CN115503350A - Retransfer card printer - Google Patents

Abstract

The invention discloses a retransfer printing certificate printer, which comprises a rack, a card conveying mechanism and a transfer printing part, wherein the card conveying mechanism and the transfer printing part are arranged in the rack; the transfer printing part comprises a thermal transfer printing roller module, a positioning device and a card driving roller; the thermal transfer printing roller module comprises a cam mechanism and a thermal roller mechanism, the cam mechanism is provided with a thermal roller support, the thermal roller support comprises a left support frame and a right support frame, the left support frame and the right support frame are both provided with positioning guide grooves, and the thermal roller mechanism is arranged between the left support frame and the right support frame; the positioning device is provided with a positioning convex part matched with the positioning guide groove, the positioning guide groove is movably limited by the positioning convex part, and the cam mechanism drives the positioning guide groove to intermittently lift and move relative to the positioning convex part so as to drive the hot roller mechanism to intermittently lift and move. The heat that can avoid the gyro wheel influences card drive gyro wheel, location when can accurate control gyro wheel and card drive gyro wheel tectorial membrane, simple structure, the equipment is convenient.

Description

Retransfer card printer

Technical Field

The invention relates to the technical field of card printers, in particular to a retransfer card printer.

Background

The retransfer card printer utilizes a group of color ribbons and a group of retransfer films, utilizes a plurality of point heat source linear arranged digital heating heads (TPH) to heat dyes on the color ribbons, vaporizes and transfers the dyes to the retransfer films in a thermal sublimation way, and then moves the retransfer films to a retransfer area, the retransfer area structure comprises a thermal retransfer roller module and a card driving roller, after the retransfer films are aligned with the cards, the thermal retransfer roller transfers images on the retransfer films to the cards through a pressurizing and heating way, in the course of retransfer printing, the parallel contraposition precision between the thermal retransfer roller module and the card driving roller has a great influence on the retransfer quality, if the opening and closing distance is controlled badly, the retransfer is easy to be clamped or incomplete, if the parallel contraposition precision is badly, the problems of incomplete retransfer printing or skew retransfer printing are easy to be generated.

In the prior art, as one of the printers disclosed in china ZL 202120876187.7, the heating roller and the active roller are respectively disposed on the second mounting frame, the card to be transferred can pass through between the heating roller and the active roller, and the card can be accurately transferred, but because the heating roller is fixedly disposed on the second mounting frame, the thickness of the card which can be transferred is single, the universality is poor, the distance between the heating roller and the active roller is short, and the active roller can be affected by the temperature of the heating roller when no card is left after thermal transfer printing, and is easy to damage.

Therefore, a new technical solution is needed to solve the above problems.

Disclosure of Invention

In view of the above, the present invention is directed to the defects existing in the prior art, and a main object of the present invention is to provide a retransfer certificate card printer, wherein the left support frame and the right support frame are both provided with positioning guide slots, and a positioning protrusion matched with the positioning guide slots is provided in cooperation with a positioning device, a cam mechanism drives the positioning guide slots to intermittently move up and down relative to the positioning protrusions, so as to drive a thermal roller mechanism to intermittently move up and down, and the cam mechanism is provided to realize the distance change between the thermal roller mechanism and the card driving roller.

In order to achieve the purpose, the invention adopts the following technical scheme:

a retransfer card printer comprises a frame, a card conveying mechanism and a transfer printing part, wherein the card conveying mechanism and the transfer printing part are arranged in the frame; wherein:

the transfer printing part comprises a thermal transfer printing roller module, a positioning device and a card driving roller; the thermal transfer printing roller module and the positioning device are respectively fixedly arranged on the rack and are respectively positioned on two sides of the card feeding path;

the thermal transfer printing roller module comprises a cam mechanism and a thermal roller mechanism, the cam mechanism is provided with a thermal roller support, the thermal roller support comprises a left support frame and a right support frame, the left support frame and the right support frame are both provided with positioning guide grooves, the thermal roller mechanism is elastically arranged on the cam mechanism through the thermal roller support, the thermal roller mechanism is arranged between the left support frame and the right support frame, and the thermal roller mechanism comprises a heating rod and a roller sleeved on the periphery of the heating rod;

the positioning device is provided with a positioning convex part matched with the positioning guide groove, the positioning guide groove is movably limited by the positioning convex part, and the cam mechanism drives the positioning guide groove to intermittently lift relative to the positioning convex part so as to drive the hot roller mechanism to intermittently lift;

