CN210733549U - Novel heat transfer printing machine - Google Patents

Abstract

The utility model discloses a novel thermal transfer printing machine relates to calico printing machine technical field, the utility model discloses a two frames, from left to right the material outlet roller that has set gradually between two frames, go out the paper roller, stamp shifts the mechanism, the delivery roll, guide roller and coil stock mechanism, stamp shifts the mechanism and includes two sets of heating compression rollers of arranging from top to bottom, heating compression roller both ends pivot all is connected with the bearing frame, it all is connected with the double-rod pneumatic cylinder to be located between the two bearing frames of heating compression roller with one side, the one end that the double-rod pneumatic cylinder is close to the frame is provided with leads sliding component, two frame lateral walls all are provided with and lead sliding component complex horizontal slide rail A, the double-rod pneumatic cylinder all is connected with the horizontal pneumatic cylinder A that sets up at the frame lateral wall, the utility model has the advantages of simple structure, can guarantee can not tear the stamp cloth.

Description

Novel heat transfer printing machine

Technical Field

The utility model relates to a calico printing machine technical field, more specifically relates to a novel heat transfer calico printing machine.

Background

The printing machine is mainly divided into a thermal transfer printing machine, a digital printing machine (universal printer), a flat screen printing machine, a circular screen printing machine, a walking platform printing machine and the like. The heat transfer printing is a new printing and dyeing process which is gradually developed internationally in recent years, firstly, special printing and dyeing (water or oil) is printed on special paper by a high-grade printing technology to prepare the transfer printing paper with various designs, then, the surface of the transfer printing paper printed with the designs is tightly adhered to a printed fabric, and the dyes of the stained paper are used to generate sublimation action under the action of heat and pressure to be transferred to the printed fabric to form various needed designs on the printed fabric.

At present, a thermal transfer printing machine generates heat and pressure to printing paper and original cloth through an upper group of heating press rollers and a lower group of heating press rollers, thereby transferring the pattern on the printing paper to the original cloth to obtain the printed cloth, pulling and winding the printed cloth on the cloth reel under the rotation action of the cloth reel, the used printing paper is wound on the paper collecting reel, but a certain defect exists in the practical use process, the smaller the distance between the upper and lower groups of heating press rollers is, the bigger the pressure generated on the printing paper and the original cloth, the better the printing transfer effect, but the larger the pulling force of the cloth winding drum to the printed cloth, the printed cloth is easy to tear, if the distance between the upper and lower heating press rollers is increased, the smaller the pressure will affect the printing transfer effect, therefore, a new thermal transfer printing machine is needed, which can ensure the printing transfer effect under the condition of ensuring that the printed cloth is not torn.

Therefore, it is a realistic meaning for those skilled in the art how to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: in order to solve the technical problem that the prior thermal transfer printing machine can not guarantee the printing transfer effect under the condition that the printed cloth can not be torn, the utility model provides a novel thermal transfer printing machine.

The utility model discloses a realize above-mentioned purpose and specifically adopt following technical scheme:

the utility model provides a novel thermoprint machine of printing, which comprises two frames, from left to right the ejection of compact roller has set gradually between two frames, the play paper roller, stamp shifts the mechanism, the paper delivery reel, guide roller and coiling mechanism, stamp shifts the mechanism and includes two sets of heating compression rollers of arranging from top to bottom, heating compression roller both ends pivot all is connected with the bearing frame, it all is connected with the two pole pneumatic cylinders to be located between the two bearing frames of heating compression roller with one side, the one end that the two pole pneumatic cylinders are close to the frame is provided with leads smooth subassembly, two frame lateral walls all are provided with and lead smooth subassembly complex horizontal slide rail A, the two pole pneumatic cylinders all are connected with the horizontal hydraulic cylinder A of setting at the frame.

Furthermore, the discharging roller is wound with original cloth, the paper discharging rollers are provided with two paper discharging rollers which are respectively positioned above and below the original cloth, the two paper discharging rollers are provided with printing paper, the paper collecting rollers are provided with two paper collecting rollers which are respectively positioned above and below the printed cloth, and the material guiding rollers are provided with two paper guiding rollers which are respectively in contact with the upper surface and the lower surface of the printed cloth.

Further, coiling mechanism is including setting up the horizontal slide rail B on the lateral wall that two frames are close to each other, is provided with the mounting bracket on two horizontal slide rail B all slidable, and the mounting bracket can be dismantled with horizontal slide rail B and be connected, and from the top down has a plurality of cloth reels through pivot swing joint between two mounting brackets.

