CN109263294A - Thermal transfer printer and its application method - Google Patents

Abstract

The invention discloses thermal transfer printer and its application methods, including fuselage, symmetrically arranged first cavity in end wall is set before and after the first sliding cavity and the fuselage in the fuselage, it is capable of sliding back and forth in first sliding cavity to be provided with the first sliding shoe, the second cavity and the third cavity on the left of second cavity are provided in first sliding shoe, rotation is provided with the spline housing of front and rear sides end end wall before and after first sliding shoe in second cavity, the spline housing outer surface in second cavity is fixedly installed with first bevel gear；Device structure of the invention is simple, it is easy to operate, by using the same power source drive equipment heating component movement and clothing it is smooth, moving up and down for heating component is realized in handoff procedure again, two operating platforms of this equipment utilization switch operation, the thermal transfer efficiency of raising, while the risk being burned reduced, it cooperates and does not influence between each process, improve device practical performance.

Description

Thermal transfer printer and its application method

Technical field

The present invention relates to thermal transfer fields, specifically thermal transfer printer and its application method.

Background technique

With the development of science and technology, social progress, country promotes always high-tech development, in thermal transfer field, one It is exactly that part thermal transfer equipment needs Manual press, the degree of automation is low, existing directly there are a relatively difficult technical problem Thermal transfer equipment do not have the smooth function of clothing, and existing only one operating platform of thermal transfer equipment, efficiency is lower, And it is operated under heating component and is easy scald, therefore a kind of device of urgent need solves problems.

Summary of the invention

Technical problem to be solved by the invention is to provide thermal transfer printer and its application methods, are able to solve above-mentioned The problems in present technology.

The present invention is achieved through the following technical solutions: thermal transfer printer and its application method of the invention, packet Include fuselage, symmetrically arranged first cavity in end wall before and after the first sliding cavity and the fuselage that are arranged in the fuselage, It is capable of sliding back and forth in first sliding cavity to be provided with the first sliding shoe, be provided in first sliding shoe the second cavity with And the third cavity on the left of second cavity, the interior rotation of second cavity are provided with front and rear sides end through described The spline housing of end wall before and after first sliding shoe, the spline housing outer surface in second cavity are fixedly installed with the first cone tooth It takes turns, the spline chamber that front and back penetrates through is set in the spline housing, the intracavitary spline fitted of spline is connected with the splined shaft that front and back extends, The splined shaft front and rear sides are rotatably dispose in the end wall of the first sliding cavity front and back, and splined shaft front and rear sides end is passed through Wear that the first cavity end wall protrudes into first cavity and end is fixedly installed with first pulley, the second cavity front side end It is provided with the 4th cavity of opening backward in wall, is provided with the 5th cavity extended to the left in the 4th cavity bottom wall, it is described Rotation is provided with first rotating shaft, the first rotating shaft end in the 5th cavity between 5th cavity and the 4th cavity It is fixedly installed with first gear, the first rotating shaft end in the 4th cavity is fixedly installed with and the first bevel gear The second bevel gear of engagement, the interior rotation of the third cavity are provided with front and rear sides end through first sliding shoe front and back end First thread bush of wall, first thread bush outer surface in the third cavity is fixedly installed with third hand tap gear, described The first threaded hole that front and back penetrates through is provided in first thread bush, the first threaded hole screw-internal thread fit is connected with front and back and extends The first threaded rod, first threaded rod front and rear sides end is rotatably dispose in front of and after first sliding cavity in end wall, institute It states rotation between third cavity and the 5th cavity and is provided with the second shaft, second shaft end in the third cavity End is fixedly installed with the 4th bevel gear engaged with the third hand tap gear, second shaft end in the 5th cavity It is fixedly installed with second gear, the second sliding cavity is provided with and communicated in the 5th cavity bottom wall, it can in second sliding cavity Sliding is provided with the second sliding shoe, is fixedly installed with rack gear, the second sliding shoe in end wall on rear side of the second sliding shoe It is provided with first motor in roof, the first motor output shaft upwardly extends end and is fixedly installed with to be nibbled with the second gear The third gear of conjunction.

