CN103407285B - The full-automatic transfer printing equipment of guide type - Google Patents

Abstract

The invention discloses the full-automatic transfer printing equipment of a kind of guide type, comprising: base; Guide groove part, is provided with for accommodating that guide groove part is fixed on base by the guide groove of bat printing workpiece, comprises feed zone, bat printing section and thermosetting section; Printer device, is fixed on base and is positioned at the top of guide groove part bat printing section, comprising bat printing bearing, the bat printing head actuating unit be located on bearing, and the oil groove mechanism of being fixed on base and cleaning mechanism; Propulsive mechanism, is located at the below of guide groove part bat printing section, comprises Workpiece clamping head, for promoting the lift cylinder that Workpiece clamping head moves up and down and the advance and retreat cylinder promoted for front and back; Be heating and curing case, is provided with for the heating chamber through guide groove part thermosetting section; And feed mechanism.The present invention realizes feeding in continuous material in guide groove mode, continuous bat printing, the bat printing processing of laser heating solidification, realize the automation bat printing processing of the products such as wireless receiver workpiece, drastically increase bat printing efficiency, an overall bat printing process, without the need to the manual operation of operating personnel.

Description

The full-automatic transfer printing equipment of guide type

Technical field

The present invention relates to a kind of transfer printing equipment, more particularly refer to the full-automatic transfer printing equipment of a kind of guide type.

Background technology

In prior art, the wireless receiver of the wireless product such as Wireless Keyboard, wireless mouse, need the marks such as the LOGO of product in printing on the surface of its product, this mark is located on the bonnet of wireless receiver, and the structure of bonnet as shown in Figure 1.Prior art mode great majority are that manual half mechanical system of employing half carries out bat printing processing, and the employing also had carries out bat printing processing after bonnet and wireless receiver body being installed again.No matter be directly bat printing processing is carried out to bonnet, or carry out bat printing processing to installing the wireless receiver after this, because automaticity is not high, the inefficiency of bat printing processing.

Therefore, be necessary to develop the transfer printing equipment that a kind ofly can realize the processing of automation bat printing.

Summary of the invention

The object of the invention is to the defect overcoming prior art, provide a kind of for the full-automatic transfer printing equipment of guide type.

For achieving the above object, the present invention is by the following technical solutions:

The full-automatic transfer printing equipment of guide type, comprises base; Guide groove part, be provided with for accommodating by the guide groove of bat printing workpiece, described guide groove part is fixed on base, comprises feed zone, bat printing section and thermosetting section; Printer device, is fixed on base and is positioned at the top of guide groove part bat printing section, comprising bat printing bearing, the bat printing head actuating unit be located on bearing, and the oil groove mechanism of being fixed on base and cleaning mechanism; Propulsive mechanism, is located at the below of guide groove part bat printing section, comprises Workpiece clamping head, for promoting the lift cylinder that Workpiece clamping head moves up and down and the advance and retreat cylinder promoted for front and back; Be heating and curing case, is provided with for the heating chamber through guide groove part thermosetting section; Feed mechanism, is connected in guide groove part feed zone.

Also comprising the guide groove that guide groove part is provided with is 1-3 bar; Described feed mechanism is 1-3, and described feed mechanism is vibrator feeder; The bat printing head of printer device comprises the bat printing die of 1-3 row.

Also comprise also comprising and be positioned at binder cylinder above guide groove part and backgauge cylinder, described binder cylinder is corresponding with the original position of the Workpiece clamping head of propulsive mechanism; During bat printing, the material blocking block connected below backgauge cylinder blocks workpiece, and after bat printing completes, Workpiece clamping head unclamps the clamping to workpiece, and lift cylinder declines, and promoted backward by advance and retreat cylinder, rollback is to original position; Binder cylinder pushes down the workpiece on guide groove downwards, and lift cylinder rises, and Workpiece clamping head clamps the workpiece between material blocking block and briquetting, and backgauge cylinder rises, and advance and retreat cylinder driven forward, workpiece enters bat printing station.

