CN105904840A - Rack structure of rotary heat transfer printing equipment - Google Patents

Abstract

The invention discloses a rack structure of rotary heat transfer printing equipment. The rack structure comprises a workbench. A rotary table capable of rotating is arranged on the workbench. At least three heat transfer printing stations are arranged on the rotary table. A heat transfer printing machine head is arranged on each heat transfer printing station. The multiple heat transfer printing stations are arranged on the rotary table capable of rotating, fabric can be placed and collected sequentially and conveniently in the rotating process of the heat transfer printing stations, and heat transfer printing is automatically completed when each heat transfer printing station rotates by one circle, so that processing efficiency is greatly improved.

Description

A kind of rack construction of rotary-type thermal transfer apparatus

Technical field

The present invention relates to a kind of equipment of thermal transfer trade mark on clothing fabric, the rack construction of a kind of rotary-type thermal transfer apparatus.

Background technology

Mark chapter or label are applied on the textile article of everyday use such as dress ornament, shoes and hats and various school bag satchels as an independent sector, it has also become the indispensable a kind of fashion elements of society；A kind of decoration of personalization, embodying people's quality of life improves beautiful pursuit, more icon can be made various obvious caution notice to improve safety and the visuality of its attachment, in each market segment that Transfer mark has been commonly applied in life.

On dress ornament, it is printed with at present trade mark and pattern etc. that silica gel makes complete often by traditional printing process.Traditional printing process has the shortcomings such as operation is various, printing time length, production cost are high.Along with technology develops, the application being printed trade mark and pattern by Thermal-printing Technology on dress ornament is more and more extensive.After thermal transfer mainly pastes a heat-transferring printing paper on object surface, then with heated baking, the pattern on transfer paper is made to be needed on the object surface pasted.Existing transfer paper is covered on the mode on object surface, it is common that first work glue is on this object surface, then manually entirely to be pasted on it by transfer paper, re-uses heater and toast within a certain period of time.

Application for a patent for invention number: 201310430883.5, patent name is a kind of thermal transfer 3d silica gel dress ornament and manufacturing process thereof, discloses the dress ornament structure of a kind of improvement, is additionally provided with a layer of silica gel on the upper strata of dress ornament surface layer.Cushion forms the buffer module of multiple symmetry, arranges air layer between buffer module and layer of silica gel.It is provided with interval trough between described adjacent buffer module.Described cushion is made up of EVA or expanded material.The present invention arranges 3d layer of silica gel on dress ornament surface layer, and 3d layer of silica gel can be pattern or various logo, plays eye-catching visual effect, also improves the wear-resisting skid-resistant performance of clothing, strengthens product quality, but can not improve the efficiency of thermal transfer operation.

Summary of the invention

The present invention is directed in the existing dress ornament thermal transfer course of processing, one workman can only operate a thermal transfer heater, the technical problem that working (machining) efficiency is low, and the rack construction of a kind of rotary-type thermal transfer apparatus is provided, the turntable that can rotate arranges multiple thermal transfer station, in the rotation process of multiple thermal transfer stations can blowing rewinding the most successively, and each thermal transfer station can automatically complete thermal transfer during rotating one week, is greatly improved working (machining) efficiency.

The present invention solves the technical scheme that above-mentioned technical problem used: the rack construction of a kind of rotary-type thermal transfer apparatus, including workbench, being provided with the turntable that can rotate on the table, turntable is provided with at least three thermal transfer station, and each thermal transfer station is provided with a thermal transfer head.

For optimizing technique scheme, present invention additionally comprises the technical scheme of following improvement.

Each thermal transfer station correspondence is provided with a sensor block support, and each sensor block support is provided with a sensor block；The sensor block setting height(from bottom) of different thermal transfer stations differs；Workbench is provided with an induction apparatus support, and induction apparatus support is provided with the induction apparatus of at least three correspondence sensor block height.

Above-mentioned workbench is installed with rotating base, and rotating base is provided with the rotating seat that can rotate；Workbench is provided with the driving motor for driving rotating seat to rotate；Turntable is fixedly mounted on rotating seat.

Above-mentioned driving motor is connected by shaft coupling driving gear, drives gear to match with the worm-and-wheel gear on rotating base.

Each above-mentioned thermal transfer station is provided with an air draught platen, and air draught platen is shaped with the wind inlet for adsorbing fabric, and wind inlet is connected with air draft mechanism by air-suction duct.