Preferably technical solution, the first sliding shoe bottom wall inner opening are vertically provided with through second sliding 6th cavity of chamber is rotatably provided with the second thread bush, second thread bush and fixed setting in the 6th cavity It is solid in second thread bush outer surface in the second motor power connection in the 6th cavity roof, the 6th cavity Dingan County is equipped with the 4th gear engaged with the rack gear, is provided with the second screw thread that Open Side Down in the second thread bush bottom wall Hole, the second threaded hole screw-internal thread fit are connected with the second threaded rod extended downwardly, the third threaded rod bottom end It is fixedly installed with third sliding shoe.

Preferably technical solution is provided with bilateral symmetry and front and back symmetrical first in the first sliding shoe bottom wall Sliding eye, is provided with bilateral symmetry and symmetrical second sliding eye in front and back in the third sliding shoe, in first sliding eye It is provided with the first sliding bar extended up and down, first sliding bar bottom is through second sliding eye and end is fixedly mounted There is back-shaped piece.

Preferably technical solution is fixedly installed with heating component in the first sliding shoe bottom wall.

Preferably technical solution is provided with the symmetrical boss in front and back, the boss in the first sliding cavity bottom wall It is inside provided with the 7th cavity, is provided with and communicated with symmetrical long hole between the 7th cavity and first sliding cavity, institute It states and is slidably provided with symmetrical 4th sliding shoe in front and back in the 7th cavity, the 4th sliding shoe is symmetrically set with can The idler wheel of rotation is provided with the third threaded hole with reverse thread that front and back penetrates through in former and later two described 4th sliding shoes, The third threaded hole screw-internal thread fit is connected with the third threaded rod that front and back extends, and the third threaded rod is close to described first First cavity is protruded into through the first cavity end wall in cavity side, the third threaded rod end in first cavity End is fixedly installed with the second belt wheel, is driven and is cooperatively connected by belt between second belt wheel and the first pulley, and described the The second sliding eye being symmetrically arranged at left and right sides of the third threaded hole in four sliding shoes is sliding in the third sliding eye Dynamic the second sliding bar for being connected with front and back and extending, second sliding bar front and rear sides end is fixedly installed on the described 7th Before and after cavity in end wall.

Preferably technical solution is symmetrically arranged with the opposite limit that is open in end wall before and after second sliding eye Slot is slidably provided with the limited block being fixedly connected with first sliding bar, the limited block and institute in the limiting slot Elasticity is provided with top pressure spring between stating limiting slot roof.

Thermal transfer printer and its application method of the invention, application method are as follows:

