 33 is provided, and both ends of the fixed shaft 33 and the shaft 32 of the pickup roller are connected. That is, one side of the fixed shaft 33 and the shaft 32 of the pickup roller is connected by a pickup lever 35 , and the other side is connected by a connection member 34 and arranged in parallel.

The fixed shaft 33 is supported and fixed to the frame F, but in the pickup roller 31, both shafts 32 are only connected to the fixed shaft by the pickup lever 35 and the connecting member 34. (F) is not fixed.

A pickup protrusion 35b is formed on one side of the pickup lever 35 . Therefore, the pickup lever 35 rotates about the fixed shaft 33 according to the position of the pickup protrusion 35b, and the shaft 32 of the pickup roller rotates about the fixed shaft 33 by the lever principle. It goes up and down while swinging

A guide rail through which the pickup protrusion 35b is guided is formed on the inner wall of the pickup plate 42 (refer to (b) of FIG. 7).

As such, the two-stage guide rail formed on the inner wall of the pickup plate 42 is a component for guiding the pickup projection 35b, and an upper rail 42b for positioning the pickup projection 35b thereon, and the pickup projection It includes a lower rail 42d for positioning the 35b at the lower portion, and an inclined rail 42c having an inclined surface to connect the upper rail and the lower rail.

When the pickup plate 42 retreats to the supply side L1, the pickup protrusion 35b is positioned on the upper rail 42b (refer to (b) of FIG. 7), and accordingly, the pickup lever 35 is located at the other end of the The pickup roller 31 to which the shaft 32 is connected is in a DOWN state. As described above, when the pickup roller 31 is in the down state, the recording medium can be supplied to the front by being in close contact with the upper portion of the recording medium accommodated in the receiving unit 110 (see FIGS. 1 and 7 ).

In addition, when the pickup plate 42 advances to the discharge side L2, the pickup projection 35b passes through the inclined rail 42c from the upper rail 42b and is positioned on the lower rail 42d (see FIG. 8). . Accordingly, the pickup lever 35 rotates about the fixed shaft 33, and the other end of the pickup lever 35 rises by the lever principle. Accordingly, the pickup roller 31 connected to the other end of the pickup lever 35 with the shaft 32 is in an UP state. As described above, when the pickup roller 31 is in the up state, the recording medium cannot be supplied to the front because it is not in close contact with the upper portion of the recording medium accommodated in the receiving unit 110 .

In addition, a swing control unit 43 extending in a bar shape is provided on one side of the slide plate 40 , and the swing control unit 43 and the pickup plate 42 are on the same side of the slide plate 40 . formed integrally in

The swing control unit 43 has a protrusion 43a formed at the distal end of the discharge side L2, and is spaced apart from the supply side to form an escape groove 43b.

In addition, a driving force of a feed motor (not shown) driven in both directions is transmitted and a feed roller 60 for transporting the recording medium in both directions is provided, wherein both axes of the feed roller 60 are supported by the frame F, A feed gear 61 is shaft-coupled to one side of the feed roller 60 .

It is provided on the outside of the feed gear 61, the shaft of the feed roller 60 is mounted in the mounting hole 91 to rotate (swing) about the shaft, and the upper side is a gear mounting part to which the swing gear 92 is shaft-coupled. (92a) is formed, the lower side is provided with a swing lever 90 in which the swing control groove 93 is formed horizontally.

The swing gear 92 is always meshed with the feed gear 61 . However, the swing gear 92 may or may not mesh with the take-up reel gear 122a depending on the rotation direction of the swing lever 90 . That is, when the swing lever 90 rotates toward the discharge side (clockwise) around the axis of the feed roller 60, the swing gear 92 maintains the feed gear 61 and the feed gear 61 while maintaining meshing. While riding, it meshes with the take-up reel gear 122a.

Conversely, when the swing lever 90 rotates toward the supply side (counterclockwise) around the axis of the feed roller 60 , the swing gear 92 does not mesh with the take-up reel gear 122a. When the swing gear 92 and the take-up reel gear 122a mesh with each other, the driving force of the feed motor is transmitted to the feed gear 61, and again sequentially transmitted to the swing gear 92 and the take-up reel gear 122a. The take-up reel 122 is rotated, and accordingly the ribbon is transferred while being wound on the take-up reel 122 .

