CN219338925U - Embedded pad pasting ware - Google Patents

Abstract

The utility model discloses an embedded film sticking device, which belongs to the field of thermal transfer machines and comprises two support frames and a transfer film roller arranged between the two support frames, wherein a thermal printing channel is formed by a gap between the two support frames, pressing mechanisms are arranged at positions of one side of the support frames, which are positioned at two sides of the thermal printing channel, a hanging frame is welded on the lower surface of the support frame, a conveyor belt is rotatably arranged at the lower end of the hanging frame, a plurality of rollers are rotatably arranged at positions of one side of the hanging frame, which is positioned above the conveyor belt, a cutting mechanism is arranged at one side of the hanging frame, which is close to the transfer film roller, and the pressing mechanisms comprise two hydraulic cylinders fixedly arranged at one side of the support frame, and the two hydraulic cylinders are respectively positioned at two sides of the thermal printing channel.

Description

Embedded pad pasting ware

Technical Field

The utility model relates to the field of thermal transfer printers, in particular to an embedded film sticking device.

Background

The thermal transfer printer prints any pictures such as figures and landscapes on a thermal transfer film by using thermal transfer ink, sticks the thermal transfer film on a product by hand, heats the product to a certain temperature within a few minutes, and can transfer the image colors on the thermal transfer film to products made of materials such as porcelain cups, porcelain plates, clothes and metals realistically;

the patent search finds that the Chinese patent with publication number of CN210362955U discloses a heat transfer machine which comprises a frame; the thermal transfer device comprises a thermal transfer mechanism and a movable driving mechanism which is arranged between the frame and the thermal transfer mechanism and is at least used for driving the thermal transfer mechanism to move to a thermal transfer position; the feeding device is used for supporting the product and driving the product to roll along the thermal transfer mechanism when the thermal transfer mechanism moves to a thermal transfer position; the heat transfer film feeding device is used for conveying a heat transfer film between the heat transfer mechanism and a product so that the heat transfer mechanism can transfer heat transfer patterns on the heat transfer film onto the product in the process that the product rolls along the heat transfer mechanism, the heat transfer film feeding device is used for supporting the product, the heat transfer mechanism is driven by the moving driving mechanism to move to a heat transfer position, the heat transfer film feeding device conveys the heat transfer film between the heat transfer mechanism and the product, and then the product is driven by the feeding device to roll along the heat transfer mechanism.

However, the problem that the heat transfer film is transported to between the heat transfer mechanism and the product through the heat transfer film transporting device in the process of transporting the heat transfer film by the conventional heat transfer machine is not solved, the heat transfer film is inconvenient to transport into the heat transfer machine, floating dust in the environment is easy to adhere to a gap between the heat transfer film and the product when the product is attached, so that the viscosity of an ink pattern is reduced, the ink pattern is easy to partially fall off, and the heat transfer machine is poor in firmness of the heat transfer film transfer pattern due to the adhesion of the floating dust when transporting the heat transfer film is solved.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the utility model aims to provide an embedded film sticking device which is used for conveying and sticking a thermal transfer film in a thermal transfer machine, reducing the sticking external floating dust and being beneficial to enhancing the firmness of a thermal transfer film transfer pattern when the thermal transfer machine conveys the thermal transfer film.

2. Technical proposal

In order to solve the problems, the utility model adopts the following technical scheme.

The utility model provides an embedded pad pasting ware, includes two support frames and sets up the transfer printing film roller between two support frames, two the space between the support frame forms the thermoprint passageway, the position that support frame one side is located thermoprint passageway both sides all is provided with hold-down mechanism, the lower surface welding of support frame has the mounted frame, the conveyer belt is installed in the lower extreme rotation of mounted frame, a plurality of gyro wheels are installed in the position rotation that mounted frame one side is located the conveyer belt top, one side that the mounted frame is close to the transfer printing film roller is provided with shutdown mechanism.