When being worked with equipment of the invention, the clothing for needing xylopyrography is divided to the boss, xylopyrography is placed in the clothing Object appropriate location, starts second motor at this time, and the second motor rotation drives the second thread bush rotation, and described the The rotation of two thread bush drives the 4th gear rotation, and the 4th gear rotation drives the second sliding shoe mobile, described The second sliding shoe is mobile to drive the third gear mobile, and the second gear and the third gear are detached from this time, same with this When, the second thread bush rotation drives second threaded rod to move down, and second threaded rod, which moves down, drives the third sliding Motion block moves down, and the third sliding shoe moves down described back-shaped piece of drive and moves down, and described back-shaped piece moves down the clothing being stuck in institute It states on boss, the third sliding shoe continues to move down at this time, when the heating component is abutted with the clothing, the third tooth Wheel is engaged with the first gear, starts the first motor rotation, and the first motor rotation drives the third gear to turn Dynamic, the third gear rotation drives the first gear rotation, and the first gear rotation drives the second bevel gear to turn Dynamic, the second bevel gear rotation drives the first bevel gear rotation, and the first bevel gear rotation drives the spline housing Rotation, the spline housing rotation drive the splined shaft rotation, and the splined shaft rotation drives the first pulley rotation, described First pulley rotation drives the second belt wheel rotation, and the second belt wheel rotation drives the third threaded rod rotation, described The rotation of third threaded rod drives the idler wheel backwards to movement, and the idler wheel uniformly evens up clothing, starts the heating group at this time Part, the heating component heats the xylopyrography, the xylopyrography is transferred on clothing, after the completion of transfer, rotates backward described First motor, the first motor drive the idler wheel to move towards and restPose, and it is anti-to start second motor at this time Turn, second motor reversal drives the second thread bush reversion, and the second thread bush reversion drives the 4th gear Reversion, the 4th gear reversion drive the second sliding shoe mobile, and the second sliding shoe is mobile to drive the third tooth Movement is taken turns, the first gear and the third gear are detached from this time, at the same time, described in the second thread bush reversion drive Second threaded rod moves up, and second threaded rod, which moves up, drives the third sliding shoe to move up, when the third sliding shoe and institute When stating the first sliding shoe abutting, the third gear is engaged with the second gear, starts the first motor rotation band at this time The third gear rotation is moved, the third gear rotation drives the second gear rotation, and the second gear rotation drives The 4th bevel gear rotation, the 4th bevel gear rotation drive the third hand tap gear rotation, and the third hand tap gear turns It is dynamic to drive the first thread bush rotation, to drive first sliding shoe to move backward, when first sliding shoe and institute When stating end wall abutting on rear side of the first sliding shoe, above-mentioned process is operated again, the operation of thermal transfer xylopyrography is carried out to second clothing.

The beneficial effects of the present invention are: device structure of the invention is simple, and it is easy to operate, by using the same power source band The movement of dynamic equipment heating component and clothing it is smooth, and realize moving up and down for heating component in handoff procedure, originally set It is standby to switch operations, the thermal transfer efficiency of raising, while the risk being burned reduced using two operating platforms, each process it Between cooperate and do not influence, improve device practical performance.

Detailed description of the invention

The present invention is described in detail by following specific embodiments and drawings for ease of explanation,.

Fig. 1 is thermal transfer printer of the invention and its application method overall structure diagram；

Fig. 2 is A-A structural schematic diagram in Fig. 1.

Specific embodiment

As Figure 1-Figure 2, thermal transfer printer of the invention and its application method, including fuselage 100, setting are described Symmetrically arranged first cavity 119 in 100 front and back end wall of the first sliding cavity 101 and the fuselage in fuselage 100, described It is capable of sliding back and forth in one sliding cavity 101 to be provided with the first sliding shoe 102, the second sky is provided in first sliding shoe 102 Chamber 117 and the third cavity 103 on the left of second cavity 117, the interior rotation of second cavity 117 are provided with front and back Both-side ends run through the spline housing 151 of the 102 front and back end wall of the first sliding shoe, the spline in second cavity 117 It covers 151 outer surfaces and is fixedly installed with first bevel gear 118, the spline chamber 150 that front and back penetrates through is set in the spline housing 151, it is described 150 internal spline of spline chamber is connected with the splined shaft 150 that front and back extends, and 150 front and rear sides of splined shaft are rotatably dispose in In first sliding cavity, the 101 front and back end wall, 119 end wall of the first cavity is run through in the 150 front and rear sides end of splined shaft It protrudes into first cavity 119 and end is fixedly installed with first pulley 120, setting in the 117 front side end wall of the second cavity There is the 4th cavity 121 of opening backward, is provided with the 5th cavity 126 extended to the left in 121 bottom wall of the 4th cavity, it is described Rotation is provided with first rotating shaft 124 between 5th cavity 126 and the 4th cavity 121, described in the 5th cavity 126 124 end of first rotating shaft is fixedly installed with first gear 125, and 124 end of the first rotating shaft in the 4th cavity 121 is solid Dingan County is equipped with the second bevel gear 122 engaged with the first bevel gear 118, before rotation is provided in the third cavity 103 Both-side ends run through the first thread bush 105 of the 102 front and back end wall of the first sliding shoe, the institute in the third cavity 103 afterwards It states 105 outer surface of the first thread bush and is fixedly installed with third hand tap gear 104, front and back is provided in first thread bush 105 and is passed through The first logical threaded hole 107,107 screw-internal thread fit of the first threaded hole are connected with the first threaded rod 106 that front and back extends, institute It states 106 front and rear sides end of the first threaded rod to be rotatably dispose in the 101 front and back end wall of the first sliding cavity, the third cavity Rotation is provided with the second shaft 109, second shaft in the third cavity 103 between 103 and the 5th cavity 126 109 ends are fixedly installed with the 4th bevel gear 108 engaged with the third hand tap gear 105, the institute in the 5th cavity 126 It states 109 end of the second shaft and is fixedly installed with second gear 110, it is sliding that second is provided with and communicated in 126 bottom wall of the 5th cavity Chamber 113 is moved, the second sliding shoe 128,128 rear side of the second sliding shoe are slidably provided in second sliding cavity 113 It is fixedly installed with rack gear 148 in end wall, is provided with first motor 112, the first motor in 128 roof of the second sliding shoe 112 output shafts upwardly extend end and are fixedly installed with the third gear 111 engaged with the second gear 110.