The lower section of above-mentioned wind inlet is fixed with suspended hood, and the sidewall of suspended hood is connected with air draught platen sealed bottom, and suspended hood is shaped with the air draught interface being connected with air-suction duct.

Above-mentioned air draft mechanism includes the fan installation plate installed on a spinstand, and fan installation plate is fixed with blower fan；The inlet scoop of blower fan is connected with air draught interface by air-suction duct.

Above-mentioned thermal transfer head includes hot pressing frame, is fixed on the boiling hot platform bottom hot pressing frame, is fixed on the pressurized cylinder of hot pressing upper rack, and the drive rod of pressurized cylinder is provided with the electric hot plate that can match with boiling hot platform.

Compared with prior art, a kind of rack construction of the rotary-type thermal transfer apparatus of the present invention, the turntable that can rotate arranges multiple thermal transfer station, can blowing rewinding the most successively in the rotation process of multiple thermal transfer stations, and each thermal transfer station automatically completes thermal transfer during rotating one week, is greatly improved working (machining) efficiency.

Accompanying drawing explanation

Fig. 1 is the perspective view of the embodiment of the present invention.

Fig. 2 is the perspective view of rotary table part in Fig. 1.

Fig. 3 is the assembling decomposing schematic representation of rotating seat and fan section in Fig. 2.

Fig. 4 is the assembling decomposing schematic representation of heat transfer machine head part in Fig. 2.

Fig. 5 is to inhale mark mechanical hand and tear the perspective view of mark mechanical hand.

Fig. 6 is the assembling decomposing schematic representation inhaling mark mechanical hand.

Fig. 7 is the assembling decomposing schematic representation tearing mark mechanical hand.

Fig. 8 is the perspective view of rewinding part in Fig. 1.

Fig. 9 is the assembling decomposing schematic representation of Fig. 8.

Detailed description of the invention

Below in conjunction with accompanying drawing, embodiments of the invention are described in further detail.

Fig. 1 to Fig. 9 show the structural representation of the present invention.

nullReference therein is: workbench 1、Turntable 11、Rotating base 12、Rotating seat 13、Drive motor 14、Shaft coupling 15、Drive gear 16、Sensor block support 17、Sensor block 17a、Induction apparatus support 18、Induction apparatus 18a、Aluminium section bar support 19、Air draught platen 2、Wind inlet 21、Suspended hood 22、Air draught interface 22a、Fan installation plate 23、Blower fan 24、Dividing plate 25、Hot pressing frame 3、Scald platform 31、Pressurized cylinder 32、Electric hot plate 33、Inhale standard seat 4、Sucker 41、Inhale mark installing plate 42、First driver 43、First connecting rod 44、Second connecting rod 45、Third connecting rod 46、First travelling gear 47、First lift cylinder 5、First riser guide 51、Ram seat 52、Connecting plate 53、Extension spring 54、Tear standard seat 6、Tear mark installing plate 62、Second driver 63、Fourth link 64、5th connecting rod 65、Second travelling gear 67、Six-bar linkage 68、Second lift cylinder 7、Second riser guide 71、Rewinding bar 8、Rewinding swing arm 81、3rd driver 82、Conveyer belt 9、Rewinding support 91、Rotating shaft 92、Actively transfer roller 93、Passive transfer roller 94、Transmit motor 95、Chain 96.

The rotary-type thermal transfer apparatus of the present invention, including workbench 1, is provided with the turntable 11 that can rotate on workbench 1, and turntable 11 is provided with at least three thermal transfer station, and each thermal transfer station is provided with a thermal transfer head.Workbench 1 is provided with crawl thermal transfer mark be placed into the suction mark mechanical hand at thermal transfer head operating position, and move on thermal transfer station and capture thermal transfer basement membrane tear mark mechanical hand.

Each thermal transfer station correspondence is provided with a sensor block support 17, and each sensor block support 17 is provided with a sensor block 17a.The sensor block 17a setting height(from bottom) of different thermal transfer stations differs.Workbench 1 is provided with an induction apparatus support 18, and induction apparatus support 18 is provided with the induction apparatus 18a of at least three correspondence sensor block 17a height.

In the present embodiment, each thermal transfer station is provided with an air draught platen 2, and air draught platen 2 is equal with the work top of thermal transfer head, treats marking fabric for placement.Sensor block support 17 is preferably fixedly mounted to the bottom of air draught platen 2, along with the rotation of turntable 11, and sensor block 17a corresponding to each thermal transfer station induction apparatus support 18 on workbench 1.