Further, the mounting bracket comprises a sliding plate in sliding fit with the guide sliding rail, the sliding plate is connected with the guide sliding rail through screws, the sliding plate is vertically connected with mounting plates, and the cloth winding drum is movably connected between the two mounting plates.

Furthermore, two dust collection heads which are respectively positioned on the upper surface and the lower surface of the original cloth are arranged between the discharging roller and the discharging roller, one end of each dust collection head is connected with a horizontal hydraulic cylinder B arranged on the side wall of the rack, the other end of each dust collection head is connected with a soft dust collection pipe, the soft dust collection pipe is connected with a dust collection pump, and the dust collection pump is connected with a dust collection box.

The utility model has the advantages as follows:

1. the utility model provides a stamp transfer mechanism can flatten stamp paper and former cloth one section alone, thereby obtain the cloth after one section stamp, then make the heating compression roller loosen stamp paper and former cloth through two pole pneumatic cylinders, make coil stock mechanism and delivery reel begin to rotate again, convolute the cloth after the stamp on coil stock mechanism, go on separately through the step with stamp and coil stock, the effect is dragged during the stamp to nothing, consequently, can improve the pressure between two sets of heating compression rollers, in order to guarantee stamp transfer effect, the heating compression roller is to the non-pressure effect of stamp cloth during the coil stock, can not tear the stamp cloth.

2. The utility model discloses be provided with a plurality of cloth reels on the mounting bracket, whole change again after full, saved midway time of changing the cloth reel many times, during the change, can draw out mounting bracket and cloth reel are whole from horizontal slide rail B, install new mounting bracket and cloth reel again, easy dismounting is swift, and the cost time is few, is favorable to serialization production, has improved production efficiency.

3. The utility model discloses set up two and gone out the paper roller, can select one of them calico paper of going out the paper roller as required, also can use two calico paper on going out the paper roller simultaneously to carry out single face printing or two-sided printing.

Drawings

FIG. 1 is a schematic view of a novel thermal transfer decorating machine of the present invention;

FIG. 2 is a schematic sectional view taken along line A-A in FIG. 1 (omitting the delivery roll, the guide roll and the winding mechanism);

fig. 3 is a schematic sectional view at B-B in fig. 1.

Reference numerals: 1-frame, 2-discharging roller, 3-discharging roller, 4-printing transfer mechanism, 4.1-heating roller, 4.2-bearing seat, 4.3-double-rod hydraulic cylinder, 4.4-horizontal hydraulic cylinder A, 5-horizontal slide rail A, 6-paper-collecting roller, 7-guide roller, 8-rolling mechanism, 8.1-horizontal slide rail B, 8.2-mounting frame, 8.2.1-sliding plate, 8.2.2-mounting plate, 8.3-cloth roller, 9-raw cloth, 10-printing paper, 11-screw, 12-dust-absorbing head, 13-horizontal hydraulic cylinder B, 14-soft dust-absorbing pipe, 15-dust-absorbing pump and 16-dust-collecting box.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

In the description of the present application, it is to be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the referred device or element must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present application.

The features and properties of the present invention are described in further detail below with reference to examples.

Example 1

As shown in fig. 1 to 3, this embodiment provides a novel thermal transfer printing machine, including two frames 1, from left to right, discharge roller 2 has set gradually between two frames 1, discharge roller 3, printing transfer mechanism 4, delivery roller 6, guide roller 7 and coiling mechanism 8, printing transfer mechanism 4 includes two sets of heating compression roller 4.1 that arrange from top to bottom, the pivot in heating compression roller 4.1 both ends all is connected with bearing frame 4.2, be located and all be connected with two pole pneumatic cylinders 4.3 between two bearing frames 4.2 of heating compression roller 4.1 with one side, the one end that two pole pneumatic cylinders 4.3 are close to frame 1 is provided with leads the smooth subassembly, two frame 1 lateral walls all are provided with and lead smooth subassembly complex horizontal slide rail a5, two pole pneumatic cylinders 4.3 all are connected with the horizontal pneumatic cylinder a4.4 that sets up at frame 1 lateral wall.

The discharging roller 2 is wound with original cloth 9, the paper discharging rollers 3 are provided with two paper discharging rollers and are respectively positioned above and below the original cloth 9, printing paper 10 is arranged on the two paper discharging rollers 3, the paper collecting roller 6 is provided with two paper discharging rollers and is respectively positioned above and below the printed cloth, and the guide rollers 7 are provided with two paper discharging rollers and are respectively in surface contact with the printed cloth.

