CN203600794U - Embossing machine - Google Patents

Abstract

The utility model discloses an embossing machine comprising a wall plate, a drive mechanism, a slide mechanism, a lifting mechanism, a conduction band and a flattening roller; when the embossing machine starts to work, the drive mechanism drives the slide mechanism for driving the flattening roller and the conduction band to move forwards in certain distance, and the embossing machine starts to print; simultaneously the drive mechanism drives the slide mechanism for driving the flattening roller to move backwards to the starting position, and medium can be flattened in a reset process of the flattening roller. The two motions are repeated until the printing work is finished. The embossing machine employs the flattening roller to compact the medium in the reset process of the flattening roller; the mode of employing surface contact to flatten the medium can replace the work mode of line contact in the prior art, so the medium wrinkles can be effectively flattened, the medium and the conduction band can be tightly attached, thereby improving printing effect of the embossing machine, and the embossing machine is suitable for a high speed printing mode.

Description

A kind of printing machine

Technical field

The utility model relates to digit printing equipment technical field, particularly a kind of printing machine.

Background technology

The technology that weaving digital ink-jet is printed is by medium (cotton by manual type, silk goods, continuous synthetic fibre) and scribble after the conduction band laminating of table top glue, drive conduction band and enter print area with the medium of conduction band laminating by drive roll, then move back and forth and realize image printing to a print procedure on medium by printhead.The laminating of medium and conduction band has been compressed by nip rolls, and the action of nip rolls is to be completed by rectilinear movement by the cylinder at nip rolls two ends.

But existing weaving digital ink-jet printing technique has following two deficiencies: 1, nip rolls is that line contacts with medium, the contact-making surface that is to say nip rolls and medium is a line, like this wrinkling part of medium is just difficult for flattening, and will affect and medium is wrinkling the picture quality being printed on medium.And the flattening mode of line contact, also can make the laminating degree defective tightness of medium and conduction band, and easily printhead is touched in wiping, affects the service life of printhead.2, existing weaving digital ink-jet printing technique is only applicable to the mobile working method at a slow speed of conduction band, the low-speed machine of conventionally saying, if conduction band translational speed accelerate, the more difficult pressing of the wrinkling part of medium accordingly, the also more difficult guarantee of the laminating degree of medium and conduction band.

Along with the development of weaving digital technology, flying print is a kind of inexorable trend, and prior art is not suitable for the working method of high-speed printer.

Thereby prior art need to improve.

Summary of the invention

In view of above-mentioned the deficiencies in the prior art part, the purpose of this utility model is to provide a kind of printing machine, adopts line contact to flatten the difficult problem that flattens medium of mode of medium to solve prior art.

In order to achieve the above object, the utility model has been taked following technical scheme:

A kind of printing machine, comprise wallboard, for the conduction band of transmission medium with for flattening the nip rolls of medium, on described wallboard, be provided with before and after controlling nip rolls and come and go the mobile slide mechanism that flattens described medium, on described slide mechanism, be provided with the elevating mechanism of the height for regulating nip rolls; Described wallboard, slide mechanism and elevating mechanism are two, and are positioned at the both sides of conduction band; One end of described nip rolls is installed on an elevating mechanism, the other end of nip rolls is installed on another elevating mechanism, and nip rolls is driven and is located on conduction band; On a wallboard wherein, be also provided with the driving mechanism for driving slide mechanism to slide, described driving mechanism connects with the slide mechanism on this wallboard.

In described printing machine, described slide mechanism comprises power transmission shaft and two axle sleeves, and two axle sleeves are all enclosed within on power transmission shaft, and are embedded in described wallboard.

In described printing machine, described driving mechanism comprises motor and decelerator, on described wallboard, be also provided with bearing, described decelerator is installed on described bearing, and the power shaft of decelerator connects with described motor coaxle, the output shaft of decelerator and one end of described power transmission shaft are coaxially connected.

In described printing machine, tooth bar, take-up housing, guide assembly and limit base that described slide mechanism also comprises gear, engages with gear, described guide assembly is installed on wallboard, described take-up housing is slidably installed on guide assembly, described gear is installed in transmission the tip of the axis, and the tooth bar engaging with gear is installed on take-up housing.

In described printing machine, described elevating mechanism comprises cylinder and sliding sleeve; Described sliding sleeve connects with described limit base, on described cylinder, is provided with seat board, and described seat board is installed on sliding sleeve, in described sliding sleeve, is provided with sliding shoe, in described sliding shoe, is equiped with bearing, and described bearing connects with the spindle nose of nip rolls end.

In described printing machine, described guide assembly comprises rack beams and guide rail, and described guide rail is installed in rack beams, and on guide rail, is provided with at least one slide block, and described take-up housing connects with described slide block.

Described printing machine, also comprises bracing frame, and one end of support frame as described above is installed on a wallboard, and the other end of bracing frame is installed on another wallboard, and bracing frame is positioned at the below of conduction band, and with the inner surface laminating of conduction band.

In described printing machine, the binding face of support frame as described above and conduction band is plane.

Compared to prior art, the printing machine that the utility model provides, comprise wallboard, driving mechanism, slide mechanism, elevating mechanism, conduction band and nip rolls, when printing machine is started working, drive slide mechanism to drive nip rolls and conduction band to move forward after certain distance by driving mechanism, make printing machine start to print work, driving mechanism drives slide mechanism to drive nip rolls to move backward simultaneously, get back to initial position, in the process resetting at nip rolls, medium is flattened.Repeat this two actions, until complete print job.The utility model adopts nip rolls to compress medium in its reseting procedure, by this face being touched to the mode that medium replaces line contact that flattens, effectively the fold of medium is flattened, realize medium and conduction band fitting together closely, improve the printing effect of printing machine, and be adapted to high speed print mode.