Valuably, the 102 bottom wall inner opening of the first sliding shoe is vertically provided with through second sliding cavity 113 Six cavitys 131, are rotatably provided with the second thread bush 130 in the 6th cavity 131, second thread bush 130 with it is solid Surely the second motor 127 being set in 131 roof of the 6th cavity is connected by power, and described in the 6th cavity 131 Two thread bush, 130 outer surface is fixedly installed with the 4th gear 129 engaged with the rack gear 148,130 bottom of the second thread bush It is provided with the second threaded hole 132 that Open Side Down in wall, 132 screw-internal thread fit of the second threaded hole, which is connected with, to be extended downwardly Second threaded rod 133,133 bottom end of third threaded rod are fixedly installed with third sliding shoe 124.

Valuably, bilateral symmetry and symmetrical first sliding eye in front and back are provided in 102 bottom wall of the first sliding shoe 152, bilateral symmetry and symmetrical second sliding eye 146 in front and back, first sliding eye are provided in the third sliding shoe 124 The first sliding bar 147 extended up and down is provided in 152, second sliding eye 152 is run through in 147 bottom of the first sliding bar And end is fixedly installed with back-shaped piece 134.

Valuably, it is fixedly installed with heating component 141 in 102 bottom wall of the first sliding shoe, turned convenient for heating the heat Print xylopyrography.

Valuably, it is provided with the symmetrical boss in front and back in 101 bottom wall of the first sliding cavity, the is provided in the boss Seven cavitys 137 are provided with and communicated with symmetrical long hole 114 between the 7th cavity 137 and first sliding cavity 101, Symmetrical 4th sliding shoe 139 in front and back, the 4th sliding shoe 139 or so are slidably provided in 7th cavity 137 It is symmetrically arranged with rotatable idler wheel 138, it is reversed that having for front and back perforation is provided in former and later two described 4th sliding shoes 139 The third threaded hole 140 of screw thread, 140 screw-internal thread fit of third threaded hole are connected with the third threaded rod 136 that front and back extends, The third threaded rod 136 protrudes into first sky through 119 end wall of the first cavity close to 119 side of the first cavity Chamber 119,136 end of third threaded rod in first cavity 119 are fixedly installed with the second belt wheel 135, and described second It is driven and is cooperatively connected by belt 123 between belt wheel 135 and the first pulley 120, is symmetrical arranged in the 4th sliding shoe 139 There are the second sliding eye 116 for being located at 140 left and right sides of third threaded hole, the company of being slidably matched in the third sliding eye 116 It is connected to the second sliding bar 115 that front and back extends, it is empty that the 115 front and rear sides end of the second sliding bar is fixedly installed on the described 7th In 137 front and back end wall of chamber.