Since the swing lever 90 is coupled to the shaft of the feed roller 60 rotating in both directions, when the feed roller 60 rotates, the swing lever 90 is driven by the thrust of the feed roller 60 around the axis of the feed roller 60 . Swing in both directions (clockwise or counterclockwise).

On the other hand, the protrusion 43a moves forward and backward along the swing control groove 93 of the swing lever 90 . When the projection 43a is located in the swing control groove 93 , the feed roller 60 rotates. Thus, even if thrust is generated, the swing lever 90 is caught by the protrusion 43a and cannot swing.

In addition, the escape groove 43b is configured to allow the lower end of the swing lever 90 to escape when the swing lever 90 rotates by the thrust of the feed roller 60 (see Fig. 8(a)). ). If there is no escape groove 43b, the lower end of the swing lever 90 interferes with the swing control unit 43 and cannot swing, so the escape groove 43b is formed.

5 and 6 , a platen plate 72 rotating about the axis of the feed roller 60 is provided. That is, a hinge hole 72a through which the axis of the feed roller 60 passes is eccentric on one side of the platen plate 72 so as to rotatably couple the platen plate 72 to the axis of the feed roller 60 . formed, and the platen roller 70 is supported on the other side.

In addition, both shafts of the feed roller 60 and the platen roller 70 are connected to each other. That is, on one side of the feed roller 60 and the platen roller 70 , a shaft hole 51 through which the shaft of the feed roller 60 passes and a shaft hole 52 through which the shaft of the platen roller 70 passes are formed. A link member 50 is provided.

In addition, on the other side of the feed roller 60 and the platen roller 70, a shaft hole 81 through which the shaft of the feed roller 60 passes, and a shaft hole 82 through which the shaft of the platen roller 70 passes are formed. A meshing holding member 80 is provided. In particular, the meshing holding member 80 has a leg 83 protruding toward the discharge side. When the platen plate 72 rises, the leg 83 presses the pressing part 94 formed on the front side of the swing lever 90 downward to engage the swing gear 92 and the take-up reel gear 122a. is to keep

The platen roller 70 is not fixedly installed on the upper portion of the platen plate 72, but is parallel to the axis of the feed roller 60 by the link member 50 and the meshing holding member 80. It is installed flexibly so that it can be up-down while maintaining it.

In addition, a pair of first springs 71a are provided on both sides of the platen plate 72 , and the first springs elastically support both axes of the platen roller 70 .

Therefore, although the platen roller 70 is provided on the platen plate 72, it is elastically movable in the vertical direction by the first spring 71a.

This is to elevate the platen plate 72 and the platen roller 70 during printing to bring the recording medium into close contact with the lower portion of the head 10 and elastically press it. That is, in a state where the recording medium and the ribbon are positioned between the platen roller 70 and the head 10, the first spring 71a elastically presses the platen roller 70 in the direction of the head in the direction of the recording medium and the recording medium. By attaching the ribbon to the head, the image quality is improved.

In addition, a lifter 41 is provided at the front end of the slide plate 40 to enter the lower portion of the platen plate 72 and rotate the platen plate 72 eccentrically about the axis of the feed roller 60 to raise it. . The tip of the lifter 41 has an inclined surface to facilitate entry into the lower portion of the platen plate 72 . In addition, a protrusion 72b to which the lifter 41 comes into contact is formed on the bottom surface of the platen plate 72, and in this embodiment, the protrusion 72b is formed to be round. In addition, the protrusion may be formed to be inclined instead of round.

In addition, a second spring (refer to '71b' in FIGS. 4 and 7) having one end connected to the platen plate 72 is provided. The second spring 71b is configured as a torsion spring in this embodiment, and the other end is located in the frame.