positioner is located to card drive gyro wheel rotatable formula and is located the top of location convex part, card drive gyro wheel and gyro wheel interval are arranged, cam mechanism's setting realizes the distance change setting between hot gyro wheel mechanism and the card drive gyro wheel, when the rendition, hot gyro wheel mechanism is close to card drive gyro wheel, card drive gyro wheel is kept away from to hot gyro wheel mechanism after the rendition, the heat of avoiding hot gyro wheel mechanism influences card drive gyro wheel, and the setting of location guide slot and location convex part, location when can accurately control between heat-transfer printing gyro wheel module and the tectorial membrane of card drive gyro wheel, moreover, the steam generator is simple in structure, and the equipment is convenient.

As a preferred scheme, the cam mechanism comprises a sliding seat, a hot roller base and a cam assembly, the sliding seat is provided with a containing cavity, guide grooves are formed in two sides of the containing cavity, the cam assembly is arranged in the containing cavity and penetrates through the guide grooves, the hot roller base is arranged on the sliding seat, a hot roller support is arranged on the hot roller base, an elastic element is clamped between the hot roller base and the sliding seat, a limiting guide piece is arranged between the hot roller base and the sliding seat, and the cam assembly drives the sliding seat to move up and down so as to drive the hot roller base to move up and down.

As a preferred scheme, the sliding seat includes a bottom plate and a guide frame, the guide frame includes a top plate and L-shaped side plates extending downward from two ends of the top plate, the L-shaped side plates are locked to the bottom plate, the top plate and the L-shaped side plates form the accommodating cavity in a surrounding manner, and the guide groove is formed in the L-shaped side plates.

Preferably, the elastic member is clamped between the hot roller base and the L-shaped side plate.

As a preferred scheme, the bottom of hot gyro wheel base is equipped with the guide post, and is corresponding, the guiding hole has been seted up to the roof, the guide post passes the guiding hole and the bottom of guide post is equipped with limit baffle, hot gyro wheel base is movably through the guide post and locates in the guiding hole.

Preferably, the cam assembly comprises a rotating shaft and a cam penetrating through the rotating shaft, and the rotating shaft drives the cam to rotate so as to drive the sliding seat to move up and down.

Preferably, the cam module further comprises a position detection device.

As a preferred scheme, position detecting device includes positioning disk and relative two positioning sensor that set up, the positioning disk is located on the rotation axis, the rotation axis drives the positioning disk and rotates, be equipped with on the positioning disk and supply one that two positioning sensor detected to dodge the mouth.

As a preferred scheme, hot gyro wheel mechanism includes that heating rod and cover locate the gyro wheel of heating rod periphery, corresponding left branch strut and right branch strut are all located through the bearing in the both sides of gyro wheel, the both sides of gyro wheel are equipped with the axle sleeve between the bearing.

Preferably, the roller comprises a metal inner layer and a rubber layer coated outside the metal inner layer.

Compared with the prior art, the invention has obvious advantages and beneficial effects, and specifically, the technical scheme shows that:

it is main, through all being equipped with the location guide slot at left branch strut and right branch strut, and cooperation positioner be equipped with location guide slot assorted location convex part, cam mechanism drive location guide slot relative positioning convex part intermittent type formula elevating movement and then drive hot gyro wheel mechanism intermittent type formula elevating movement, cam mechanism's setting, realize the distance change setting between hot gyro wheel mechanism and the card drive gyro wheel, when the rendition, hot gyro wheel mechanism is close to card drive gyro wheel, hot gyro wheel mechanism keeps away from card drive gyro wheel after the rendition, avoid hot gyro wheel mechanism's heat to influence card drive gyro wheel, and the setting of location guide slot and location convex part, can accurate control the location when tectorial membrane between hot rendition gyro wheel and the card drive gyro wheel, moreover, the steam generator is simple in structure, the equipment is convenient.

In order to more clearly illustrate the structural features and effects of the present invention, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a cross-sectional view of a preferred embodiment of the present invention;

FIG. 2 is a perspective view of a transfer section according to a preferred embodiment of the present invention;

FIG. 3 is a side view of a transfer section according to a preferred embodiment of the present invention;

FIG. 4 is a perspective view of a thermal transfer roller module according to a preferred embodiment of the present invention;

FIG. 5 is an exploded view of the thermal roller mechanism of the preferred embodiment of the present invention.