Valuably, the opposite limiting slot 144 that is open is symmetrically arranged in the 146 front and back end wall of the second sliding eye, it is described The limited block 143 being fixedly connected with first sliding bar 147, the limited block 143 are slidably provided in limiting slot 144 Elasticity is provided with top pressure spring 145 between 144 roof of limiting slot.

Thermal transfer printer and its application method of the invention, application method are as follows:

When equipment of the invention is in original state, the first motor 112 and the second motor 127 are in stationary state, The heating component is in close state, and first sliding shoe 102 is located at first sliding cavity 101 most front side, and described the Two sliding shoes 128 are located at 113 leftmost side of the second sliding cavity, and the second gear 110 is engaged with the third gear 111, The third gear 111 is detached from the first gear 125, and the third sliding shoe 142 is supported with first sliding shoe 102 It connects.

When being worked with equipment of the invention, the clothing for needing xylopyrography is divided to the boss, xylopyrography is placed in institute Clothing appropriate location is stated, starts second motor 127 at this time, the rotation of the second motor 127 drives second thread bush 130 rotations, the rotation of the second thread bush 130 drive the 4th gear 129 rotation, and the 4th gear 129 rotation drives The second sliding shoe 128 is mobile, and the second sliding shoe 128 is mobile to drive the third gear 111 mobile, and described at this time the Two gears 110 are detached from the third gear 111, and at the same time, the rotation of the second thread bush 130 drives second screw thread Bar 133 moves down, and second threaded rod 133, which moves down, drives the third sliding shoe 142 to move down, under the third sliding shoe 142 Shipper pole moves described back-shaped piece 134 and moves down, and described back-shaped piece 134 moves down the clothing is stuck on the boss, and described at this time Three sliding shoes 142 continue to move down, when the heating component 141 is abutted with the clothing, the third gear 111 and described the The engagement of one gear 125 starts the first motor 112 and rotates, and the rotation of first motor 112 drives the third gear 111 Rotation, the third gear 111 rotation drive the first gear 125 to rotate, and the rotation of first gear 125 drives described the The rotation of two bevel gears 122, the rotation of second bevel gear 122 drive the first bevel gear 118 to rotate, the first bevel gear 118 rotations drive the spline housing 151 to rotate, and the rotation of spline housing 151 drives the splined shaft 149 to rotate, the spline The rotation of axis 149 drives the first pulley 120 to rotate, and the rotation of first pulley 120 drives second belt wheel 135 to rotate, The rotation of second belt wheel 135 drives the third threaded rod 136 to rotate, and the rotation of third threaded rod 136 drives the rolling Wheel 138 uniformly evens up clothing backwards to movement, the idler wheel 138, starts the heating component 141, the heating component at this time The 141 heating xylopyrographys, the xylopyrography is transferred on clothing, after the completion of transfer, rotates backward the first motor 112, The first motor 112 drives the idler wheel 138 to move towards and restPoses, and it is anti-to start second motor 127 at this time Turn, the reversion of the second motor 127 drives second thread bush 130 to invert, described in the reversion of the second thread bush 130 drive The reversion of 4th gear 129, the 4th gear 129 reversion drive the second sliding shoe 128 mobile, the second sliding shoe The 128 mobile drive third gears 111 are mobile, and the first gear 125 is detached from the third gear 111 at this time, with this Meanwhile the reversion of the second thread bush 130 drives second threaded rod 133 to move up, second threaded rod 133 moves up drive The third sliding shoe 142 moves up, when the third sliding shoe 142 is abutted with first sliding shoe 102, the third tooth Wheel 111 is engaged with the second gear 110, is started the rotation of first motor 112 at this time and is driven described 111 turns of third gear Dynamic, the rotation of third gear 111 drives the second gear 110 to rotate, and the rotation of second gear 110 drives the described 4th Bevel gear 108 rotates, and the 4th bevel gear 108 rotation drives the third hand tap gear 104 to rotate, the third hand tap gear 104 rotations drive first thread bush 105 to rotate, to drive first sliding shoe 102 to move backward, when described first When sliding shoe 102 is abutted with the 101 rear side end wall of the first sliding shoe, above-mentioned process is operated again, heat is carried out to second clothing Transfer xylopyrography operation.