Further, the compressing mechanism comprises two hydraulic cylinders fixedly installed on one side of the supporting frame, the two hydraulic cylinders are respectively located on two sides of the hot stamping channel, and a pressing plate is welded between output ends of the two adjacent hydraulic cylinders.

Further, the lower surface of clamp plate bonds there is the buffer sheet, a plurality of recesses have been seted up to one side that the buffer sheet kept away from the clamp plate.

Further, a baffle is fixedly installed between one sides of the two support frames, which are close to each other, and a guide hole for passing through the thermal transfer film is formed in the baffle.

Further, the cutting mechanism comprises an electric sliding rail fixedly arranged on one side of the suspension bracket close to the transfer film roller, and a cutter is slidably arranged on the electric sliding rail.

Furthermore, the hot stamping channels are staggered with the pressing plates along the vertical direction, and a gap is reserved between the partition plate and the cutter.

3. Advantageous effects

Compared with the prior art, the utility model has the advantages that:

(1) This scheme is when carrying the heat transfer printing membrane, hang the transfer printing membrane roller inside the heat transfer printing machine through support frame and mounted frame, so that the heat transfer printing membrane of lapping is embedded inside the heat transfer printing machine, the work piece is put into along the heat transfer printing passageway, one end is plugged into between conveyer belt and gyro wheel, and clip, it covers the work piece to stimulate the heat transfer printing membrane from both sides through two conveyer belts, then compress tightly the heat transfer printing membrane from both sides with two hold-down mechanism, attach to the work piece, carry and attach the heat transfer printing membrane in the inside of heat transfer printing machine, reduce the external floating dust of being stained with, can not reduce the stickness of printing ink pattern, be favorable to reinforcing the heat transfer printing machine when carrying the heat transfer printing membrane pattern's fastness.

(2) This scheme is at hold-down mechanism during operation, and the heat transfer film is unsettled in the below of electronic slide rail under the support of conveyer belt and guiding hole, promotes the cutter translation by electronic slide rail, cuts off the part that the heat transfer film exposes from the guiding hole, can cut apart the heat transfer film in the inside inclosed environment of heat transfer machine, only need press operating panel's button, automatic cutting.

Drawings

FIG. 1 is a schematic diagram of a front view of the present utility model;

FIG. 2 is a schematic cross-sectional view of the present utility model;

FIG. 3 is a schematic bottom view of the present utility model;

fig. 4 is an enlarged schematic view of the structure of fig. 3 a according to the present utility model.

The reference numerals in the figures illustrate:

1. a support frame; 2. a transfer film roller; 3. a hot stamping channel; 4. a hanging frame; 5. a conveyor belt; 6. a roller; 7. a hydraulic cylinder; 8. a pressing plate; 9. a buffer sheet; 10. a groove; 11. a partition plate; 12. a guide hole; 13. an electric slide rail; 14. and (5) a cutter.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model; it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments, and that all other embodiments obtained by persons of ordinary skill in the art without making creative efforts based on the embodiments in the present utility model are within the protection scope of the present utility model.

Examples:

referring to fig. 1-4, an embedded film sticking device comprises two supporting frames 1 and a transfer film roller 2 arranged between the two supporting frames 1, wherein a driving element for driving the transfer film roller 2 is arranged on the supporting frames 1, the technical scheme is that in the prior art, not shown in the drawing, a gap between the two supporting frames 1 forms a hot-stamping channel 3, a hot-stamping plate is arranged above the hot-stamping channel 3, a pressing mechanism is arranged at the position of one side of the supporting frames 1 positioned at two sides of the hot-stamping channel 3, a hanging frame 4 is welded on the lower surface of the supporting frames 1, a conveyor belt 5 is rotatably arranged at the lower end of the hanging frame 4, a brake motor is arranged at one side of the conveyor belt 5, the technical scheme is not shown in the drawing, a plurality of rollers 6 are rotatably arranged at the position of one side of the hanging frame 4 positioned above the conveyor belt 5, a cutting mechanism is arranged at one side of the hanging frame 4 close to the transfer film roller 2, the support frame 1 and the hanging frame 4 are fixed in the heat transfer machine by bolts, the coiled heat transfer film is arranged on the transfer film roller 2, when the heat transfer film is conveyed, the transfer film roller 2 is hung in the heat transfer machine by the support frame 1 and the hanging frame 4, so that the coiled heat transfer film is embedded in the heat transfer machine, a workpiece is placed along the heat transfer channel 3, one end of the heat transfer film is plugged between the conveyor belt 5 and the roller 6 and clamped, the heat transfer film is pulled from two sides by the two conveyor belts 5 to cover the workpiece, then the heat transfer film is pressed from two sides by two pressing mechanisms, the heat transfer film discharged by the transfer film roller 2 is cut off by the cutting mechanism and is attached to the workpiece, embedded type sticking films are carried out, the heat transfer film is adhered in the heat transfer machine, the attached external floating dust is reduced, the viscosity of ink patterns is not reduced, the firmness of the heat transfer film transfer pattern is enhanced when the heat transfer machine is used for conveying the heat transfer film.

