CN110561896B - Heat transfer printing device for wooden jointed board - Google Patents

Abstract

The invention provides a heat transfer printing device for a wooden jointed board, and belongs to the technical field of wooden toy production. The transfer printing device comprises a first rectangular pipe, a second rectangular pipe, a conveying mechanism, a guide mechanism, a pasting mechanism and a transfer printing mechanism, wherein the first rectangular pipe is horizontally arranged, a first through hole is formed in the first rectangular pipe, an opening is formed in the lower side wall of the first rectangular pipe along the length direction, the second rectangular pipe is vertically and fixedly arranged on the upper side wall of the first rectangular pipe, a jointed board in the second rectangular pipe can be sequentially conveyed to the right end of the first rectangular pipe along the opening by the conveying mechanism, the jointed board can only move along the opening by the guide mechanism, a transfer printing film can be cut by the pasting mechanism, the cut transfer printing film is pasted on the upper side face of the jointed board, and patterns on the transfer printing film can be transferred to the upper side face of the jointed board by the transfer printing mechanism. The invention can quickly paste the pattern on the transfer printing film on the jointed board, thereby saving time and labor.

Description

Heat transfer printing device for wooden jointed board

Technical Field

The invention belongs to the technical field of production of wooden toys, and relates to a heat transfer printing device for a wooden splicing plate.

Background

Thermal transfer, as the name implies, is a new printing process, which is also introduced abroad for over a decade. The application of thermal transfer printing is very wide, the transferred objects comprise products of various base materials such as fabrics, plastics, ceramics, glass, metals and the like, and the main application fields comprise cosmetics, toys, electric appliances, building materials, gifts, food packaging and the like.

In the jigsaw puzzle processing field, patterns are often required to be printed on the formed jigsaw puzzle, at this time, a heat transfer printing technology is required, and the existing heat transfer printing operation flow is mostly as follows: the rendition membrane is pasted on the makeup to the manual work, then puts into heating device with the makeup again in, to rendition membrane heat treatment on the makeup, the makeup after will heating the completion at last takes out, and whole process needs the continuous repetitive operation of a large amount of workman, wastes time and energy, but also has the potential safety hazard.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a heat transfer printing device for a wood jointed board, which can quickly paste a pattern on a transfer printing film on the jointed board and is time-saving and labor-saving.

The purpose of the invention can be realized by the following technical scheme:

a thermal transfer device for wood panels, comprising: the first rectangular pipe is horizontally arranged, a first through hole is formed in the first rectangular pipe, an opening is formed in the lower side wall of the first rectangular pipe along the length direction, the opening penetrates through two ends of the first rectangular pipe, and four supporting legs are arranged at the bottom of the first rectangular pipe;

the second rectangular pipe is vertically and fixedly arranged on the upper side wall of the first rectangular pipe, a second through hole is formed in the second rectangular pipe, the second through hole is communicated with the first through hole, the lower end of the second rectangular pipe extends into the first through hole, a second gap is formed between the lower end of the second rectangular pipe and the lower side wall of the first rectangular pipe, and the height of the second gap is larger than the thickness of the spliced plate;

the conveying mechanism is arranged below the opening and can convey the jointed boards in the second rectangular pipe to the right end of the first rectangular pipe along the opening in sequence;

the guide mechanism is fixedly arranged on the edge of the opening and enables the jointed board to move to the right end of the first rectangular pipe only along the opening;

the pasting mechanism can paste the transfer film on the upper side surface of the jointed board;

the transfer printing mechanism can transfer the patterns on the transfer printing film to the upper side surface of the jointed board.

In the above-mentioned heat transfer printing apparatus for a wood jigsaw, the conveying mechanism includes:

the conveyer belt, the conveyer belt level sets up the below at first rectangular pipe, the length direction of conveyer belt is unanimous with the length direction of first rectangular pipe, the conveyer belt includes straight section, straight section and two circular arc sections down, be equipped with a plurality of rubber push pedal on the conveyer belt perpendicularly, when the last straight section of rubber push pedal removal to conveyer belt, the cross section of rubber push pedal and first rectangular pipe is parallel, the last side of rubber push pedal passes the opening and stretches into in the first through-hole.

In the above heat transfer printing apparatus for wood panels, the guide mechanism includes:

two deflector, two the deflector sets up respectively in the open-ended both sides, the length direction of deflector is unanimous with the length direction of first rectangular pipe, the vertical first fixed axle of a plurality of that has set firmly on the deflector, a plurality of first fixed axle all is in the coplanar, it is provided with guide roller to rotate on the first fixed axle.