The platen plate 72 is constantly under elastic pressure by the second spring 71b. Accordingly, when the lifter 41 enters the lower portion of the platen plate 72 , the platen plate rises about the axis of the feed roller 60 , and at this time, the second spring 71b is elastically deformed. Accordingly, when the lifter 41 retreats, the platen plate 72 rotates about the axis of the feed roller 60 by the elastic restoring force of the second spring 71b, and the platen roller 70 descends.

In addition, a pressure roller 62 for transferring the recording medium and the ribbon without slipping is provided on the feed roller 60 . The pressure roller 62 is provided with a support bracket 63 on the upper portion, the support bracket 63 is formed with shaft holes 63a in which both shafts of the pressure roller 62 are mounted. In addition, the pressure plate 65 is provided on the upper portion of the support bracket 63 . The pressure plate 65 is a component fixed to the frame, and the elastic means 64 is provided between the support bracket 63 and the support bracket 63 . Accordingly, the pressure roller 62 is elastically pressed downward by the support bracket 63 and the pressure roller 62 by the elastic means 64 to be in close contact with the feed roller 60 .

Also, when the swing lever 90 rotates toward the supply side, the engaging portion 95 formed on the supply side wall of the swing lever abuts against the inner wall 65a of the pressing plate 65 . Accordingly, the swing lever 90 has a limited rotation range by the pressure plate 65 .

Hereinafter, the operating state and printing method of the dye sublimation printer according to the present invention, in particular, a rewinding correction method for compensating for a ribbon having a longer length than a recording medium will be described.

First, FIG. 7 shows a recording medium pickup step according to the present invention.

In the pick-up step, one of the recording media stacked in a plurality of sheets in the receiving unit of the cartridge is supplied to the discharge side.

As shown, in the pickup step, the pickup protrusion 35b formed on the pickup lever 35 is located on the upper rail 42b, and the pickup roller 31 connected to the other side of the pickup lever 35 in the opposite direction is descended. do. When the pickup roller 31 descends in this way, it comes into contact with the recording medium accommodated in the storage unit.

When the pickup motor is driven in this state, the pickup roller 31 rotates to supply the recording medium to the discharge side L2.

At this time, the cam part 36 rotates clockwise so that the locking projection 36a is located on the supply side (about 8 o'clock). Accordingly, the locking protrusion 36a pushes the guide groove 42a in the direction of the supply side L1 so that the pickup plate 42 is retracted, and the locking protrusion 36a is located at the upper end of the guide groove 42a. The lifter 41 integrally formed with the tip of the slide plate 40 is also retracted so that the platen plate 72 is in a descending state. Therefore, even if the recording medium enters the lower part of the head 10, since the platen roller 70 is in a descending state, the recording medium does not adhere to the head and an image is not formed.

In addition, when the recording medium enters between the feed roller 60 and the pressure roller 62 and is bitten only as the recording medium is transferred to the discharge side (L2), the feed motor drives and the feed roller 60 also rotates forward to the discharge side (L2, clockwise). . Hereinafter, the feeding of the recording medium to the discharge side L2 by the feed roller 60 is referred to as forward rotation, and the reverse feeding of the recording medium to the supply side L1 is referred to as reverse rotation.

Therefore, the swing lever 90 receives a force to swing toward the discharge side by the forward rotational thrust of the feed roller 60 , but at this time, the projection 43a of the swing control unit 43 controls the swing of the swing lever 90 . It is hung on the groove 93 to block the swing of the swing lever 90 . Therefore, the ribbon 20 is not wound on the take-up reel 122 because the swing gear 92 and the take-up reel gear 122a do not mesh despite the forward rotation thrust of the feed roller 60 . However, only the recording medium is transferred to the discharge side by the forward rotation of the feed roller 60 .

8 shows a printing step according to the present invention.

As shown, in the printing step, the pickup protrusion 35b is positioned on the lower rail 42d, and the pickup roller 31 connected to the other side of the pickup lever 35 rises in reverse. That is, the recording medium is only transferred to the discharge side by the feed roller 60 , and the pickup roller 31 is spaced apart from the recording medium.