Description of the figures:

10. cam mechanism 11 and left support frame

12. Right support frame 13, positioning guide groove

14. Sliding seat 141 and accommodating cavity

142. Guide groove 143, bottom plate

144. Top plate 145, L-shaped side plate

15. Hot roller base 16 and cam assembly

161. Rotating shaft 162 and cam

163. Position detection device 164, positioning plate

165. Positioning sensor 17, elastic member

18. Guide 181, guide post

182. Guiding hole 183 and limiting baffle

20. Hot roller mechanism 21 and heating rod

22. Roller 23, bearing

24. Shaft sleeve 30 and positioning device

31. Positioning projection 40, card drive roller

50. Frame 60, card conveying mechanism

61. A card feeding path.

Detailed Description

First, it should be noted that in the description of the present invention, the terms "upper", "lower", "left", "right", etc. indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, which are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and operate, and thus, should not be construed as limiting the present invention.

Referring to fig. 1 to 5, a specific structure of a preferred embodiment of the present invention is shown, which includes a frame 50, a card conveying mechanism 60 disposed in the frame 50, and a transfer portion, wherein the card conveying mechanism 60 has a card feeding path 61, and the transfer portion is disposed corresponding to the card feeding path 61.

Specifically, the transfer section includes a thermal transfer roller module, a positioning device 30, and a card drive roller 40; the thermal transfer printing roller module and the positioning device 30 are respectively fixedly arranged on the frame 50 and are respectively positioned at the upper side and the lower side of the card feeding path 61; thermal transfer printing roller module includes cam mechanism 10, hot roller mechanism 20, positioner 30 is located to rotatable the formula of card drive roller 40, and the card of treating the rendition passes through the input of card feed route 61, the rendition portion, the output of card feed route 61 in proper order, accomplishes the rendition, card conveying mechanism 60 is the mature technique in this field, and it is usually including the card feeding portion, card upset portion, the card leveling portion that set gradually, the output of card feeding portion is located to card upset portion, the rendition portion is located between card upset portion and the card leveling portion.

The cam mechanism 10 is provided with a thermal roller support, the thermal roller support comprises a left support frame 11 and a right support frame 12, the thermal roller mechanism 20 is arranged between the left support frame 11 and the right support frame 12, the left support frame 11 and the right support frame 12 are both provided with a positioning guide groove 13 with one open end, correspondingly, the positioning device 30 is provided with a positioning convex part 31 matched with the positioning guide groove 13, the positioning guide groove 13 is movably limited by the positioning convex part 31, the cam mechanism 10 drives the positioning guide groove 13 to intermittently move up and down relative to the positioning convex part 31 so as to drive the thermal roller mechanism 20 to intermittently move up and down, the cam mechanism 10 is arranged to realize the distance change arrangement between the thermal roller mechanism 20 and the card driving roller 40, the thermal roller mechanism 20 is close to the card driving roller 40 during transfer, the thermal roller mechanism 20 is far away from the card driving roller 40 after transfer, the heat of the thermal roller mechanism 20 is prevented from influencing the card driving roller 40, and the positioning guide groove 13 and the positioning convex part 31 are arranged, so that the positioning between the thermal transfer roller and the card driving roller during film coating can be accurately controlled, the structure is simple and the assembly is convenient;

specifically, the cam mechanism 10 includes a sliding seat 14, a hot roller base 15 and a cam assembly 16, the sliding seat 14 has an accommodating cavity 141, guide grooves 142 are formed on two sides of the accommodating cavity 141, the cam assembly 16 is disposed in the accommodating cavity 141 and penetrates through the guide grooves 142, the hot roller base 15 is elastically disposed on the sliding seat 14, the hot roller support is disposed on the hot roller base 15, an elastic member 17 is interposed between the hot roller base 15 and the sliding seat 14, a limit guide member 18 is disposed between the hot roller base 15 and the sliding seat 14, the cam assembly 16 drives the sliding seat 14 to move up and down to drive the hot roller base 15 to move up and down, the cam assembly 16 is rotatably disposed on the frame 50 when being installed, the lifting movement of the sliding seat 14 is realized through the arrangement of the guide grooves 142, and the arrangement of the elastic member 17 is matched to enable the hot roller mechanism 20 to press a card during operation and to be away from the card driving roller 40 during standby;