In the above-mentioned heat transfer printing apparatus for a wooden jigsaw, the attaching mechanism includes:

the two partition plates are arranged in the first rectangular pipe in parallel, and the partition plates are parallel to the cross section of the first rectangular pipe;

the first rotating shaft is rotatably arranged between the two partition plates, the length direction of the first rotating shaft is consistent with that of the first rectangular pipe, a first roller is fixedly arranged on the first rotating shaft, and one end of the transfer printing film is wound on the first roller;

the transfer structure can horizontally convey the transfer printing film wound on the first roller to a position right above the opening;

and the shearing structure can shear the transfer printing film with the pattern down and stick the transfer printing film to the upper side surface of the jointed board when the jointed board moves to the position right below the transfer printing film.

In the above heat transfer printing apparatus for wood panels, the transfer structure comprises:

the two second fixed shafts are fixedly arranged between the two partition plates in parallel and are respectively positioned at two sides of the opening, the distances from the two second fixed shafts to the lower side wall of the first rectangular pipe are the same, and the second fixed shafts are rotatably provided with guide rollers;

the second rotating shaft is rotatably arranged between the two partition plates, the second rotating shaft and the first rotating shaft are parallel to each other, a second roller is fixedly arranged on the second rotating shaft, and the other end of the transfer printing film sequentially penetrates through the bottoms of the two guide rollers and is finally fixedly connected to the first roller;

the first motor is fixedly arranged on the partition plate, and one end of the first rotating shaft penetrates through the partition plate to be in transmission connection with the first motor;

and the second motor is fixedly arranged on the partition plate, and one end of the second rotating shaft penetrates through the partition plate to be in transmission connection with the second motor.

In the above heat transfer printing apparatus for wood panels, the shearing structure comprises:

the electric push rod is vertically and fixedly arranged on the upper side wall of the first rectangular pipe between the two partition plates;

the pressing block is fixedly arranged at the lower end of the electric push rod and positioned above the transfer printing film, a blind hole is formed in the lower side surface of the pressing block, the cross section of the blind hole is rectangular, and the size of the cross section of the blind hole is larger than that of the splicing plate;

the cross section of the blade is annular and rectangular, and the blade is fixedly arranged at the edge of the blind hole;

the fixing structure is arranged in the blind hole and can fix the transfer printing film sheared by the blade on the upper side surface of the jointed board.

In the above heat transfer printing apparatus for wood panels, the fixing structure comprises:

the sliding block is arranged in the blind hole in a sliding mode, a plurality of through holes are formed in the sliding block, and the through holes penetrate through the upper side face and the lower side face of the sliding block;

one end of each first reset spring is fixedly connected with the bottom of the blind hole, and the other end of each first reset spring is fixedly connected with the upper side face of the sliding block;

a plurality of electrical heating stick, a plurality of electrical heating stick is vertical sets firmly in the bottom of blind hole, a plurality of electrical heating stick and the perforation one-to-one of a plurality of, the free end of electrical heating stick stretches into in the corresponding perforation.

In the above thermal transfer printing device for wood panels, the transfer printing mechanism includes:

the two sliding groove holes are oppositely arranged on the left side wall and the right side wall of the first rectangular pipe, and the sliding groove holes are in a long strip shape and are vertically arranged;

the third fixing shaft is vertically and slidably arranged on the left side wall and the right side wall of the first rectangular pipe through two sliding groove holes, and the length direction of the third fixing shaft is perpendicular to the left side wall and the right side wall of the first rectangular pipe;

the electric heating roller is rotatably arranged on the third fixed shaft;

the driving structure can intermittently drive the third fixing shaft to move up and down.

In the above thermal transfer printing apparatus for wood panels, the driving structure comprises:

the two sliding rods are vertically and fixedly arranged on the third fixed shaft, are respectively positioned on two sides of the electric heating roller, two first through holes are formed in the upper side wall of the first rectangular pipe, correspond to the two first through holes one to one, the upper ends of the sliding rods penetrate through the corresponding first through holes and extend to the upper side of the first rectangular pipe, an upper convex edge is formed on the sliding rod positioned outside the first rectangular pipe, a lower convex edge is formed on the sliding rod positioned in the first through hole, a second reset spring is sleeved on the sliding rod, one end of the second reset spring is fixedly connected with the upper side wall of the first rectangular pipe, the other end of the second reset spring is fixedly connected with the lower convex edge, and a rack is vertically and fixedly arranged at the upper end of the sliding rod;

the fourth rotating shaft is rotatably arranged at the top of the first rectangular pipe through two supporting plates, and the fourth rotating shaft and the third fixing shaft are parallel to each other;

the two incomplete gears are fixedly arranged at two ends of the fourth rotating shaft, correspond to the two racks one by one, and are in meshed connection with the corresponding racks;

and the third motor is fixedly arranged on the first rectangular pipe and is in transmission connection with the fourth rotating shaft.