The beneficial effects of the present invention are: the clothing for needing xylopyrography is divided to described when being worked with equipment of the invention On boss, xylopyrography is placed in the clothing appropriate location, starts second motor at this time, the second motor rotation drives institute The rotation of the second thread bush is stated, the second thread bush rotation drives the 4th gear rotation, and the 4th gear rotation drives The second sliding shoe is mobile, and the second sliding shoe is mobile to drive the third gear mobile, at this time the second gear with The third gear is detached from, and at the same time, the second thread bush rotation drives second threaded rod to move down, second spiral shell Rasp bar, which moves down, drives the third sliding shoe to move down, and the third sliding shoe moves down described back-shaped piece of drive and moves down, described back-shaped Block, which moves down, is stuck in the clothing on the boss, and the third sliding shoe continues to move down at this time, when the heating component and institute When stating clothing abutting, the third gear is engaged with the first gear, starts the first motor rotation, the first motor Rotation drives the third gear rotation, and the third gear rotation drives the first gear rotation, and the first gear turns Dynamic to drive the second bevel gear rotation, the second bevel gear rotation drives the first bevel gear rotation, first cone Gear rotation drives the spline housing rotation, and the spline housing rotation drives the splined shaft rotation, and the splined shaft rotates band The first pulley rotation is moved, the first pulley rotation drives the second belt wheel rotation, and the second belt wheel rotation drives The third threaded rod rotation, the third threaded rod rotation drive the idler wheel backwards to movement, and the idler wheel is uniform by clothing It evens up, starts the heating component at this time, the heating component heats the xylopyrography, the xylopyrography is transferred on clothing, when After the completion of transfer, the first motor is rotated backward, the first motor drives the idler wheel to move towards and restPoses, Start second motor reversal at this time, second motor reversal drives the second thread bush reversion, second screw thread Set reversion drives the 4th gear reversion, and the 4th gear reversion drives the second sliding shoe mobile, and described second is sliding Motion block is mobile to drive the third gear mobile, and the first gear and the third gear are detached from this time, at the same time, described The reversion of second thread bush drives second threaded rod to move up, and second threaded rod, which moves up, to be driven on the third sliding shoe It moves, when the third sliding shoe is abutted with first sliding shoe, the third gear is engaged with the second gear, at this time Start the first motor rotation and drive the third gear rotation, the third gear rotation drives the second gear to turn Dynamic, the second gear rotation drives the 4th bevel gear rotation, and the 4th bevel gear rotation drives the triconodont Wheel rotation, the third hand tap gear rotation drives the first thread bush rotation, so that first sliding shoe be driven to move back It is dynamic, when first sliding shoe is abutted with end wall on rear side of first sliding shoe, above-mentioned process is operated again to second clothing Object carries out the operation of thermal transfer xylopyrography.

Device structure of the invention is simple, easy to operate, and the shifting of equipment heating component is driven by using the same power source It is dynamic and clothing smooth, and moving up and down for heating component, two operating platforms of this equipment utilization are realized in handoff procedure Switch operation, the thermal transfer efficiency of raising, while the risk being burned reduced, cooperates between each process and not shadow It rings, improves device practical performance.

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any The change or replacement expected without creative work, should be covered by the protection scope of the present invention.Therefore, of the invention Protection scope should be determined by the scope of protection defined in the claims.