The brush and for driving the cylinder that sweeps up dust of the brush transverse movement that sweeps up dust of sweeping up dust is provided with above the feed zone also comprising described guide groove part.

Its further technical scheme is: also comprise the bat printing slide rail be fixedly connected with base, and the bat printing slide unit be slidably connected with bat printing slide rail, and described bat printing slide unit is fixed with described oil groove mechanism and cleaning mechanism.

Its further technical scheme is: described Workpiece clamping head is air-cylinder type chuck or electromagnetic type chuck.

Its further technical scheme is: the movable end of described binder cylinder is fixed with briquetting.

Its further technical scheme is: the distance between described material blocking block and briquetting is 2-5 times of Workpiece length, and the bat printing head of printer device comprises the capable bat printing die of 2-5.

Its further technical scheme is: also comprise the electric cabinet be located on base, and described electric cabinet is also provided with console, and described console is provided with control button and display screen; Described is wireless receiver bonnet by bat printing workpiece.

Its further technical scheme is: described bat printing head actuating unit is rotary power structure; Described rotary power structure comprises: rotate with bearing the main shaft connected; Be located at the motor of bearing side, the output shaft of motor connects with spindle drive; Sliding chute seat, be fixedly linked in the opposite side of bearing, sliding chute seat is provided with chute, and described chute comprises the vertical slot being positioned at main shaft both sides and the cross transition groove communicated with two vertical slot; Swing arm, one end and the main shaft of described swing arm are fixedly connected, and the other end is provided with straight trough; To pull pin axle, described in the pull pin stage casing of axle be slidably connected in the straight trough of swing arm, its one end connects with slide, the other end and bat printing bar is rotary is fixedly connected; Bat printing bar, upper end is fixedly connected with axle of pulling pin, and lower end is provided with bat printing head holder; Stage casing is provided with vertical slide rail portion; Bat printing head holder, is fixed on the lower end of bat printing bar, and the lower end of described bat printing head holder is removable is connected with bat printing head; Be fixedly connected with bearing and be positioned at the horizontal slide rail below sliding chute seat; Slide unit sub-assembly, comprises the horizontal slide unit be slidably connected with horizontal slide rail and the vertical slide unit be slidably connected with vertical slide rail portion; Wherein, the reciprocating rotation of motor, drives by swing arm axle reciprocating in chute of pulling pin, and axle of pulling pin drives bat printing head to do by bat printing bar, bat printing head holder and up proposes-move horizontally-past bat printing action pressed down.

The present invention's beneficial effect is compared with prior art: present invention employs guide groove part structure, by feed mechanism, the workpiece needing bat printing to process is delivered in guide groove one by one, pass through propulsive mechanism again, in groups workpiece is pushed into the below of printer device, after completing bat printing, move to again be set in guide groove part thermosetting section be heating and curing in case, feeding in continuous material is realized in guide groove mode, continuous bat printing, the bat printing processing of laser heating solidification, realize the automation bat printing processing of the products such as wireless receiver workpiece, drastically increase bat printing efficiency, an overall bat printing process, without the need to the manual operation of operating personnel.Wherein the rotary power structure that adopts of printer device is by the rotating of a motor, the reciprocating that structure realizes two directions of bat printing head is slidably connected by three, its structure is quite simple, cost is low, occupy little space, be easy to safeguard, as the standarized component in automation equipment, the bat printing operation in equipment can easily be automated.

Below in conjunction with the drawings and specific embodiments, the invention will be further described.