Compared with the prior art, the invention has the following advantages:

1. the jointed board is horizontally placed in the second rectangular pipe, the conveying mechanism enables the jointed board in the second rectangular pipe to move towards the right end of the first rectangular pipe along the opening, when the jointed board moves to the position below the pasting mechanism, the pasting structure pastes the transfer printing film on the upper side face of the jointed board, then the jointed board continues to move to the right, the transfer printing mechanism transfers the pattern on the transfer printing film onto the jointed board through the transfer printing mechanism, and finally the jointed board goes out from the right end of the first rectangular pipe, so that the operation is simple, and the automation degree is high;

2. the conveyor belt is started, when one of the rubber push plates moves to the upper straight section of the conveyor belt, the jointed plate at the lowest end of the second rectangular pipe is pushed to move towards the right end of the first rectangular pipe, the jointed plate sequentially passes through the pasting mechanism and the transfer printing mechanism to complete heat transfer printing, meanwhile, the adjacent previous jointed plate of the jointed plate falls to the upper side of the opening to wait for the next rubber push plate to push away the jointed plate, the heat transfer printing speed of the jointed plate can be controlled by adjusting the distance between the two rubber push plates and the rotation speed of the conveyor belt, and the operation is simple;

3. starting a first motor and a second motor to enable a first rotating shaft and a second rotating shaft to rotate in the same direction, a first roller on the first rotating shaft releases a transfer printing film, a second roller on the second rotating shaft furls the transfer printing film, the first motor and the second motor are intermittently started to enable each pattern on the transfer printing film to be always positioned right above an opening, and when a jointed board moves to be right below the transfer printing film, the transfer printing film with the pattern is cut off and fixed on the jointed board by a cutting mechanism, so that the pasting efficiency of the transfer printing film is improved;

4. when the rubber push plate drives the jointed board to move to the position right below the pressing block, the pattern on the transfer printing film is located right above the jointed board, the electric push rod is started to push the pressing block to move downwards, the sliding block in the blind hole contacts with the transfer printing film firstly and then contacts with the jointed board downwards, the jointed board extrudes the sliding block to enable the sliding block to move upwards, at the moment, the blade on the lower side surface of the pressing block contacts with the transfer printing film to shear the transfer printing film, meanwhile, the lower end of the electric heating rod at the bottom of the blind hole extends out of the lower side surface of the sliding block to contact with the transfer printing film on the jointed board;

5. starting a third motor, driving a fourth rotating shaft to rotate anticlockwise, intermittently driving two sliding rods to move downwards through two incomplete gears, after the incomplete gears are meshed with racks on the sliding rods, driving the sliding rods to move downwards, stretching a second reset spring on the sliding rods, downwards extruding a jointed board by an electric heating roller, driving the electric heating roller to rotate by the jointed board, uniformly heating a transfer film, printing complete patterns on the jointed board, after the incomplete gears and the racks on the sliding rods are separated, releasing the stretched energy of the second reset spring, upwards moving the sliding rods under the action of the second reset spring, driving the electric heating roller to upwards move, increasing the distance from the electric heating roller to the lower side wall of a first rectangular pipe, enabling a rubber push plate to smoothly push the next jointed board into the electric heating roller, and the operation is simple.

Drawings

FIG. 1 is a schematic structural view of the thermal transfer printing device for wood panels;

FIG. 2 is a cross-sectional view taken at A-A of FIG. 1;

FIG. 3 is a cross-sectional view taken at B-B of FIG. 1;

FIG. 4 is a cross-sectional view taken at C-C of FIG. 1;

fig. 5 is a diagram showing a transfer state of the transfer film;

FIG. 6 is a view showing the operation of the transfer film cut by a blade and stuck to a jigsaw puzzle.

In the figure, 1, a first rectangular tube; 11. a first through hole; 12. an opening; 13. supporting legs; 14. a partition plate; 141. a first gap; 15. a first perforation; 16. a guide plate; 161. a first fixed shaft; 162. a guide roller; 17. a sliding slot hole; 2. a conveyor belt; 21. a rubber push plate; 3. a second rectangular tube; 31. a second through hole; 32. a second gap; 4. an electric push rod; 41. briquetting; 411. blind holes; 412. an electrical heating rod; 413. a first return spring; 414. a blade; 42. a slider; 421. perforating; 5. a first rotating shaft; 51. a first drum; 52. a first motor; 6. a second fixed shaft; 61. a guide roller; 7. a second rotating shaft; 71. a second drum; 72. a second motor; 8. a third fixed shaft; 81. an electric heating roller; 82. a slide bar; 821. an upper convex edge; 822. a lower convex edge; 823. a second return spring; 824. a rack; 83. a fourth rotating shaft; 831. a first bevel gear; 832. an incomplete gear; 833. a support plate; 84. a third motor; 841. a second bevel gear; 9. splicing plates; 91. transferring the film; 911. and (6) shearing the hole.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 6, a heat transfer printing device for wood panels includes: the transfer printing machine comprises a first rectangular pipe 1, a second rectangular pipe 3, a conveying mechanism, a guide mechanism, a pasting mechanism and a transfer printing mechanism.