Claims (7)

1. thermal transfer printer and its application method of the invention, including fuselage, the first sliding cavity being arranged in the fuselage And symmetrically arranged first cavity in the end wall of the fuselage front and back, it is characterised in that: can front and back cunning in first sliding cavity Dynamic is provided with the first sliding shoe, the second cavity is provided in first sliding shoe and on the left of second cavity Third cavity, the interior rotation of second cavity are provided with the spline of front and rear sides end end wall before and after first sliding shoe It covers, the spline housing outer surface in second cavity is fixedly installed with first bevel gear, and front and back is set in the spline housing and is passed through Logical spline chamber, the intracavitary spline fitted of spline are connected with the splined shaft that front and back extends, the splined shaft front and rear sides rotation It is set in the end wall of the first sliding cavity front and back, splined shaft front and rear sides end is protruded into through the first cavity end wall First cavity and end are fixedly installed with first pulley, are provided with the of opening backward on front side of second cavity in end wall Four cavitys are provided with the 5th cavity extended to the left, the 5th cavity and the 4th cavity in the 4th cavity bottom wall Between rotation be provided with first rotating shaft, the first rotating shaft end in the 5th cavity is fixedly installed with first gear, institute The first rotating shaft end stated in the 4th cavity is fixedly installed with the second bevel gear engaged with the first bevel gear, described Rotation is provided with the first thread bush of front and rear sides end end wall before and after first sliding shoe in third cavity, and described the First thread bush outer surface in three cavitys is fixedly installed with third hand tap gear, and front and back is provided in first thread bush First threaded hole of perforation, the first threaded rod that the first threaded hole screw-internal thread fit extends before and after being connected with, described first Threaded rod front and rear sides end is rotatably dispose in the end wall of the first sliding cavity front and back, the third cavity and the 5th sky Rotation is provided with the second shaft between chamber, and second shaft end in the third cavity is fixedly installed with and the third 4th bevel gear of bevel gear engagement, second shaft end in the 5th cavity are fixedly installed with second gear, institute It states and is provided with and communicated with the second sliding cavity in the 5th cavity bottom wall, be slidably provided with the second sliding in second sliding cavity Block is fixedly installed with rack gear in end wall on rear side of the second sliding shoe, is provided with first motor in the second sliding shoe roof, The first motor output shaft upwardly extends end and is fixedly installed with the third gear engaged with the second gear.

2. thermal transfer printer according to claim 1 and its application method, it is characterised in that: first sliding shoe bottom Wall inner opening is vertically provided with the 6th cavity through second sliding cavity, and is rotatably provided in the 6th cavity Two thread bush, second thread bush is connect with the second motor power being fixedly installed in the 6th cavity roof, described Second thread bush outer surface in 6th cavity is fixedly installed with the 4th gear engaged with the rack gear, second spiral shell In line set bottom wall is provided with the second threaded hole that Open Side Down, the second threaded hole screw-internal thread fit, which is connected with, to be extended downwardly Second threaded rod, the third threaded rod bottom end are fixedly installed with third sliding shoe.

3. thermal transfer printer according to claim 1 and its application method, it is characterised in that: first sliding shoe bottom It is provided with bilateral symmetry and symmetrical first sliding eye in front and back in wall, bilateral symmetry and front and back are provided in the third sliding shoe Symmetrical second sliding eye is provided with the first sliding bar extended up and down, first sliding bar bottom in first sliding eye Portion is through second sliding eye and end is fixedly installed with back-shaped piece.

4. thermal transfer printer according to claim 1 and its application method, it is characterised in that: first sliding shoe bottom Heating component is fixedly installed in wall.