In addition, the cam part 36 rotates counterclockwise so that the locking projection 36a is positioned on the discharge side (about 4 o'clock). Accordingly, the pick-up plate 42 advances toward the discharge side, and the locking protrusion 36a is located at the upper end of the guide groove 42a. The lifter 41 integrated at the front end of the slide plate 40 advances and enters the lower portion of the platen plate 72 and is raised. Due to this operation, one side of the platen plate 72 is raised and inclined around the eccentric hinge hole (coupled to the shaft of the feed roller).

As described above, when the platen plate 72 is tilted and ascended, the platen roller 70 rises to strongly adhere the recording medium and the ribbon 20 to the lower portion of the head 10 . The first spring 71a presses the platen roller 70 upward while elastically supporting it.

In addition, as the slide plate 40 advances, the protrusion 43a of the swing control unit moves forward while passing through the swing control groove 93 and is positioned outside. In addition, the feed motor is driven in the forward direction, and the feed roller 60 also rotates forward in the discharge side (clockwise).

Therefore, since the protrusion 43a does not interfere with the swing lever 90, the swing lever 90 swings toward the discharge side by the forward rotation thrust of the feed roller 60, and thus the swing gear 92 and the take-up reel The gear 122a is meshed. At this time, since the escape groove 43b is formed in the swing control unit, the swing lever 90 can swing toward the discharge side without interference.

As such, when the swing gear 92 and the take-up reel gear 122a mesh together, the ribbon 20 is transferred while being wound around the take-up reel 122 . Specifically, the feed roller 60 is rotated by the driving force of the feed motor, the feed gear 61 coupled to the shaft of the feed roller 60 also rotates, and the feed gear 61 and the feed gear 61 are always engaged with the swing. The gear 92 rotates, and the take-up reel gear 122a meshed with the swing gear 92 rotates due to the swing of the swing lever 90 .

Therefore, while the recording medium and the ribbon 20 are strongly brought into close contact with the lower part of the head 10 to the discharge side by the feed roller 60, the dye of the ribbon is sublimated on the recording medium to form an image.

In this way, when forming an image while transferring the recording medium and the ribbon to the discharge side, the engagement between the swing gear 92 and the take-up reel gear 122a should not be released. Their meshing is performed by the thrust of the feed roller 60 , and for example, meshing between the swing gear 92 and the take-up reel gear 122a may be released due to an external impact during image formation. When the engagement is released, the recording medium is still transferred to the discharge side by the feed roller 60 , but the ribbon 20 is not transferred because the driving force is not transmitted to the take-up reel 122 . This phenomenon deteriorates the image quality.

Therefore, the embodiment according to the present invention forcibly maintains the meshing between the swing gear 92 and the take-up reel gear 122a during the printing step, that is, when the platen plate 72 and the platen roller 70 are raised. To this end, a meshing holding member 80 is provided. That is, the meshing holding member 80 also serves to connect one shaft of the platen roller 70 and the feed roller 60, but the leg 83 protruding toward the discharge side in association with the rise of the platen roller 70 swings The pressing portion 94 of the lever 90 is pressed downward.

Specifically, the meshing holding member 80 is connected to the shaft of the platen roller 70 and the shaft of the feed roller 60, the shaft of the feed roller 60 is fixed to the frame (F), the platen The axis of the turn roller 70 is raised or lowered according to the advance and retreat of the lifter. When the lifter 41 enters the lower part of the platen plate 72 and the platen roller 70 rises, the opposite side (discharge side) of the meshing holding member 80 about the axis of the feed roller 60 is the opposite side. ) goes down. Accordingly, while the leg 83 protruding to the discharge side descends, the pressing part 94 of the swing lever 90 is pressed downward. Therefore, even if there is an external impact, the engagement between the swing gear 92 and the take-up reel gear 122a is not released by the leg 83 .

On the other hand, in the dye-sublimation printer, a ribbon coated with cyan, magenta, and yellow color dyes is sequentially wound, and after sublimating any one color, the recording medium is retransferred to the printing starting point, and another The color dye is sublimated to complete the printing.

9 shows a rewinding step of re-transferring the recording medium to the printing starting point after sublimating any one color.