the sliding seat 14 comprises a bottom plate 143 and a guide frame, the guide frame comprises a top plate 144 and L-shaped side plates 145 extending downward from two ends of the top plate 144, the L-shaped side plates 145 are locked to the bottom plate 143, the top plate 144 and the L-shaped side plates 145 form the accommodating cavity 141 in a surrounding manner, and the guide groove 142 is formed in the L-shaped side plates 145; the elastic piece 17 is clamped between the hot roller base 15 and the L-shaped side plate 145;

the cam assembly 16 includes a rotating shaft 161 and a cam 162 passing through the rotating shaft 161, and the rotating shaft 161 drives the cam 162 to rotate so as to drive the sliding seat 14 to move up and down; the cam assembly 16 further includes a position detecting device 163, the position detecting device 163 includes a positioning plate 164 and two positioning sensors 165 disposed opposite to each other, the positioning plate 164 is disposed on the rotating shaft 161, the rotating shaft 161 drives the positioning plate 164 to rotate, an avoiding opening (not shown in the figure) for the two positioning sensors 165 to detect is disposed on the positioning plate 164, when the avoiding opening passes through the positioning sensors 165, light is conducted in the positioning sensors 165, and the two positioning sensors 165 respectively determine two positions, i.e., a high point and a low point, of the cam 162, so that the cam 162 more accurately drives the hot roller mechanism 20 to perform a transfer operation and a waiting operation;

the limiting guide part 18 comprises a guide post 181, a guide hole 182 and a limiting baffle 183, the guide post 181 is arranged at the bottom of the hot roller base 15, the guide hole 182 is arranged on the top plate 144, the guide post 181 penetrates through the guide hole 182, the limiting baffle 183 is arranged at the bottom of the guide post 181 and is positioned below the top plate 144, the hot roller base 15 is movably arranged in the guide hole 182 through the guide post 181 and the limiting baffle 183, the structure is ingenious, the hot roller base 15 can move relative to the top plate 144, and the elastic part 17 is matched to be arranged, so that transfer printing operation of cards with different thicknesses can be met, and the universality is good;

preferably, the elastic member 17 is a spring, two elastic members 17 are arranged on the L-shaped side plates 145 on both sides at intervals, the elastic members 17 can be limited by arranging sleeves for placing the elastic members 17 on both the L-shaped side and the hot roller base 15, and the installation of the elastic members 17 is a conventional technology in the field, which is not limited by this.

The hot roller mechanism 20 comprises a heating rod 21 and rollers 22 sleeved on the periphery of the heating rod 21, two sides of each roller 22 are respectively arranged on the corresponding left support frame 11 and the corresponding right support frame 12 through bearings 23, and shaft sleeves 24 are arranged between the bearings 23 on two sides of each roller 22; the roller 22 includes a metal inner layer and a rubber layer coated outside the metal inner layer, and the hot roller mechanism 20 is a mature technology in the field and will not be described herein.

The working principle of the embodiment is detailed as follows:

when the cam set pushes the sliding seat 14 upward, the thermal roller mechanism 20 is driven to move upward synchronously, and at this time, the positioning guide grooves 13 in the two side thermal roller brackets slide into the positioning protrusions 31 of the positioning device 30, so as to achieve the positioning effect of the thermal transfer roller module, wherein the positioning device 30 is fixedly installed on the frame 50, and the card driving roller 40 is rotatably installed in the positioning device 30, so that the parallel alignment accuracy between the thermal transfer roller module and the card driving roller 40 can be precisely controlled by using the structure.

When the cam drives the thermal roller mechanism 20 to the highest point, the distance between the thermal roller mechanism 20 and the card driving roller 40 is smaller than the thickness of the standard PVC card, so that when the card enters between the thermal roller mechanism 20 and the card driving roller 40, the thermal roller mechanism 20 and the sliding seat 14 will move downwards along the guiding column 181, so that the elastic force increased by the compression of the spring will act on the PVC card and the card driving roller 40, and the thermal roller mechanism 20 transfers the image on the transfer film to the PVC card by a pressurized heating method.

The design of the invention is characterized in that:

it is mainly, through all being equipped with the location guide slot at left branch strut and right branch strut, and cooperation positioner be equipped with location guide slot assorted location convex part, cam mechanism drive location guide slot relative positioning convex part intermittent type formula elevating movement and then drive hot gyro wheel mechanism intermittent type formula elevating movement, cam mechanism's setting, realize the distance change setting between hot gyro wheel mechanism and the card drive gyro wheel, when the rendition, hot gyro wheel mechanism is close to card drive gyro wheel, card drive gyro wheel is kept away from to hot gyro wheel mechanism after the rendition, avoid the heat of hot gyro wheel mechanism to influence card drive gyro wheel, and the setting of location guide slot and location convex part, can be accurate location when controlling between hot rendition gyro wheel module and the card drive gyro wheel tectorial membrane, moreover, the steam generator is simple in structure, and convenient for assembling.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any minor modifications, equivalent changes and modifications made to the above embodiment according to the technical spirit of the present invention are within the technical scope of the present invention.