In this embodiment, during printing, the printing transfer mechanism works, and the paper receiving drum and the material rolling mechanism do not work, at this time, the two-bar hydraulic cylinder drives the two groups of heating press rollers to approach each other to press the printing paper and the original cloth, then the horizontal hydraulic cylinder a pushes the corresponding two-bar hydraulic cylinder to move along the horizontal slide rail a toward the paper output drum, the heating press rollers also move and rotate along with the movement, the two groups of heating press rollers flatten the printing paper and the original cloth into one section, the paper output drum can automatically rotate under the pulling action, in this process, the pattern on the printing paper is transferred onto the original cloth under the heat and pressure action of the heating press rollers to obtain a section of printed cloth, then the piston rods at the upper and lower ends of the two groups of heating press rollers drive the two groups of heating press rollers to release the printing paper and the original cloth, at this time, the material rolling mechanism and the paper receiving drum start to work, so that the section of printed cloth passes, and the used section of printing paper is wound on the paper collection roller, and meanwhile, the horizontal hydraulic cylinder A drives the double-rod hydraulic cylinder and the two groups of heating press rollers to move and reset towards the direction far away from the paper outlet roller so as to prepare for the next procedure.

Go out the paper roller and be provided with two, if single face printing, choose for use one of them to go out the printing paper and the laminating of former cloth of paper roller, if two-sided printing, use two printing paper on going out the paper roller simultaneously and laminate in former cloth upper and lower surface respectively, use in a flexible way.

The double-rod hydraulic cylinder is a hydraulic cylinder with piston rods on two sides of a piston in a cylinder barrel, is generally driven by bidirectional hydraulic pressure and can realize constant-speed reciprocating motion, and is a mature prior art, so that excessive description is not needed here.

Each group of the two groups of heating compression rollers can be one or a plurality of, a roller bearing matched with the corresponding heating compression roller is arranged in the bearing seat, heaters (not shown in the figure) are arranged in the heating compression rollers and used for heating the surfaces of the heating compression rollers, and the heating temperature is adjustable.

Example 2

As shown in fig. 1 to 3, the present embodiment is further optimized on the basis of embodiment 1, specifically, the material rolling mechanism 8 includes horizontal slide rails B8.1 disposed on the side walls of the two racks 1 close to each other, the two horizontal slide rails B8.1 are slidably provided with mounting brackets 8.2, the mounting brackets 8.2 are detachably connected to the horizontal slide rails B8.1, and a plurality of cloth reels 8.3 are movably connected between the two mounting brackets 8.2 from top to bottom through rotating shafts.

The mounting bracket 8.2 comprises a sliding plate 8.2.1 which is in sliding fit with the guide sliding rail, the sliding plate 8.2.1 is connected with the guide sliding rail through a screw 11, the sliding plate 8.2.1 is vertically connected with a mounting plate 8.2.2, and a cloth winding drum 8.3 is movably connected between the two mounting plates 8.2.2.

In this embodiment, printed cloth is wound on the cloth reel, after one of the cloth reels is full, cut the cloth and continue to wind on another empty cloth reel, the time of changing the cloth reel many times midway can be saved, the cloth reels herein respectively adopt motor drive alone, after all cloth reels are full, dismantle down the screw between mounting bracket and the horizontal slide rail B, remove the restriction, then directly take out the mounting bracket and make the slide along leading the slide rail roll-off, thereby take out mounting bracket and cloth reel are whole, change new mounting bracket and cloth reel again, easy dismounting is swift, the cost time is few.

The discharging roller, the paper collecting roller and the material guiding roller are movably connected between the two frames through ball bearings.

Example 3

As shown in fig. 1, the present embodiment is further optimized based on embodiment 1, specifically, two dust collection heads 12 respectively located on the upper and lower surfaces of the original cloth 9 are disposed between the discharging roller 2 and the paper discharging roller 3, one end of each dust collection head 12 is connected to a horizontal hydraulic cylinder B13 disposed on the side wall of the frame 1, the other end of each dust collection head 12 is connected to a soft dust collection pipe 14, the soft dust collection pipe 14 is connected to a dust collection pump 15, and the dust collection pump 15 is connected to a dust collection box 16.

In this embodiment, through the impurity such as the dirt bits on the adsorbable former cloth surface of dust absorption head that has suction, drive dust absorption head reciprocating motion about simultaneously under the effect of horizontal pneumatic cylinder B, can improve adsorption effect, guarantee cloth stamp processingquality, absorbent impurity is finally collected in the dust collection box.