As shown, in the rewinding step, the pickup protrusion 35b is located on the lower rail 42d among the guide rails formed on the inner wall of the pickup plate 42, and the pickup connected to the other side of the pickup lever 35 in reverse. The roller 31 maintains a raised state. That is, the recording medium is only transferred to the supply side by the reverse rotation of the feed roller 60 , and the pickup roller 31 is spaced apart from the recording medium. However, as compared with FIG. 8 , there is a difference that the pickup protrusion 35b is located at the discharging end of the lower rail 42d. That is, it can be seen that the pick-up plate 42 and the slide plate 40 advance rather than the pick-up step, but retreat to the supply side rather than the printing step.

This is because the cam part 36 is partially rotated clockwise so that the locking projection 36a is located on the discharge side (about 5 o'clock). Accordingly, the locking projection 36a is located at the lower end of the guide groove 42a. The lifter 41 integrated at the tip of the slide plate 40 retreats rather than the printing step and comes out from the lower part of the platen plate 72 . Accordingly, the platen plate 72 is returned to its original position by the second spring (refer to '71b' in FIG. 7) and descends.

Accordingly, the platen roller 70 also descends along with the platen plate 72 to be spaced apart from the head 10 .

In addition, although the slide plate is retracted, the protrusion 43a of the swing control unit is still located outside the swing control groove 93 . Also, the feed motor is driven in the reverse direction to reverse the feed roller 60 to the supply side (counterclockwise) to retract the recording medium.

Accordingly, the swing lever 90 swings toward the supply side by the counterclockwise thrust of the feed roller 60 , thereby disengaging the swing gear 92 and the take-up reel gear 122a. At this time, the swing lever 90 swings until the locking part 95 comes into contact with the inner wall 65a of the pressing plate.

In addition, as the platen roller 70 descends, the leg 83 of the meshing holding member also rises. When the swing lever 90 swings toward the supply side, the pressing part 94 of the swing lever 90 comes into contact with the leg 83 . As such, the pressure plate 65 and the leg 83 limit the swing range (swing angle) when swinging the swing lever 90 toward the supply side.

In the rewinding step, only the recording medium is transferred to the supply side due to the reverse rotation of the feed roller 60, and the ribbon is not transferred due to the release of the swing gear 92 and the take-up reel gear 122a.

When the length of the ribbon is longer than the length of the recording medium, it is impossible to print an image of a different color immediately after the rewinding step after the printing step.

This is because, although the recording medium is positioned at the starting point of printing through the rewinding step, the length of the ribbon is longer than that of the recording medium, so the starting point of a new color is not yet located at the starting point of printing while still being wound on the supply reel.

Therefore, in this embodiment, there is a rewinding correction step of correcting that the length of the ribbon is longer than the length of the recording medium.

Specifically, referring to FIG. 10 , the ribbon is wound while the recording medium is positioned at the printing start point. At this time, the ribbon is wound by an amount longer than the recording medium. Due to this, the starting point of the new color of the ribbon is positioned at the starting point of printing.

In order to wind up the ribbon, the feed roller 60 is rotated forward to swing the swing lever 90 toward the discharge side by thrust to engage the swing gear 92 and the take-up reel gear 122a. When the feed roller 60 is rotated forward in this state, the driving force of the feed motor is transmitted to the feed gear 61, the swing gear 92, and the take-up reel gear 122a to wind the ribbon while the take-up reel 122 rotates. will be transported

However, when the ribbon 20 is wound and the length is corrected in this way, since the feed roller 60 rotates forward, it is inevitable that the recording medium transferred to the printing start point is also transferred to the discharge side again.

Also, images should not be formed during this correction process. Accordingly, the lifter 41 is still in the same position as the rewinding step of FIG. 9 . That is, the platen roller 70 maintains the descending state. In other words, the positions of the locking protrusion 36a and the pickup plate 42 are the same as in FIG. 9 . Also, the pickup protrusion 35b is at the same position as in FIG.