Claims (10)

1. The utility model provides a rendition card printer which characterized in that: the card transfer printing machine comprises a rack, a card conveying mechanism and a transfer printing part, wherein the card conveying mechanism and the transfer printing part are arranged in the rack; wherein:

the transfer printing part comprises a thermal transfer printing roller module, a positioning device and a card driving roller; the thermal transfer printing roller module and the positioning device are respectively fixedly arranged on the rack and are respectively positioned on two sides of the card feeding path;

the thermal transfer printing roller module comprises a cam mechanism and a thermal roller mechanism, the cam mechanism is provided with a thermal roller support, the thermal roller support comprises a left support frame and a right support frame, the left support frame and the right support frame are both provided with positioning guide grooves, the thermal roller mechanism is elastically arranged on the cam mechanism through the thermal roller support, the thermal roller mechanism is arranged between the left support frame and the right support frame, and the thermal roller mechanism comprises a heating rod and a roller sleeved on the periphery of the heating rod;

the positioning device is provided with a positioning convex part matched with the positioning guide groove, the positioning guide groove is movably limited by the positioning convex part, and the cam mechanism drives the positioning guide groove to intermittently lift and move relative to the positioning convex part so as to drive the thermal roller mechanism to intermittently lift and move;

the card driving roller is rotatably arranged on the positioning device and positioned above the positioning convex part, and the card driving roller and the roller are arranged at intervals.

2. The retransfer identification card printer in accordance with claim 1, wherein: the cam mechanism comprises a sliding seat, a hot roller base and a cam assembly, wherein the sliding seat is provided with a containing cavity, guide grooves are formed in two sides of the containing cavity, the cam assembly is arranged in the containing cavity and penetrates through the guide grooves, the hot roller base is arranged on the sliding seat, a hot roller support is arranged on the hot roller base, an elastic element is arranged between the hot roller base and the sliding seat in a clamping mode, a limiting guide element is arranged between the hot roller base and the sliding seat, and the cam assembly drives the sliding seat to move up and down and further drives the hot roller base to move up and down.

3. The retransfer identification card printer in accordance with claim 2, wherein: the sliding seat comprises a bottom plate and a guide frame, the guide frame comprises a top plate and L-shaped side plates extending downwards from two ends of the top plate, the L-shaped side plates are locked on the bottom plate, the top plate and the L-shaped side plates form a containing cavity in a surrounding mode, and the L-shaped side plates are arranged in the guide grooves.

4. A retransfer identification card printer in accordance with claim 3, wherein: the elastic piece is clamped between the hot roller base and the L-shaped side plate.

5. A retransfer identification card printer in accordance with claim 3, wherein: the bottom of hot gyro wheel base is equipped with the guide post, and is corresponding, the guiding hole has been seted up to the roof, the guide post passes the bottom of guide hole and guide post and is equipped with limit baffle, hot gyro wheel base is movably through the guide post and locates in the guide hole.

6. The retransfer identification card printer in accordance with claim 2, wherein: the cam component comprises a rotating shaft and a cam penetrating through the rotating shaft, and the rotating shaft drives the cam to rotate so as to drive the sliding seat to move up and down.

7. The retransfer identification card printer in accordance with claim 6, wherein: the cam assembly also includes a position sensing device.

8. The retransfer identification card printer in accordance with claim 7, wherein: the position detection device comprises a positioning disc and two positioning sensors which are arranged oppositely, the positioning disc is arranged on a rotating shaft, the rotating shaft drives the positioning disc to rotate, and an avoiding opening for the two positioning sensors to detect is formed in the positioning disc.

9. The retransfer identification card printer in accordance with claim 1, wherein: the hot roller mechanism comprises a heating rod and a roller sleeved on the periphery of the heating rod, the two sides of the roller are respectively provided with a left support frame and a right support frame through bearings, and shaft sleeves are arranged between the bearings on the two sides of the roller.

10. A retransfer identification card printer in accordance with claim 1 or 9, wherein: the roller comprises a metal inner layer and a rubber layer coated outside the metal inner layer.

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