The sensor block 17a setting height(from bottom) corresponding due to each thermal transfer station is different, is provided with the induction apparatus 18a of differing heights on induction apparatus support 18 simultaneously.When the sensor block 17a that certain thermal transfer station is corresponding rotates at induction apparatus support 18, on induction apparatus support 18, certain induction apparatus 18a just can detect, thus which thermal transfer station rotary identifies is at induction apparatus support 18.

Workbench 1 is installed with rotating base 12, and rotating base 12 is provided with the rotating seat 13 that can rotate.Workbench 1 is provided with the driving motor 14 for driving rotating seat 13 to rotate.Turntable 11 is fixedly mounted on rotating seat 13.Rotating seat 13 is fixed with the aluminium section bar support 19 for supporting turntable 11.

Rotating base 12 and rotating seat 13 can use known rotary table.Drive motor 14 to be connected by shaft coupling 15 and have driving gear 16, drive gear 16 to match with the worm-and-wheel gear on rotating base 12, thus drive rotating seat 13 to rotate.

Air draught platen 2 is shaped with the wind inlet 21 for adsorbing fabric, and each air draught platen 2 has several wind inlet 21, and often group wind inlet 21 is connected with air draft mechanism by air-suction duct.After fabric is placed on air draught platen 2, wind inlet 21 produces suction adsorption and fixes fabric.

In the present invention, often the lower section of group wind inlet 21 is fixed with suspended hood 22, and the sidewall of suspended hood 22 is connected with air draught platen 2 sealed bottom, and suspended hood 22 is shaped with the air draught interface 22a being connected with air-suction duct.

Air draft mechanism includes the fan installation plate 23 being arranged on turntable 11, and fan installation plate 23 is fixed with blower fan 24.The inlet scoop of blower fan 24 is connected with air draught interface 22a by air-suction duct.Fan installation plate 23 is fixed on the center of turntable 11, and thermal transfer head is positioned at the surrounding of blower fan 24.The dividing plate 25 around blower fan 24 it is fixed with on fan installation plate 23.

Display lamp and the illuminating lamp of annular it is fixed with on the top of blower fan 24.

Thermal transfer head includes hot pressing frame 3, is fixed on the boiling hot platform 31 bottom hot pressing frame 3, is fixed on the pressurized cylinder 32 on hot pressing frame 3 top, and the drive rod of pressurized cylinder 32 is provided with the electric hot plate 33 that can match with boiling hot platform 31.

Air draught platen 2 is equal with boiling hot platform 31, after fabric is placed on air draught platen 2 and boiling hot platform 31, inhales mark mechanical hand extract heat transfer mark, and is placed on the fabric of boiling hot platform 31.Turntable 11 rotates, and makes next thermal transfer station turn to put at mark.And put thermal transfer target thermal transfer station well in rotation process, pressurized cylinder 32 drive electric hot plate 33 to be pressed on fabric by thermal transfer mark.

Inhale marking machine tool hands to include being arranged on workbench 1 and the suction mark installing plate 42 of energy oscilaltion.Inhale mark installing plate 42 and be provided with the suction standard seat 4 can moved between material box and thermal transfer station, inhale standard seat 4 and be provided with heat of adsorption transfer target sucker 41.

Sucker 41 preferably employs the Suction cup assembly of band suction nozzle, and suction nozzle connects air pump, the head energy axial stretching of suction nozzle, and sucker 41 is fixed on the head of suction nozzle, and pumps the air in sucker 41 by suction nozzle, strengthens the suction of sucker 41.

Inhale mark installing plate 42 and be provided with driving suction standard seat 4 first driver 43 of movement between suction mark box and thermal transfer station.

Inhale mark installing plate 42 and be provided with the second connecting rod 45 and third connecting rod 46 that can horizontally rotate.The movable end of second connecting rod 45 and the movable end of third connecting rod 46 are rotatably connected to the first connecting rod 44 that can move horizontally, and inhale standard seat 4 and are arranged on first connecting rod 44.The turning end of second connecting rod 45 connects the second rotating shaft, and the second rotating shaft matches with the second bearing inhaled on mark installing plate 42.The turning end of third connecting rod 46 connects the 3rd rotating shaft, and the 3rd rotating shaft matches with the 3rd bearing inhaled on mark installing plate 42, is provided with the first travelling gear 47 in the 3rd rotating shaft, drives the 3rd rotating shaft to rotate.

First driver 43 is to be fixed on the first motor inhaled on mark installing plate 42, and the power output shaft of the first motor drives third connecting rod 46 to rotate by the first travelling gear 47.