Accompanying drawing explanation

Fig. 1 is the amplification stereogram of wireless receiver bonnet of the prior art;

Fig. 2 is the isometric front view of the full-automatic transfer printing equipment specific embodiment of guide type of the present invention;

Fig. 3 is the stereogram and the partial enlarged drawing thereof that save console, bat printing head actuating unit and bearing in Fig. 2;

Fig. 4 is another angle stereogram of the full-automatic transfer printing equipment specific embodiment of guide type of the present invention;

Fig. 5 is the stereogram saving console, bat printing head actuating unit and bearing in Fig. 4;

Fig. 6 is the stereogram in the left rear side direction of the full-automatic transfer printing equipment specific embodiment of guide type of the present invention;

Fig. 7 is the stereogram saving console, bat printing head actuating unit and bearing in Fig. 6;

Fig. 8 is left view and the partial enlarged drawing thereof of the full-automatic transfer printing equipment specific embodiment of guide type of the present invention;

Fig. 9 is the stereogram (saving console, bat printing head actuating unit and bearing) in the left rear side direction of the full-automatic transfer printing equipment specific embodiment of guide type of the present invention;

Figure 10 is the rotary power structural upright structure chart one of the full-automatic transfer printing equipment specific embodiment of guide type of the present invention;

Figure 11 is the rotary power structural upright structure chart two of the full-automatic transfer printing equipment specific embodiment of guide type of the present invention;

Figure 12 is the rotary power structural upright structure chart three of the full-automatic transfer printing equipment specific embodiment of guide type of the present invention;

Figure 13 is the rotary power structural upright structure chart four of the full-automatic transfer printing equipment specific embodiment of guide type of the present invention;

Figure 14 is the chute trajectory shape schematic diagram of the rotary power structure of full-automatic another specific embodiment of transfer printing equipment of guide type of the present invention.

Reference numeral

Reference numeral in Fig. 2-Fig. 9

32 base 33 electric cabinets

34 console 341 control buttons

342 display screen 42 guide groove parts

420 guide groove 421 feed zones

422 bat printing section 423 thermosetting sections

427 sweep up dust cylinder 428 fixed head

52 printer device 521 bearings

522 bat printing head actuating unit 523 oil groove mechanisms

524 cleaning mechanism 525 bat printing slide rails

526 bat printing slide unit 527 bat printing cylinders

62 propulsive mechanism 621 Workpiece clamping heads

622 lift cylinders 623 are retreated cylinder

6231 slide block 6232 slide rails

624 binder cylinder 6241 briquettings

6242 holder 625 backgauge cylinders

6251 material blocking blocks 72 are heating and curing case

721 heating chamber 722 fans

728 stock guide 82 feed mechanisms

S bonnet 424 bat printing station

Reference numeral in Figure 10-Figure 14

10 bearing 11 support plates

20 motor 21 reducing gears

22 disc 23 sensors

30 sliding chute seat 300 cushion pads

301 proximity transducer 31 chutes

311 vertical slot 312 cross transition grooves

40 swing arm 400 straight troughs

401 counting sensing chip 12 cavitys

50 pull pin axle 51 spill spin block

511 connection slot 512 briquettings

513 hold-down screw 60 bat printing bars

70 bat printing head holder 79 bat printing heads

80 horizontal slide rail 90 slide unit sub-assemblies

The vertical slide unit of 91 horizontal slide units 92

93 gusset pieces

Detailed description of the invention

In order to more fully understand technology contents of the present invention, below in conjunction with specific embodiment technical scheme of the present invention being introduced further and illustrating, but being not limited to this.

As shown in Fig. 2-Fig. 9, the specific embodiment that the full-automatic transfer printing equipment of guide type of the present invention is processed for the bat printing of wireless receiver bonnet, it comprises with lower component:

Base 32; Base is provided with electric cabinet 33, and electric cabinet 33 is also provided with console 34, and console 34 is provided with control button 341 and display screen 342.The controller electrically connected with parts such as the magnetic valve of each cylinder, motors is provided with in electric cabinet.Base 32 is provided with multiple pillar, for fixing all parts.

Guide groove part 42, be provided with for accommodating by the guide groove 420 of bat printing workpiece (being the bonnet S of wireless receiver in the present embodiment), guide groove part 42 is fixed on base 32, comprises feed zone 421, bat printing section 422 and thermosetting section 423; The guide groove that guide groove part is provided with is 2.In the present embodiment, have employed split-type structural, feed zone 421 and feed mechanism 82 are fixedly connected, and bat printing section 422 and thermosetting section 423 are integral type structure.