The first rectangular pipe 1 level sets up, be equipped with first through-hole 11 in the first rectangular pipe 1, be equipped with opening 12 along length direction on the lower lateral wall of first rectangular pipe 1, opening 12 runs through the both ends of first rectangular pipe 1 lower lateral wall, the bottom of first rectangular pipe 1 is equipped with four supporting legs 13.

Second rectangular pipe 3 vertically sets firmly on the last lateral wall of first rectangular pipe 1, be equipped with second through-hole 31 in the second rectangular pipe 3, second through-hole 31 and first through-hole 11 are linked together, the lower extreme of second rectangular pipe 3 stretch into in first through-hole 11 and with first rectangular pipe 1 between the lower lateral wall form second clearance 32, the height of second clearance 32 is greater than the thickness of makeup 9.

Conveying mechanism sets up in the below of opening 12, conveying mechanism can carry the makeup in the second rectangular pipe 3 to the right-hand member of first rectangular pipe 1 along opening 12 in proper order.

The guide mechanism is arranged at the edge of the opening 12, and the guide mechanism enables the jointed board 9 to move to the right end of the first rectangular pipe 1 only along the opening 12.

The pasting mechanism can paste the transfer film 91 on the upper side surface of the jointed board 9.

The transfer mechanism can transfer the pattern on the transfer film 91 to the upper side surface of the jointed board 9.

The jointed board 9 is horizontally placed into the second rectangular pipe 3, the conveying mechanism enables the jointed board 9 in the second rectangular pipe 3 to sequentially move towards the right end of the first rectangular pipe 1 along the opening 12, when the jointed board 9 moves to the lower side of the pasting mechanism, the pasting structure can shear the transfer film 91, the sheared transfer film 91 is pasted on the upper side face of the jointed board 9, then the jointed board 9 continues to move to the right, the transfer mechanism transfers the patterns on the transfer film 91 onto the jointed board 9 through the transfer mechanism, and finally the patterns go out from the right end of the first rectangular pipe 1, so that the operation is simple, and the automation degree is high; in addition, the guide mechanism plays a role in guiding the jointed board 9 to move only along the opening 12, so that the jointed board 9 cannot shift during moving.

In particular, the conveying means comprise a conveyor belt 2.

2 levels of conveyer belt set up the below at first rectangular pipe 1, the length direction of conveyer belt 2 is unanimous with the length direction of first rectangular pipe 1, conveyer belt 2 includes straight section, straight section and two circular arc sections down, be equipped with a plurality of rubber push pedal 21 on the conveyer belt 2 perpendicularly, when rubber push pedal 21 removed the straight section of last of conveyer belt 2, rubber push pedal 21 is parallel with the cross section of first rectangular pipe 1, the side of going up of rubber push pedal 21 passes opening 12 and stretches into in the first through-hole 11.

Start conveyer belt 2, when making one of them rubber push pedal 21 remove the straight section of going up of conveyer belt 2, promote the makeup 9 of second rectangular pipe 3 bottommost and remove to the right-hand member of first rectangular pipe 1, make makeup 9 pass through pasting mechanism and transfer printing mechanism in proper order, accomplish the heat-transfer seal, the adjacent last makeup 9 of this makeup 9 falls to opening 12 top simultaneously, wait for next rubber push pedal 21 to push away it, the speed that 9 heat-transfer seals of makeup can be controlled through the slew velocity of adjusting distance between two rubber push pedals 21 and conveyer belt 2, and easy operation.

Specifically, the guide mechanism includes two guide plates 16.

Two deflector 16 sets up respectively in the both sides of opening 12, the length direction of deflector 16 is unanimous with the length direction of first rectangular pipe 1, the vertical first fixed axle 161 of a plurality of that has set firmly on the deflector 16, a plurality of first fixed axle 161 all is in the coplanar, rotate on the first fixed axle 161 and be provided with guide roller 162, the distance that is located between the guide roller 162 on two deflectors 16 is greater than the width of makeup 9.

Starting conveyor belt 2, driving makeup 9 through rubber push pedal 21 and removing to the right-hand member of first rectangular pipe 1 along opening 12, guide roller 162 of opening 12 both sides plays the guide effect to makeup 9, makes makeup 9 only can remove to the right-hand member of first rectangular pipe 1 along opening 12, can not take place to deflect.

Specifically, the pasting mechanism comprises two partition plates 14, a first rotating shaft 5, a transmission structure and a cutting structure.

Two baffle 14 parallel arrangement is in first rectangular pipe 1, baffle 14 is parallel with first rectangular pipe 1's cross section, be formed with first clearance 141 between the lower side of baffle 14 and the lower lateral wall of first rectangular pipe 1, the height in first clearance 141 is greater than the thickness of makeup 9.