The motion inhaling standard seat 4 can also use guide rail mode to realize.Such as suction mark installing plate 42 is provided with and puts mark guide rail, and suction standard seat 4 is slidably mounted on puts on mark guide rail, moves between material box and thermal transfer station by putting mark rail guidance suction standard seat 4.First driver 43 puts gas cylinder for what driving suction standard seat 4 was slided.

Inhale mark installing plate 42 to be slidably arranged on the first riser guide 51, and be connected with the drive rod of the first lift cylinder 5.First lift cylinder 5 can drive suction mark installing plate 42 oscilaltion, also can move up and down so that inhaling standard seat 4, it is simple to sucker 41 downward contacting material picking up in material box, moves downward and be placed on fabric by thermal transfer mark after moving to discharge position.

The drive rod of the first lift cylinder 5 is fixedly connected with ram seat 52, inhales mark installing plate 42 and is provided with the connecting plate 53 matched with ram seat 52 top, is provided with extension spring 54 between ram seat 52 and connecting plate 53.

When ram seat 52 moves upward, withstand connecting plate 53 and make suction mark installing plate 42 move upward.When ram seat 52 moves downward, inhale mark installing plate 42 and acted on by extension spring 54 and moving downward with ram seat 52.When sucker 41 touches material or material is placed into fabric, connecting plate 53 may be less than lower limit, still can move downward, and now connecting plate 53 can separate with inhaling mark installing plate 42, suction mark installing plate 42, under extension spring 54 active force, makes sucker 41 contacting material or is placed on fabric by material.

Tear marking machine tool hands to include being arranged on workbench 1 and tearing of oscilaltion marking installing plate 62.Tear mark installing plate 62 be provided with can be moved horizontally to thermal transfer station tear standard seat 6, that tears that standard seat 6 is provided with bonding thermal transfer mark basement membrane tears mark device.Tear mark device for bonding thermal transfer basement membrane, and thermal transfer basement membrane is torn off from fabric.Tear the prominent needle point that mark device can be in tearing bottom standard seat 6, thermal transfer basement membrane can be penetrated, tear can also arrange in standard seat 6 and tear mark sucker, hold thermal transfer basement membrane.

Tear mark installing plate 62 be provided with driving tear the second driver 63 that standard seat 6 moves horizontally.Tear standard seat 6 by the second driver 63 driving to move.

Tear mark installing plate 62 and be provided with the fourth link 64 and the 5th connecting rod 65 that can horizontally rotate.The movable end of fourth link 64 and the movable end of the 5th connecting rod 65 are rotatably connected to the six-bar linkage 68 that can move horizontally, and tear standard seat 6 and are arranged on six-bar linkage 68.The turning end of fourth link 64 connects the 4th rotating shaft, and the 4th rotating shaft matches with the 4th bearing torn on mark installing plate 62.The turning end of the 5th connecting rod 65 connects the 5th rotating shaft, and the 5th rotating shaft matches with the 5th bearing torn on mark installing plate 62, is provided with the second travelling gear 67 in the 5th rotating shaft, drives the 5th rotating shaft to rotate.

Second driver 63 is to be fixed on the second motor torn on mark installing plate 62, and the power output shaft of the second motor drives the 5th connecting rod 65 to rotate by the second travelling gear 67.

Tearing mark installing plate 62 to be provided with and tear mark guide rail, tear standard seat 6 and be slidably mounted on and tear on mark guide rail, the second driver 63 is for driving that tears that standard seat 6 slides to tear gas cylinder.

Tear mark installing plate 62 to be slidably arranged on the second riser guide 71, and be connected with the drive rod of the second lift cylinder 7.Second lift cylinder 7 can drive and tear mark installing plate 62 oscilaltion, also can move up and down so that tearing standard seat 6, can allow and tear mark device bonding thermal transfer basement membrane and mention.

Be provided with rewinding support 91 in the side of workbench 1, rewinding support 91 is provided with the rewinding bar 8 that can move to thermal transfer station.

Workbench 1 is provided with the gas blow pipe being blown to by fabric on rewinding bar 8.Fabric pushed down by rewinding bar 8 after moving to thermal transfer station, gas blow pipe can blow afloat fabric, makes fabric hang on rewinding bar 8.

Rewinding support 91 rotates and is provided with rewinding swing arm 81, and the 3rd driver 82 rotated for rewinding swing arm 81.Rewinding bar 8 is connected with the movable end of rewinding swing arm 81.