Printer device 52, is fixed on base 32 and is positioned at the top of guide groove part bat printing section 422, comprising bat printing bearing 521, the bat printing head actuating unit 522 be located on bearing 521, and the oil groove mechanism 523 of being fixed on base 32 and cleaning mechanism 524; The bat printing head of printer device 52 comprises the bat printing die of 2 row, 3 row, once can carry out bat printing to six bonnet S.Also comprise the bat printing slide rail 525 be fixedly connected with base 32, and the bat printing slide unit 526 be slidably connected with bat printing slide rail 525, bat printing slide unit 526 is fixed with described oil groove mechanism 523 and cleaning mechanism 524.Bat printing slide unit 526 realizes the movement of position by bat printing cylinder 527, when needs carry out clean to bat printing head, cleaning mechanism 524 is moved to the below of bat printing head, when needs dip in ink, oil groove mechanism 523 is moved to the below of bat printing head.

Propulsive mechanism 62, is located at the below of guide groove part bat printing section 422, comprises Workpiece clamping head 621, for promoting the lift cylinder 622 that Workpiece clamping head 621 moves up and down and the advance and retreat cylinder 623 promoted for front and back; Also comprise and be positioned at binder cylinder 624 above guide groove part and backgauge cylinder 625, the movable end of binder cylinder 624 is fixed with briquetting 6241.The movable end of backgauge cylinder 625 is fixed with material blocking block 6251, and binder cylinder 624 is corresponding with the original position of the Workpiece clamping head 621 of propulsive mechanism, during bat printing, the material blocking block 6251 connected below backgauge cylinder 625 blocks and is pushed through by feed mechanism the bonnet S come, after bat printing completes, Workpiece clamping head 621 unclamps the clamping to bonnet S, lift cylinder 622 (adopts two bar cylinder, do not need guiding mechanism) decline, promoted backward (movable end and the lift cylinder of advance and retreat cylinder 623 are fixedly connected) by advance and retreat cylinder 623, (advance and retreat cylinder 623 adopts single pole cylinder to original position to drive lift cylinder rollback, its movable end is fixed on slide block 6231, slide block 6231 is slidably connected with the slide rail 6232 be fixed on base again), binder cylinder 624 pushes down the bonnet S on guide groove downwards, lift cylinder 622 rises (movable end and the mounting working chuck of lift cylinder are fixed together), Workpiece clamping head is driven upwards to move to the below of bonnet, Workpiece clamping head 621 clamps the bonnet S between material blocking block 6251 and briquetting 6241, backgauge cylinder 625 rises, material blocking block 6251 is upwards mentioned, bonnet S can be passed through from guide groove, advance and retreat cylinder 623 driven forward, make 3 row 2 arrange totally 6 bonnet S and enter bat printing station 424, bonnet now on original bat printing station is pushed to the thermosetting section be heating and curing in case, be heating and curing, the bonnet of originally thermosetting section is then pushed in rewinding box.By the control of controller, circulation and the synchronous working of each cylinder and motor can be realized.Empty folder is there will not be when covering after clamping to allow Workpiece clamping head, the holder 6242 to material sensor be positioned at above briquetting 6241 is fixed with at the movable end of binder cylinder 624, to material sensor detected bonnet here after (being in each guide groove, to have three bonnets in the present embodiment), just make lift cylinder 622 rising and Workpiece clamping head 621 carry out holding action.Workpiece clamping head in the present embodiment 621 is air-cylinder type chuck (also can adopt electromagnetic type chuck in other embodiment), is two guide grooves due to what adopt, and therefore, the collet segment of Workpiece clamping head 621 is two right.Distance between material blocking block 6251 and briquetting 6241 is 3 times of bonnet length.