Referring to fig. 2 and 3, a baffle 11 is fixedly installed between one sides of two support frames 1, which are close to each other, a guide hole 12 for passing through a thermal transfer film is formed in the baffle 11, the guide hole 12 has radian, a chamfer is formed at an opening, the thermal transfer film is prevented from being cut by a sharp part, when the thermal transfer film is discharged by a transfer film roller 2, the thermal transfer film passes through the guide hole 12 in the baffle 11, one end of the thermal transfer film can fall to the feeding end of a conveyor belt 5, and a worker can conveniently plug the thermal transfer film between the conveyor belt 5 and a roller 6.

Referring to fig. 1 and 4, the pressing mechanism comprises two hydraulic cylinders 7 fixedly installed on one side of a support frame 1, the two hydraulic cylinders 7 are respectively located on two sides of a hot stamping channel 3, pressing plates 8 are welded between output ends of the two adjacent hydraulic cylinders 7, the hot stamping channel 3 staggers the pressing plates 8 along the vertical direction, when a workpiece is stuck by a hot stamping film, the hydraulic cylinders 7 are controlled to drive the two pressing plates 8 to descend, the hot stamping mechanism staggers, the hot stamping film is pressed from two sides of the hot stamping channel 3, and the lower surface of the hot stamping film downwards presses the upper surface of the workpiece.

Referring to fig. 2 and 4, the lower surface bonding of clamp plate 8 has buffer sheet 9, buffer sheet 9's material is fluororubber, can bear the high temperature environment of heat transfer in-process, a plurality of recesses 10 have been seted up to one side that buffer sheet 9 kept away from clamp plate 8, at hold-down mechanism during operation, clamp plate 8 drives buffer sheet 9 and descends, until supporting tight heat transfer platform, cushion through buffer sheet 9's deformation, load of pneumatic cylinder 7 is unloaded, protect, and heat transfer membrane part submerges recess 10, the contact of convenient reinforcing hold-down mechanism and heat transfer membrane at the horizontal direction reduces the degree of skew when heat transfer membrane deformation.

Referring to fig. 1 and 2, the cutting mechanism includes an electric sliding rail 13 fixedly installed on one side of the suspension bracket 4 near the transfer film roller 2, a cutter 14 is slidably installed on the electric sliding rail 13, a gap is reserved between the partition 11 and the cutter 14, when the pressing mechanism works, the thermal transfer film is suspended under the support of the conveying belt 5 and the guide hole 12, the electric sliding rail 13 pushes the cutter 14 to translate so as to cut off the exposed part of the thermal transfer film from the guide hole 12, the thermal transfer film can be cut in the sealed environment inside the thermal transfer machine, and only the button of the operation panel needs to be pressed down to automatically cut.

Finally, the thermal transfer film on the workpiece is heated by the thermal transfer printer, ink is adsorbed on the workpiece, after a certain time, the thermal transfer printer leaves the workpiece along the thermal printing channel 3, the hydraulic cylinder 7 is controlled to drive the pressing plate 8 to lift, the thermal transfer film is separated, the thermal transfer printer is opened, the workpiece is taken out, and the waste film is removed.