However, the feed roller 60 rotates forward as in the printing step of FIG. 8 to transfer the recording medium and the ribbon to the discharge side. In addition, the swing lever 90 swings toward the discharge side by the forward thrust of the feed roller 60 to combine the swing gear 92 and the take-up reel gear 122a. Accordingly, the ribbon is also wound and transported along with the transport of the recording medium. Nevertheless, since the platen roller 70 is lowered and the recording medium and the ribbon cannot be brought into close contact with the lower part of the head, no image is formed.

In other words, in FIG. 10, the pickup plate 42, the lifter 41, the pickup projection 35b, the locking projection 36a, and the platen roller 70 are positioned the same as in the rewinding step of FIG. 9, and the feed roller The fact that 60 rotates forward and that the swing lever 90 swings toward the discharge side by the thrust is the same as in the printing step of FIG. 8 .

In this way, the ribbon and the recording medium are transferred to the discharge side, whereby a ribbon of a new color can be positioned at the printing starting point.

However, in this state, since the recording medium is transferred to the discharge side rather than the printing starting point, the recording medium is transferred back to the printing starting point through the rewinding step of FIG. 9 again.

Through this process, the ribbon of a new color and the recording medium can be matched to the printing starting point, and the difference in length between the ribbon and the recording medium can be corrected.

In summary, an image is formed in any one color through the pickup and printing steps, the recording medium is transferred back to the printing starting point in the rewinding step, and the recording medium is transferred to the discharge side in the rewinding correction step and the ribbon After winding and matching the starting point of the new color with the printing starting point, the recording medium is transferred back through the rewinding step and positioned at the printing starting point.

That is, since the ribbon of a new color is wound to be positioned at the starting point of printing through the process of FIG. 10, only the recording medium is transferred back to the starting point of printing as in the rewinding step of FIG. It is positioned at the starting point so that an image can be formed with the dye of the next color.

In this way, after the printing step, the rewinding step, the rewinding correction step, and the rewinding step are sequentially performed to match the starting point of the new color of the recording medium and the ribbon to the printing starting point.

1: Dye-Sublimation Printer (Example)
10: head 20: ribbon
31: pickup roller 35: pickup lever
40: slide plate 41: lifter
42: pickup plate 43: swing control unit
50: link member 60: feed roller
61: feed gear 65: pressure plate
70: platen gear 72: platen plate
80: meshing holding member 90: swing lever
92: swing gear

Claims (7)

A ribbon take-up reel driving device of a dye sublimation printer for selectively driving a take-up reel gear coupled to a take-up reel for winding a ribbon,
a feed gear coupled to a feed roller rotating in both directions;
a swing lever coupled to the shaft of the feed roller to rotate in both directions and having a swing control groove formed horizontally;
a swing gear coupled to the swing lever and always meshing with the feed gear, and selectively meshing with or not meshing with the take-up reel gear according to a rotational direction of the swing lever; and
A ribbon take-up reel driving device comprising: a platen roller provided to be liftable from the lower part of the head and a meshing holding member connecting the shaft of the feed roller.
According to claim 1,
and a pressure plate for limiting a rotation range of the swing lever by contacting the swing lever when the swing lever rotates in a direction in which the swing gear does not mesh with the take-up reel gear. Device.
According to claim 1,
and a swing control unit for controlling the swing of the swing lever by forming a protrusion moving forward and backward along the swing control groove.
According to claim 1,
The dye sublimation printer, characterized in that the swing control unit is formed with an escape groove from which the lower end of the swing lever escapes.
5. The method of claim 4,
The dye sublimation printer, characterized in that the swing control unit is extended to the slide plate moving forward and backward from the supply side and the discharge side.
According to claim 1,
a pick-up plate provided in a standing state on one side wall of the slide plate, the outer wall having a guide groove formed in the longitudinal direction;
Ribbon take-up reel driving device, characterized in that it comprises a cam part for advancing and retreating the pick-up plate by rotation in both directions.
7. The method of claim 6,
The ribbon take-up reel driving device, characterized in that the cam portion has a locking projection positioned in the guide groove at the end of which protrudes from one side.

Images