The turning end of rewinding swing arm 81 is connected with the rotating shaft 92 on rewinding support 91.3rd driver 82 is rewinding cylinder, and the drive rod of rewinding cylinder is flexibly connected with the middle part of rewinding swing arm 81.

Rewinding support 91 is provided with conveyer belt 9, and the fabric of thermal transfer station is placed on conveyer belt 9 by rewinding bar 8.

Conveyer belt 9 is arranged on active transfer roller 93 and the passive transfer roller 94 of rewinding support 91, and rewinding support 91 is provided with the transmission motor 95 for driving actively transfer roller 93.Transmitting motor 95 drives actively transfer roller 93 to rotate by chain 96.

The rotary-type thermal transfer apparatus of the present invention, can arrange three, four, five or more thermal transfer stations.Preferably employing five thermal transfer stations in the present embodiment, suction mark mechanical hand is disposed adjacent on workbench 1 with tearing mark mechanical hand.During work, worker stands, on the station on workbench 1 limit, places fabric rotating on the thermal transfer station come, and inhales mark mechanical hand subsequently and automatically transfers mark from material box extract heat and be placed on this fabric.After thermal transfer head carries out hot pressing to thermal transfer mark and fabric, turntable 11 rotates, and turns at workman's station by next idle thermal transfer station, carries out above-mentioned blowing operation.Thermal transfer station rotary after blowing moves to tear at mark mechanical hand for one week, is automatically torn off thermal transfer mark by tearing mark mechanical hand, rewinding bar 8 moves printed fabric, turned at workman's station by idle thermal transfer station when turntable 11 rotates again.

Highly preferred embodiment of the present invention illustrates, those of ordinary skill in the art the various changes made or remodeling are all without departing from the scope of the present invention.

Claims (8)

1. the rack construction of a rotary-type thermal transfer apparatus, including workbench (1), it is characterized in that: described workbench (1) is provided with the turntable (11) that can rotate, described turntable (11) is provided with at least three thermal transfer station, and each thermal transfer station is provided with a thermal transfer head.

The rack construction of a kind of rotary-type thermal transfer apparatus the most according to claim 1, it is characterized in that: each thermal transfer station correspondence is provided with a sensor block support (17), and each sensor block support (17) is provided with a sensor block (17a)；Sensor block (17a) setting height(from bottom) of different thermal transfer stations differs；Described workbench (1) is provided with an induction apparatus support (18), and described induction apparatus support (18) is provided with the induction apparatus (18a) of at least three correspondence sensor block (17a) height.

The rack construction of a kind of rotary-type thermal transfer apparatus the most according to claim 1 and 2, it is characterized in that: described workbench (1) is installed with rotating base (12), described rotating base (12) is provided with the rotating seat (13) that can rotate；Described workbench (1) is provided with the driving motor (14) for driving rotating seat (13) to rotate；Described turntable (11) is fixedly mounted on rotating seat (13).

The rack construction of a kind of rotary-type thermal transfer apparatus the most according to claim 3, it is characterized in that: described driving motor (14) is connected by shaft coupling (15) has driving gear (16), described driving gear (16) to match with the worm-and-wheel gear on rotating base (12).

The rack construction of a kind of rotary-type thermal transfer apparatus the most according to claim 4, it is characterized in that: each described thermal transfer station is provided with an air draught platen (2), described air draught platen (2) is shaped with the wind inlet (21) for adsorbing fabric, and described wind inlet (21) is connected with air draft mechanism by air-suction duct.

The rack construction of a kind of rotary-type thermal transfer apparatus the most according to claim 5, it is characterized in that: the lower section of described wind inlet (21) is fixed with suspended hood (22), the sidewall of described suspended hood (22) is connected with air draught platen (2) sealed bottom, and described suspended hood (22) is shaped with the air draught interface (22a) being connected with air-suction duct.

The rack construction of a kind of rotary-type thermal transfer apparatus the most according to claim 6, it is characterized in that: described air draft mechanism includes the fan installation plate (23) being arranged on turntable (11), described fan installation plate (23) is fixed with blower fan (24)；The inlet scoop of described blower fan (24) is connected with described air draught interface (22a) by air-suction duct.

The rack construction of a kind of rotary-type thermal transfer apparatus the most according to claim 7, it is characterized in that: described thermal transfer head includes hot pressing frame (3), is fixed on the boiling hot platform (31) of hot pressing frame (3) bottom, being fixed on the pressurized cylinder (32) on hot pressing frame (3) top, the drive rod of pressurized cylinder (32) is provided with the electric hot plate (33) that can match with boiling hot platform (31).