The first rotating shaft 5 is rotatably arranged between the two partition plates 14, the length direction of the first rotating shaft 5 is consistent with that of the first rectangular tube 1, a first roller 51 is fixedly arranged on the first rotating shaft 5, and one end of the transfer film 91 is wound on the first roller 51.

The transfer structure can horizontally convey the transfer film 91 wound on the first roller 51 to a position right above the opening 12.

When the jointed board 9 moves to the position right below the transfer film 91, the transfer film 91 with patterns can be cut off by the cutting structure and pasted on the upper side surface of the jointed board 9.

The transfer printing film 91 on the first roller 51 is horizontally conveyed to the position right above the opening 12 by starting the transmission structure, so that the pattern on the transfer printing film 91 is right opposite to the opening 12, and when the jointed board 9 moves to the position right below the transfer printing film 91, the transfer printing film 91 with the pattern can be cut off by the cutting structure and pasted on the upper side surface of the jointed board 9, thereby saving the trouble of manual pasting and saving time and labor.

Specifically, the transmission structure includes two second fixed shafts 6 and second rotating shafts 7, a first motor 52 and a second motor 72.

Two second fixed axle 6 sets firmly between two baffles 14 in parallel, two second fixed axle 6 is located the both sides of opening 12 respectively, two the distance of second fixed axle 6 to first rectangular pipe 1 lower side wall is the same, two second fixed axle 6 is located the below of first pivot 5, second fixed axle 6 rotates and is provided with guide roller 61, guide roller 61 is greater than the thickness of makeup 9 apart from first rectangular pipe 1 lower side wall's distance.

The second rotating shaft 7 is rotatably arranged between the two partition plates 14, the second rotating shaft 7 is located above the second fixing shaft 6, the second rotating shaft 7 and the first rotating shaft 5 are parallel to each other, the second rotating shaft 7 is fixedly provided with a second roller 71, and the other end of the transfer printing film 91 sequentially penetrates through the bottoms of the two guide rollers 61 and is finally fixedly connected to the first roller 51.

The first motor 52 is fixedly arranged on the partition plate 14, and one end of the first rotating shaft 5 penetrates through the partition plate 14 and is fixedly connected with an output shaft of the first motor 52.

The second motor 72 is fixedly arranged on the partition plate 14, and one end of the second rotating shaft 7 penetrates through the partition plate 14 and is fixedly connected with an output shaft of the second motor 72.

Simultaneously starting the first motor 52 and the second motor 72 to enable the first rotating shaft 5 and the second rotating shaft 7 to rotate in the same direction, the first roller 51 on the first rotating shaft 5 releases the transfer printing film 91, the second roller 71 on the second rotating shaft 7 winds the transfer printing film 91, the first motor 52 and the second motor 72 are intermittently started to continuously convey each pattern on the transfer printing film 91 to the position right above the opening 12, and when the jointed board 9 moves to the position right below the transfer printing film 91, the transfer printing film 91 with the pattern is cut off and fixed on the jointed board 9 by using a cutting mechanism, so that the pasting efficiency of the transfer printing film 91 is improved.

Specifically, the shearing structure includes an electric push rod 4, a pressing block 41, a blade 414 and a fixing structure.

The electric push rod 4 is vertically and fixedly arranged on the upper side wall of the first rectangular pipe 1 between the two partition plates 14;

the pressing block 41 is fixedly arranged at the lower end of the electric push rod 4, the pressing block 41 is located above the transfer film 91, a blind hole 411 is formed in the lower side face of the pressing block 41, the cross section of the blind hole 411 is rectangular, and the size of the cross section of the blind hole 411 is larger than that of the jointed board 9.

The cross section of the blade 414 is annular and rectangular, and the blade 414 is fixedly arranged at the edge of the blind hole 411.

The fixing structure is arranged in the blind hole 411, and the fixing structure can fix the transfer printing film 91 cut off by the blade 414 on the upper side surface of the jointed board 9.

When rubber push pedal 21 drives makeup 9 and removes under briquetting 41, the pattern on rendition membrane 91 was located makeup 9 directly over this moment, starts electric putter 4, promotes briquetting 41 and moves down, and blade 414 cuts rendition membrane 91 with the pattern off, and remaining rendition membrane 91 frame is rolled up to second cylinder 71 on, the rendition membrane 91 that fixed establishment will cut off is fixed on makeup 9, has saved the trouble of artifical rendition membrane 91 of pasting, labour saving and time saving.

Specifically, the fixed structure includes a slider 42, a plurality of first return springs 413, and a plurality of electric heating rods 412.

The sliding block 42 is slidably disposed in the blind hole 411, a plurality of through holes 421 are disposed on the sliding block 42, and the through holes 421 penetrate through the upper and lower side surfaces of the sliding block 42.