Be heating and curing case 72, is provided with for the heating chamber 721 through guide groove part thermosetting section 423, is blown into air downwards, is provided with heating in the below of fan 722, be heating and curing by air to the bonnet after guide groove bat printing by fan 722.The outer end of guide groove part thermosetting section 423 is connected with stock guide 728, and the below of stock guide is provided with rewinding box, for the workpiece after collecting bat printing.

Feed mechanism 82, is vibrator feeder (motor of Vibration on Start-up loader, namely can constantly for guide groove part provides regularly arranged bonnet); Be connected in guide groove part feed zone 421.Feed mechanism is 2, be provided with the brush that sweeps up dust above the feed zone 421 of guide groove part 42 and (in figure, only show the fixed head 428 of the brush that sweeps up dust, for clearing away the dust of rear cap surface, to improve the cleannes of rear cap surface) and for driving the cylinder 427 that sweeps up dust of the brush transverse movement that sweeps up dust.

In other embodiment, the guide groove on guide groove part also can be one or three, and feed mechanism also can be one or three.Bat printing head actuating unit also can adopt other servo control mechanism or actuating unit.Guide groove part also can adopt monolithic construction.

As shown in figures 10-14, the rotary power structure of printer device of the present invention and the structure chart of bearing part, it comprises:

Bearing 10, the side of bearing 10 is provided with motor 20, and motor 20 is that the reducing gear 21 by being connected with is fixedly connected with bearing, and bearing 10 is provided with the main shaft (internal structure, not shown) rotating and connect, the output shaft driving coupling of main shaft and motor 20.Main shaft is fixedly connected for being provided with sensing hole or induction groove above the disc 22(of sensed position, at least to there be two, for responding to two extreme positions of swing arm), bearing 10 is provided with the sensor 23 corresponding with disc 22, sensor 23 is for collecting the anglec of rotation of swing arm, and then change the control signal of motor, realize the commutation of motor.In the present embodiment, bearing 10 comprises two support plates 11 (what adopt in the present embodiment is integral structure) be connected across together, middle cavity 12 is for through the workpiece (bonnet of wireless receiver) needing bat printing, and the present embodiment is used for the full-automatic bat printing operation of guide type.

Sliding chute seat 30, be fixedly linked in the opposite side of bearing 10, sliding chute seat 30 is provided with chute 31, what chute 31 comprised that the vertical slot 311 being arranged in main shaft both sides and the cross transition groove 312(the present embodiment communicated with two vertical slot 311 adopt is horizontal straight trough, right angle turn is wide arc transition, in order to improve the speed of movement, the transition arc radius of right angle turn can be increased); The lower end of vertical slot is provided with cushion pad 300, and cushion pad is the impulsive force in order to reduce when pulling pin axle arrival chute, and can reduce noise.

Swing arm 40, one end and the main shaft of swing arm 40 are fixedly connected, and the other end is provided with straight trough 400(can be referred to as kidney slot again, and two ends are circular shape); Swing arm 40 outer end is provided with counting sensing chip 401, and the upper end of sliding chute seat 30 is provided with the proximity transducer 301 corresponding with counting sensing chip 401.Swing arm 40 for transmitting the rotary power of motor, straight trough 400 for allow pull pin axle slide in chute time, according to the distance of chute diverse location and the alignment of shafts change and freely slide.

Pull pin axle 50, the stage casing of axle 50 of pulling pin is slidably connected in the straight trough 400 of swing arm 40, and its one end and chute 31 are slidably connected, the other end and bat printing bar 60 is rotary is fixedly connected.Rotaryly to be fixedly connected to realize this, what the present embodiment adopted is split-type structural, add a spill spin block 51, spill spin block 51 to be rotated with axle 50 of pulling pin by bearing and connects, and spill spin block 51 is provided with the connection slot 511, briquetting 512 and the hold-down screw 513 that are fixedly connected with bat printing bar 60; Pull pin axle 50 for by the power transmission of swing arm to bat printing bar, and need move in chute, therefore, the trajectory shape of chute is exactly the motion track of bat printing bar and bat printing head.