The working principle is as follows: when printing, the printing transfer mechanism starts to work (at the moment, the cloth winding drum and the paper collection winding drum do not work), the two groups of heating press rollers press printing paper and original cloth tightly under the action of the two-rod hydraulic cylinder, then the horizontal hydraulic cylinder A pushes the corresponding two-rod hydraulic cylinder to move towards the paper outlet roller direction along the horizontal sliding rail A, the heating press rollers also move and rotate along with the movement, so that the two groups of heating press rollers flatten the printing paper and the original cloth for one section, the paper outlet roller can automatically rotate under the pulling action, in the process, patterns on the printing paper are transferred to the original cloth under the action of heat and pressure of the heating press rollers, a section of printed cloth is obtained, then piston rods at the upper end and the lower end of the two-rod hydraulic cylinder drive the two groups of heating press rollers to release the printing paper and the original cloth, at the moment, the cloth winding drum and the paper collection winding drum start to rotate under the action of corresponding motors (not shown in the figure), so that the printed, and the used section of printing paper is wound on the paper collection roller, and meanwhile, the horizontal hydraulic cylinder A drives the double-rod hydraulic cylinder and the two groups of heating press rollers to move and reset towards the direction far away from the paper outlet roller so as to prepare for the next procedure.

The above description is only for the preferred embodiment of the present invention, and the present invention is not limited thereto, the protection scope of the present invention is defined by the claims, and all structural changes equivalent to the contents of the description and drawings of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. A novel thermal transfer printing machine comprises two frames (1), a discharging roller (2), a discharging roller (3), a printing transfer mechanism (4), a paper collecting roller (6), a material guiding roller (7) and a material rolling mechanism (8) are sequentially arranged between the two frames (1) from left to right, the printing transfer mechanism is characterized in that the printing transfer mechanism (4) comprises two groups of heating compression rollers (4.1) which are arranged from top to bottom, rotating shafts at two ends of each heating compression roller (4.1) are connected with bearing seats (4.2), two double-rod hydraulic cylinders (4.3) are connected between the two bearing seats (4.2) which are positioned on the same side of the heating compression rollers (4.1), one ends, close to the frames (1), of the double-rod hydraulic cylinders (4.3) are provided with guide sliding assemblies, horizontal sliding rails A (5) matched with the guide sliding assemblies are arranged on the side walls of the two frames (1), and the double-rod hydraulic cylinders (4.3) are connected with horizontal hydraulic cylinders A (4.4) arranged on the side walls.

2. The novel thermal transfer printing machine according to claim 1, wherein the discharging roller (2) is wound with an original cloth (9), the discharging rollers (3) are arranged two and respectively located above and below the original cloth (9), printing papers (10) are arranged on the discharging rollers (3), the collecting roller (6) is arranged two and respectively located above and below the printed cloth, and the guiding rollers (7) are arranged two and respectively contacted with the upper and lower surfaces of the printed cloth.

3. The novel thermal transfer printing machine according to claim 1 or 2, wherein the material rolling mechanism (8) comprises horizontal sliding rails B (8.1) arranged on the side walls of the two racks (1) close to each other, mounting frames (8.2) are arranged on the two horizontal sliding rails B (8.1) in a sliding manner, the mounting frames (8.2) are detachably connected with the horizontal sliding rails B (8.1), and a plurality of cloth winding drums (8.3) are movably connected between the two mounting frames (8.2) from top to bottom through rotating shafts.

4. The novel thermal transfer printing machine according to claim 3, characterized in that the mounting frame (8.2) comprises a sliding plate (8.2.1) which is in sliding fit with the guide rail, the sliding plate (8.2.1) is connected with the guide rail through a screw (11), the sliding plate (8.2.1) is vertically connected with mounting plates (8.2.2), and the cloth drum (8.3) is movably connected between the two mounting plates (8.2.2).

5. The novel thermal transfer printing machine according to claim 2, wherein two dust suction heads (12) respectively positioned on the upper and lower surfaces of the original cloth (9) are arranged between the discharge roller (2) and the paper discharge roller (3), one end of each dust suction head (12) is connected with a horizontal hydraulic cylinder B (13) arranged on the side wall of the frame (1), the other end of each dust suction head (12) is connected with a soft dust suction pipe (14), the soft dust suction pipe (14) is connected with a dust suction pump (15), and the dust suction pump (15) is connected with a dust collection box (16).

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