One end of each of the first return springs 413 is fixedly connected with the bottom of the blind hole 411, and the other end of each of the first return springs 413 is fixedly connected with the upper side surface of the sliding block 42;

a plurality of the electrical heating rod 412 sets firmly in the bottom of blind hole 411 vertically, a plurality of the electrical heating rod 412 and a plurality of perforation 421 one-to-one, the lower extreme of electrical heating rod 412 stretches into in the corresponding perforation 421, electrical heating rod 412 is connected with external power source electricity.

When the jointed board 9 moves to the position right below the pressing block 41, the electric push rod 4 is started, the pressing block 41 is pushed to move downwards, the sliding block 42 in the blind hole 411 contacts the transfer printing film 91 firstly and then contacts the jointed board 9 downwards, the jointed board 9 extrudes the sliding block 42 to enable the sliding block 42 to move upwards, at the moment, the blade 414 on the lower side surface of the pressing block 41 contacts the transfer printing film 91 to shear the transfer printing film 91, meanwhile, the sliding block 42 moves upwards to enable the lower end of the electric heating rod 412 at the bottom of the blind hole 411 to extend out of the lower side surface of the sliding block 42 to be in contact with the transfer printing film 91 on the jointed board 9, contact points on.

Specifically, the transfer mechanism includes two chute holes 17, a third fixed shaft 8, an electrothermal roller 81, and a driving structure.

The two sliding groove holes 17 are oppositely arranged on the left side wall and the right side wall of the first rectangular pipe 1, and the sliding groove holes 17 are in a long strip shape and are vertically arranged.

One end of the third fixing shaft 8 extends out of a sliding groove hole 17 in the left side wall of the first rectangular pipe 1, the other end of the third fixing shaft extends out of a sliding groove hole 17 in the right side wall of the first rectangular pipe 1, the third fixing shaft 8 is vertically arranged on the left side wall and the right side wall of the first rectangular pipe 1 in a sliding mode through the two sliding groove holes 17, and the length direction of the third fixing shaft 8 is perpendicular to the left side wall and the right side wall of the first rectangular pipe 1.

The electric heating roller 81 is rotatably arranged on the third fixed shaft 8, and the electric heating roller 81 is electrically connected with an external power supply.

The driving structure can intermittently drive the third fixing shaft 8 to move up and down.

When the jointed board 9 moves to the lower part of the electric heating roller 81, the driving structure is started to drive the third fixing shaft 8 to move downwards, so that the electric heating roller 81 on the third fixing shaft 8 moves downwards to contact and extrude the jointed board 9, the jointed board 9 moves rightwards to drive the electric heating roller 81 to rotate, so that the patterns on the transfer film 91 are uniformly printed on the upper side surface of the jointed board 9, after the jointed board 9 passes through the electric heating roller 81, the driving structure drives the third fixing shaft 8 to move upwards, so that the electric heating roller 81 on the third fixing shaft 8 moves upwards, and the next jointed board 9 is waited to move to the lower part of the electric heating roller 81 again.

Specifically, the driving structure includes two sliding rods 82, a fourth rotating shaft 83, two incomplete gears 832 and a third motor 84.

Two the slide bar 82 sets firmly on third fixed axle 8 vertically, two the slide bar 82 is located the both sides of electric heat cylinder 81 respectively, be equipped with two first perforation 15 on the lateral wall of first rectangular pipe 1, two slide bar 82 and two first perforation 15 one-to-one, the upper end of slide bar 82 passes corresponding first perforation 15 and extends to the top of first rectangular pipe 1, is located to be equipped with on the slide bar 82 outside first rectangular pipe 1 protruding along 821, is located to be equipped with down protruding along 822 on the slide bar 82 in first through-hole 11, the cover is equipped with second reset spring 823 on the slide bar 82, the one end of second reset spring 823 links firmly with the lateral wall of first rectangular pipe 1, and the other end links firmly with protruding along 822 down, the upper end of slide bar 82 vertically sets firmly rack 824.

The top of the first rectangular tube 1 is fixedly provided with two supporting plates 833 in parallel, the fourth rotating shaft 83 is rotatably arranged at the top of the first rectangular tube 1 through the two supporting plates 833, and the fourth rotating shaft 83 is parallel to the third fixed shaft 8.

The two incomplete gears 832 are fixedly arranged at two ends of the fourth rotating shaft 83, the two incomplete gears 832 are in one-to-one correspondence with the two racks 824, and the incomplete gears 832 are meshed and connected with the corresponding racks 824.

The third motor 84 is fixedly arranged on the first rectangular tube 1, a second bevel gear 841 is fixedly arranged on an output shaft of the third motor 84, a first bevel gear 831 is fixedly arranged on the fourth rotating shaft 83, the second bevel gear 841 is meshed with the first bevel gear 831, and the third motor 84 is electrically connected with an external power supply.