Bat printing bar 60, upper end is fixedly connected with axle 50 of pulling pin, and lower end is provided with bat printing head holder 70; Stage casing is provided with vertical slide rail portion.For the ease of forming vertical slide rail portion, bat printing bar directly adopts line slide rail part, to save processing cost.

Bat printing head holder 70, is fixed on the lower end of bat printing bar 60, and the lower end of bat printing head holder 70 is removable is connected with bat printing head 79; In the present embodiment, bat printing head holder 70 is that the dovetail groove fixed with screw connects with removable connection of bat printing head 79.

Horizontal slide rail 80, is fixedly connected with bearing 10 and is positioned at below sliding chute seat 30; Horizontal slide rail mainly works guide effect when moving horizontally, and makes the movement in the horizontal direction of bat printing bar be subject to the constraint of horizontal slide rail.

Slide unit sub-assembly 90, comprise be slidably connected with horizontal slide rail 80 horizontal slide unit 91, with bat printing bar 60(and vertical slide rail portion) the vertical slide unit 92 that is slidably connected; Also comprise the gusset piece 93 for connecting horizontal slide unit 91 and vertical slide unit 92.

Wherein, the reciprocating rotation of motor, drives by swing arm axle reciprocating in chute of pulling pin, and axle of pulling pin drives bat printing head to do the bat printing action of " up proposing "-" moving horizontally "-" toward pressing down " by bat printing bar, bat printing head holder.

In other embodiment, the disc for sensed position also can be located at swing arm.In other embodiment, horizontal slide unit and vertical slide unit can directly be fixedly connected.In another specific embodiment as shown in figure 14, the track of cross transition groove also can adopt half-circle-arc shape.When adopting this structure, the length of two vertical slot will reduce, also axle is namely pulled pin moving up and down close to being only straight line during two extreme positions, all the other positions, all in order to circular arc, adopt this structure, and the cross transition groove due to centre is arc track, movement can be improved, and then improve the production efficiency of bat printing, but shortcoming is that the length of two vertical slot is shorter, is suitable between pad-transfer printing ink groove and bat printing workpiece without in the printer device of any barrier or transfer printing equipment.

In sum, present invention employs guide groove part structure, by feed mechanism, the workpiece needing bat printing to process is delivered in guide groove one by one, pass through propulsive mechanism again, in groups workpiece is pushed into the below of printer device, after completing bat printing, move to again be set in guide groove part thermosetting section be heating and curing in case, feeding in continuous material is realized in guide groove mode, continuous bat printing, the bat printing processing of laser heating solidification, realize the automation bat printing processing of the products such as wireless receiver workpiece, drastically increase bat printing efficiency, an overall bat printing process, without the need to the manual operation of operating personnel.Wherein the rotary power structure that adopts of printer device is by the rotating of a motor, the reciprocating that structure realizes two directions of bat printing head is slidably connected by three, its structure is quite simple, cost is low, occupy little space, be easy to safeguard, as the standarized component in automation equipment, the bat printing operation in equipment can easily be automated.

Above-mentionedly only further illustrate technology contents of the present invention with embodiment, so that reader is easier to understand, but does not represent embodiments of the present invention and be only limitted to this, any technology done according to the present invention extends or recreation, all by protection of the present invention.Protection scope of the present invention is as the criterion with claims.

Claims (8)

1. the full-automatic transfer printing equipment of guide type, is characterized in that comprising:

Base;

Guide groove part, be provided with for accommodating by the guide groove of bat printing workpiece, described guide groove part is fixed on base, comprises feed zone, bat printing section and thermosetting section;

Printer device, is fixed on base and is positioned at the top of guide groove part bat printing section, comprising bat printing bearing, the bat printing head actuating unit be located on bearing, and the oil groove mechanism of being fixed on base and cleaning mechanism;

Propulsive mechanism, is located at the below of guide groove part bat printing section, comprises Workpiece clamping head, for promoting the lift cylinder that Workpiece clamping head moves up and down and the advance and retreat cylinder promoted for front and back;