Working principle: the support frame 1 and the suspension bracket 4 are fixed to the inside of the thermal transfer printer through bolts, the coiled thermal transfer film is mounted on the transfer film roller 2, when the thermal transfer film is conveyed, the transfer film roller 2 is suspended in the inside of the thermal transfer printer through the support frame 1 and the suspension bracket 4, so that the coiled thermal transfer film is embedded into the inside of the thermal transfer printer, a workpiece is placed along the thermal printing channel 3, one end of the thermal transfer film is plugged between the conveyor belt 5 and the idler wheel 6 and clamped, the thermal transfer film is pulled from two sides through the two conveyor belts 5 to cover the workpiece, then the thermal transfer film is compressed by the two compressing mechanisms from two sides, the thermal transfer film is supported by the conveyor belts 5 and the guide holes 12 in the working process of the compressing mechanisms, the cutter 14 is pushed to translate by the electric slide rail 13 to cut off the exposed part of the thermal transfer film from the guide holes 12, the thermal transfer film released by the cutting mechanism is cut off in the sealed environment inside the thermal transfer printer, the thermal transfer film can be cut off only by pressing a button of an operation panel, the thermal transfer film is automatically cut, the thermal transfer film is attached to the workpiece is attached to the thermal transfer film, and the thermal transfer film is not adhered to the thermal transfer printer, and the thermal transfer film is firmly adhered to the thermal transfer film is adhered to the inside the thermal transfer printer, and the thermal transfer film is not adhered to the thermal transfer film, and the pattern is firmly printed on the thermal transfer printer is reduced, and the thermal transfer film is not adhered to the pattern is firmly, and the pattern is printed on the inside the thermal transfer film is printed on the machine.

The above description is only of the preferred embodiments of the present utility model; the scope of the utility model is not limited in this respect. Any person skilled in the art, within the technical scope of the present disclosure, may apply to the present utility model, and the technical solution and the improvement thereof are all covered by the protection scope of the present utility model.

Claims (6)

1. The utility model provides an embedded pad pasting ware, includes two support frames (1) and sets up transfer printing film roller (2) between two support frames (1), its characterized in that: the gap between support frame (1) forms hot stamping channel (3), the position that support frame (1) one side is located hot stamping channel (3) both sides all is provided with hold-down mechanism, the lower surface welding of support frame (1) has mounted frame (4), conveyer belt (5) are installed in the lower extreme rotation of mounted frame (4), a plurality of gyro wheels (6) are installed in the position rotation that one side of mounted frame (4) is located conveyer belt (5) top, one side that mounted frame (4) is close to transfer film roller (2) is provided with cutting mechanism.

2. An in-line laminator as claimed in claim 1, wherein: the pressing mechanism comprises two hydraulic cylinders (7) fixedly installed on one side of the supporting frame (1), the two hydraulic cylinders (7) are respectively located on two sides of the hot stamping channel (3), and a pressing plate (8) is welded between the output ends of the two adjacent hydraulic cylinders (7).

3. An in-line laminator as claimed in claim 2, wherein: the lower surface of clamp plate (8) bonds has buffer sheet (9), a plurality of recesses (10) have been seted up to one side that buffer sheet (9) kept away from clamp plate (8).

4. An in-line laminator as claimed in claim 2, wherein: a baffle plate (11) is fixedly arranged between one sides, close to each other, of the two supporting frames (1), and a guide hole (12) for passing through the thermal transfer film is formed in the baffle plate (11).

5. The in-line laminator of claim 4, wherein: the cutting mechanism comprises an electric sliding rail (13) fixedly arranged on one side of the suspension bracket (4) close to the transfer film roller (2), and a cutter (14) is slidably arranged on the electric sliding rail (13).

6. The in-line laminator of claim 5, wherein: the hot stamping channels (3) are staggered with the pressing plates (8) along the vertical direction, and gaps are reserved between the partition plates (11) and the cutters (14).

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