The third motor 84 is started to drive the fourth rotating shaft 83 to rotate anticlockwise, the two sliding rods 82 are intermittently driven to move downwards by the two incomplete gears 832, after the incomplete gears 832 are meshed with the racks 824 on the sliding rods 82, the sliding rods 82 are driven to move downwards, the second return springs 823 on the sliding rods 82 are stretched, the electric heating roller 81 extrudes the jointed boards 9 downwards, the jointed boards 9 drive the electric heating roller 81 to rotate, the transfer film 91 is uniformly heated to print complete patterns on the jointed boards 9, after the incomplete gears 832 are separated from the racks 824 on the sliding rods 82, the stretched energy of the second return springs 823 starts to be released, the sliding rods 82 move upwards under the action of the second return springs 823 to drive the electric heating roller 81 to move upwards, the distance from the electric heating roller 81 to the lower side wall of the first rectangular tube 1 is increased, and the rubber push plate 21 can smoothly push the next jointed board 9 to the lower part of the electric heating roller 81, the operation is simple.

In the description of this patent, it is to be understood that the terms "upper", "lower", "inner", "outer", and the like, as used herein, refer to an orientation or positional relationship based on that shown in the drawings, which is for convenience in describing the patent and to simplify the description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered limiting of the patent.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims (8)

1. A heat transfer device for wooden makeup, characterized by, includes: the device comprises a first rectangular pipe (1), wherein the first rectangular pipe (1) is horizontally arranged, a first through hole (11) is formed in the first rectangular pipe (1), an opening (12) is formed in the lower side wall of the first rectangular pipe (1) along the length direction, the opening (12) penetrates through two ends of the first rectangular pipe (1), and four supporting legs (13) are arranged at the bottom of the first rectangular pipe (1);

the second rectangular pipe (3) is vertically and fixedly arranged on the upper side wall of the first rectangular pipe (1), a second through hole (31) is formed in the second rectangular pipe (3), the second through hole (31) is communicated with the first through hole (11), the lower end of the second rectangular pipe (3) extends into the first through hole (11) and forms a second gap (32) with the lower side wall of the first rectangular pipe (1), and the height of the second gap (32) is larger than the thickness of the jointed board (9);

the conveying mechanism is arranged below the opening (12), and can convey jointed boards in the second rectangular pipe (3) to the right end of the first rectangular pipe (1) along the opening (12) in sequence;

the guide mechanism is fixedly arranged on the edge of the opening (12), and the guide mechanism enables the jointed board (9) to move to the right end of the first rectangular pipe (1) only along the opening (12);

the pasting mechanism can paste the transfer printing film (91) on the upper side surface of the jointed board (9);

the transfer printing mechanism can transfer the patterns on the transfer printing film (91) to the upper side surface of the splicing plate (9);

the pasting mechanism comprises:

the two partition plates (14) are arranged in the first rectangular pipe (1) in parallel, and the partition plates (14) are parallel to the cross section of the first rectangular pipe (1);

the first rotating shaft (5) is rotatably arranged between the two partition plates (14), the length direction of the first rotating shaft (5) is consistent with that of the first rectangular pipe (1), a first roller (51) is fixedly arranged on the first rotating shaft (5), and one end of the transfer printing film (91) is wound on the first roller (51);

a conveying structure capable of horizontally conveying the transfer film (91) wound on the first roller (51) to a position right above the opening (12);

and the shearing structure can shear the transfer printing film (91) with patterns off and paste the transfer printing film on the upper side surface of the jointed board (9) when the jointed board (9) moves to the position right below the transfer printing film (91).

2. The thermal transfer printing device for wood panels as defined in claim 1, wherein the conveying mechanism comprises:

conveyer belt (2), conveyer belt (2) level sets up the below in first rectangular pipe (1), the length direction of conveyer belt (2) is unanimous with the length direction of first rectangular pipe (1), conveyer belt (2) are including last straight section, lower straight section and two circular arc sections, be equipped with a plurality of rubber push pedal (21) perpendicularly on conveyer belt (2), when rubber push pedal (21) remove to the last straight section of conveyer belt (2), the cross section of rubber push pedal (21) and first rectangular pipe (1) is parallel, the last side of rubber push pedal (21) passes opening (12) and stretches into in first through-hole (11).

3. The thermal transfer printing device for wood panels as defined in claim 2, wherein the guiding mechanism comprises:

two deflector (16), two deflector (16) set up respectively in the both sides of opening (12), the length direction of deflector (16) and the length direction of first rectangular pipe (1) are unanimous, the vertical a plurality of first fixed axle (161) that has set firmly on deflector (16), a plurality of first fixed axle (161) all are in the coplanar, it is provided with guide roller (162) to rotate on first fixed axle (161).