Be heating and curing case, is provided with for the heating chamber through guide groove part thermosetting section;

Feed mechanism, is connected in guide groove part feed zone;

The guide groove that guide groove part is provided with is 1-3 bar; Described feed mechanism is 1-3, and described feed mechanism is vibrator feeder; The bat printing head of printer device comprises the bat printing die of 1-3 row;

Also comprise and be positioned at binder cylinder above guide groove part and backgauge cylinder, described binder cylinder is corresponding with the original position of the Workpiece clamping head of propulsive mechanism; During bat printing, the material blocking block connected below backgauge cylinder blocks workpiece, and after bat printing completes, Workpiece clamping head unclamps the clamping to workpiece, and lift cylinder declines, and promoted backward by advance and retreat cylinder, rollback is to original position; Binder cylinder pushes down the workpiece on guide groove downwards, and lift cylinder rises, and Workpiece clamping head clamps the workpiece between material blocking block and briquetting, and backgauge cylinder rises, and advance and retreat cylinder driven forward, workpiece enters bat printing station.

2. the full-automatic transfer printing equipment of guide type according to claim 1, is provided with the brush and for driving the cylinder that sweeps up dust of the brush transverse movement that sweeps up dust of sweeping up dust above the feed zone that it is characterized in that described guide groove part.

3. the full-automatic transfer printing equipment of guide type according to claim 1, characterized by further comprising the bat printing slide rail be fixedly connected with base, and the bat printing slide unit to be slidably connected with bat printing slide rail, described bat printing slide unit is fixed with described oil groove mechanism and cleaning mechanism.

4. the full-automatic transfer printing equipment of guide type according to claim 1, is characterized in that described Workpiece clamping head is air-cylinder type chuck or electromagnetic type chuck.

5. the full-automatic transfer printing equipment of guide type according to claim 1, is characterized in that the movable end of described binder cylinder is fixed with briquetting.

6. the full-automatic transfer printing equipment of guide type according to claim 5, the distance that it is characterized in that between described material blocking block and briquetting be the 2-5 of Workpiece length doubly, the bat printing head of printer device comprises the capable bat printing die of 2-5.

7. the full-automatic transfer printing equipment of guide type according to claim 1, characterized by further comprising the electric cabinet be located on base, and described electric cabinet is also provided with console, and described console is provided with control button and display screen; Described is wireless receiver bonnet by bat printing workpiece.

8. the full-automatic transfer printing equipment of guide type according to claim 1, is characterized in that described bat printing head actuating unit is rotary power structure; Described rotary power structure comprises:

The main shaft connected is rotated with bearing;

Be located at the motor of bearing side, the output shaft of motor connects with spindle drive;

Sliding chute seat, be fixedly linked in the opposite side of bearing, sliding chute seat is provided with chute, and described chute comprises the vertical slot being positioned at main shaft both sides and the cross transition groove communicated with two vertical slot;

Swing arm, one end and the main shaft of described swing arm are fixedly connected, and the other end is provided with straight trough;

To pull pin axle, described in the pull pin stage casing of axle be slidably connected in the straight trough of swing arm, its one end connects with slide, the other end and bat printing bar is rotary is fixedly connected;

Bat printing bar, upper end is fixedly connected with axle of pulling pin, and lower end is provided with bat printing head holder; Stage casing is provided with vertical slide rail portion;

Bat printing head holder, is fixed on the lower end of bat printing bar, and the lower end of described bat printing head holder is removable is connected with bat printing head;

Be fixedly connected with bearing and be positioned at the horizontal slide rail below sliding chute seat;

Slide unit sub-assembly, comprises the horizontal slide unit be slidably connected with horizontal slide rail and the vertical slide unit be slidably connected with vertical slide rail portion;

Wherein, the reciprocating rotation of motor, drives by swing arm axle reciprocating in chute of pulling pin, and axle of pulling pin drives bat printing head to do by bat printing bar, bat printing head holder and up proposes-move horizontally-past bat printing action pressed down.