5. thermal transfer printer according to claim 1 and its application method, it is characterised in that: first sliding cavity bottom It is provided with the symmetrical boss in front and back in wall, the 7th cavity, the 7th cavity and first sliding are provided in the boss It is provided with and communicated with symmetrical long hole between chamber, symmetrical 4th sliding in front and back is slidably provided in the 7th cavity Block, the 4th sliding shoe are symmetrically set with rotatable idler wheel, before being provided in former and later two described 4th sliding shoes The third threaded hole with reverse thread penetrated through afterwards, the third threaded hole screw-internal thread fit are connected with the third that front and back extends Threaded rod, the third threaded rod protrude into first sky through the first cavity end wall close to first cavity side Chamber, the third threaded rod end in first cavity are fixedly installed with the second belt wheel, second belt wheel and described the It is driven and is cooperatively connected by belt between one belt wheel, is symmetrically arranged in the 4th sliding shoe positioned at described third threaded hole or so Second sliding eye of two sides, is slidably connected with the second sliding bar that front and back extends in the third sliding eye, and described second Sliding bar front and rear sides end is fixedly installed in the end wall of the 7th cavity front and back.

6. thermal transfer printer according to claim 1 and its application method, it is characterised in that: before second sliding eye It is symmetrically arranged with the opposite limiting slot that is open in aft bulkhead, is slidably provided with and first sliding bar in the limiting slot The limited block being fixedly connected, elasticity is provided with top pressure spring between the limited block and the limiting slot roof.

7. thermal transfer printer described in -6 and its application method, application method are as follows according to claim 1:

When being worked with equipment of the invention, the clothing for needing xylopyrography is divided to the boss, xylopyrography is placed in the clothing Object appropriate location, starts second motor at this time, and the second motor rotation drives the second thread bush rotation, and described the The rotation of two thread bush drives the 4th gear rotation, and the 4th gear rotation drives the second sliding shoe mobile, described The second sliding shoe is mobile to drive the third gear mobile, and the second gear and the third gear are detached from this time, same with this When, the second thread bush rotation drives second threaded rod to move down, and second threaded rod, which moves down, drives the third sliding Motion block moves down, and the third sliding shoe moves down described back-shaped piece of drive and moves down, and described back-shaped piece moves down the clothing being stuck in institute It states on boss, the third sliding shoe continues to move down at this time, when the heating component is abutted with the clothing, the third tooth Wheel is engaged with the first gear, starts the first motor rotation, and the first motor rotation drives the third gear to turn Dynamic, the third gear rotation drives the first gear rotation, and the first gear rotation drives the second bevel gear to turn Dynamic, the second bevel gear rotation drives the first bevel gear rotation, and the first bevel gear rotation drives the spline housing Rotation, the spline housing rotation drive the splined shaft rotation, and the splined shaft rotation drives the first pulley rotation, described First pulley rotation drives the second belt wheel rotation, and the second belt wheel rotation drives the third threaded rod rotation, described The rotation of third threaded rod drives the idler wheel backwards to movement, and the idler wheel uniformly evens up clothing, starts the heating group at this time Part, the heating component heats the xylopyrography, the xylopyrography is transferred on clothing, after the completion of transfer, rotates backward described First motor, the first motor drive the idler wheel to move towards and restPose, and it is anti-to start second motor at this time Turn, second motor reversal drives the second thread bush reversion, and the second thread bush reversion drives the 4th gear Reversion, the 4th gear reversion drive the second sliding shoe mobile, and the second sliding shoe is mobile to drive the third tooth Movement is taken turns, the first gear and the third gear are detached from this time, at the same time, described in the second thread bush reversion drive Second threaded rod moves up, and second threaded rod, which moves up, drives the third sliding shoe to move up, when the third sliding shoe and institute When stating the first sliding shoe abutting, the third gear is engaged with the second gear, starts the first motor rotation band at this time The third gear rotation is moved, the third gear rotation drives the second gear rotation, and the second gear rotation drives The 4th bevel gear rotation, the 4th bevel gear rotation drive the third hand tap gear rotation, and the third hand tap gear turns It is dynamic to drive the first thread bush rotation, to drive first sliding shoe to move backward, when first sliding shoe and institute When stating end wall abutting on rear side of the first sliding shoe, above-mentioned process is operated again, the operation of thermal transfer xylopyrography is carried out to second clothing.