4. The thermal transfer printing device for wood panels as defined in claim 3, wherein the transmission structure comprises:

the two second fixing shafts (6) are fixedly arranged between the two partition plates (14) in parallel, the two second fixing shafts (6) are respectively positioned on two sides of the opening (12), the distances from the two second fixing shafts (6) to the lower side wall of the first rectangular pipe (1) are the same, and the second fixing shafts (6) are rotatably provided with guide rollers (61);

the second rotating shaft (7) is rotatably arranged between the two partition plates (14), the second rotating shaft (7) and the first rotating shaft (5) are parallel to each other, a second roller (71) is fixedly arranged on the second rotating shaft (7), and the other end of the transfer printing film (91) sequentially penetrates through the bottoms of the two guide rollers (61) and is finally fixedly connected to the first roller (51);

the first motor (52), the first motor (52) is fixedly arranged on the partition plate (14), and one end of the first rotating shaft (5) penetrates through the partition plate (14) and is in transmission connection with the first motor (52);

the second motor (72) is fixedly arranged on the partition plate (14), and one end of the second rotating shaft (7) penetrates through the partition plate (14) to be in transmission connection with the second motor (72).

5. The thermal transfer printing device for wood panels as defined in claim 4, wherein the shearing structure comprises:

the electric push rod (4) is vertically and fixedly arranged on the upper side wall of the first rectangular pipe (1) between the two partition plates (14);

the pressing block (41) is fixedly arranged at the lower end of the electric push rod (4), the pressing block (41) is located above the transfer printing film (91), a blind hole (411) is formed in the lower side surface of the pressing block (41), the cross section of the blind hole (411) is rectangular, and the size of the cross section of the blind hole (411) is larger than that of the jointed board (9);

the cross section of the blade (414) is annular and rectangular, and the blade (414) is fixedly arranged at the edge of the blind hole (411);

the fixing structure is arranged in the blind hole (411), and the transfer printing film (91) cut off by the blade (414) can be fixed on the upper side face of the jointed board (9).

6. The heat transfer printing device for wood panels as defined in claim 5, wherein the fixing structure comprises:

the sliding block (42) is arranged in the blind hole (411) in a sliding mode, a plurality of through holes (421) are formed in the sliding block (42), and the through holes (421) penetrate through the upper side face and the lower side face of the sliding block (42);

one end of each first return spring (413) is fixedly connected with the bottom of the blind hole (411), and the other end of each first return spring (413) is fixedly connected with the upper side face of the sliding block (42);

a plurality of electrical heating stick (412), a plurality of electrical heating stick (412) are vertical to be set firmly in the bottom of blind hole (411), a plurality of electrical heating stick (412) and a plurality of perforation (421) one-to-one, the free end of electrical heating stick (412) stretches into in corresponding perforation (421).

7. The thermal transfer device for wood panels as defined in claim 6, wherein the transfer mechanism comprises:

the two sliding groove holes (17) are oppositely arranged on the left side wall and the right side wall of the first rectangular pipe (1), and the sliding groove holes (17) are long-strip-shaped and are vertically arranged;

the third fixing shaft (8) is vertically and slidably arranged on the left side wall and the right side wall of the first rectangular pipe (1) through two sliding groove holes (17), and the length direction of the third fixing shaft (8) is perpendicular to the left side wall and the right side wall of the first rectangular pipe (1);

the electric heating roller (81), the electric heating roller (81) is rotatably arranged on the third fixed shaft (8);

the driving structure can intermittently drive the third fixing shaft (8) to move up and down.

8. The thermal transfer device for wood panels as defined in claim 7, wherein the driving structure comprises:

two sliding rods (82), two sliding rods (82) are vertically and fixedly arranged on a third fixed shaft (8), the two sliding rods (82) are respectively positioned at two sides of an electric heating roller (81), two first through holes (15) are formed in the upper side wall of a first rectangular pipe (1), the two sliding rods (82) and the two first through holes (15) are in one-to-one correspondence, the upper ends of the sliding rods (82) penetrate through the corresponding first through holes (15) to extend to the upper side of the first rectangular pipe (1), upper convex edges (821) are arranged on the sliding rods (82) outside the first rectangular pipe (1), lower convex edges (822) are arranged on the sliding rods (82) in the first through holes (11), a second reset spring (823) is sleeved on the sliding rods (82), one end of the second reset spring (823) is fixedly connected with the upper side wall of the first rectangular pipe (1), and the other end of the second reset spring is fixedly connected with the lower convex edges (822), a rack (824) is vertically and fixedly arranged at the upper end of the sliding rod (82);

the fourth rotating shaft (83) is rotatably arranged at the top of the first rectangular pipe (1) through two supporting plates (833), and the fourth rotating shaft (83) is parallel to the third fixed shaft (8);

the two incomplete gears (832) are fixedly arranged at two ends of a fourth rotating shaft (83), the two incomplete gears (832) correspond to the two racks (824) one by one, and the incomplete gears (832) are meshed and connected with the corresponding racks (824);

the third motor (84) is fixedly arranged on the first rectangular pipe (1), and the third motor (84) is in transmission connection with the fourth rotating shaft (83).

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