Accompanying drawing explanation

The structural representation of one angle of the printing machine that Fig. 1 provides for the utility model.

The structural representation of another angle of printing machine that Fig. 2 provides for the utility model.

The partial structurtes schematic diagram of the printing machine that Fig. 3 provides for the utility model.

The printing machine that Fig. 4 provides for the utility model flattens the method flow diagram of medium.

The specific embodiment

The utility model provides a kind of printing machine, for making the purpose of this utility model, technical scheme and effect clearer, clear and definite, referring to the accompanying drawing embodiment that develops simultaneously, the utility model is further described.Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

Refer to Fig. 1, Fig. 2 and Fig. 3.A kind of printing machine that the utility model provides, comprising: wallboard 8, conduction band 18 and nip rolls 11, and described conduction band 18, for paste medium, rotates transmission medium by conduction band, and described nip rolls 11 flattens the medium on conduction band.

On described wallboard 8, be provided with for controlling nip rolls 11 front and back and come and go the mobile slide mechanism (figure indicates) that flattens described medium, on described slide mechanism, be provided with the elevating mechanism (figure indicates) of the height for regulating nip rolls 11, at needs when being coated with table top glue on conduction band 18, first drive nip rolls 11 upwards to lift certain height by described elevating mechanism, when on conduction band 18, be coated with table top glue by medium the gap through nip rolls 11 and conduction band 18, and after being fitted on nip rolls, controlling described elevating mechanism drives nip rolls 11 to decline, after nip rolls 11 and conduction band 18 contact and press and close, elevating mechanism is out of service.

Wherein, described wallboard 8, slide mechanism and elevating mechanism are two, and are positioned at the both sides of conduction band 18; One end of described nip rolls 11 is installed on an elevating mechanism, the other end of nip rolls 11 is installed on another elevating mechanism, and nip rolls 11 is driven and is located on conduction band 18; On a wallboard 8 wherein, be also provided with the driving mechanism (figure indicates) for driving slide mechanism to slide, described driving mechanism connects with the slide mechanism on this wallboard 8.

For example, driving mechanism is installed on the wallboard 8 in Fig. 1 left side, and this driving mechanism can also drive the move mode of conduction band 18, as driven slide mechanism to drive nip rolls 11 to move forward at driving mechanism in, drive the drive roll (not shown) and the driven voller (not shown) forward that drive conduction band 18, make conduction band 18 synchronously move forward the distance equating with nip rolls 11.

In the time printing, first, driving mechanism stops after driving conduction band 18 and nip rolls 11 synchronously to move forward an identical segment distance; Start print image by the printhead of printing machine afterwards, meanwhile driving mechanism drives slide mechanism to drive nip rolls 11 to move and the same distance moving forward (controlling nip rolls 11 resets) backward.So nip rolls repeatedly moves forward and moves backward these two actions until image printing completes.Preferably, in mobile backward process, because the printhead prints time is compared the time that conduction band 18 moves forward and will grow one to two times, so nip rolls 11 in mobile backward velocity ratio speed forward slow to two times, the effect that medium flattens is like this better, makes printing machine print more high-quality.

Further, a kind of printing machine that the utility model provides also comprises bracing frame 19, one end of support frame as described above 19 is installed on wallboard 8, the other end is installed on another wallboard 8, and bracing frame 19 is positioned at the below of conduction band 18, and with the inner surface laminating of conduction band 18, make in nip rolls 11 reseting procedures, while pressing conduction band 18, support conduction band 18 by bracing frame 19, and in the time that nip rolls 11 resets, prevent medium shake.

When concrete enforcement, described support 19 is plane with the binding face of conduction band 18, has so guaranteed that conduction band 18 is plane in operation interval, guarantees in nip rolls 11 reseting procedures and between medium, for face contacts, can better medium to be paved.

Please continue to refer to Fig. 1, Fig. 2 and Fig. 3, in the printing machine providing at the utility model, described slide mechanism comprises power transmission shaft 10 and two axle sleeves 6, and wherein two axle sleeves 6 are all enclosed within on power transmission shaft 10, and are embedded in described wallboard 8.

In the present embodiment, one of them axle sleeve 6 is enclosed within on the subterminal position of connecing of power transmission shaft 10, and is embedded in a wallboard 8, and another axle sleeve 6 is embedded in another wallboard in an identical manner.

Please continue to refer to Fig. 3, described driving mechanism comprises motor 2 and decelerator 1, on described wallboard 8, be also provided with bearing 5, described decelerator 1 is installed on described bearing 5, and the power shaft of decelerator 1 coaxially connects with described motor 2, the output shaft of decelerator 1 is coaxially connected with one end of described power transmission shaft 10, driving mechanism when work, start and drive decelerator 1 to control power transmission shaft 10 to rotate by motor 2.

Further, tooth bar 4, take-up housing 17, guide assembly (not marking in figure) and limit base 16 that described slide mechanism also comprises gear 3, engages with gear 3, described guide assembly is installed on wallboard 8, described take-up housing 17 is slidably installed on guide assembly, can before and after guide assembly, come and go and slide.Described gear 3 is installed in the end of power transmission shaft 10, and the tooth bar 4 engaging with gear 3 is installed on take-up housing 17.

In the time that driving mechanism is worked, power transmission shaft 10 rotates, the gear 3 that drive is installed in power transmission shaft 10 ends rotates, drive with this tooth bar 4 engaging with gear 3, and then take-up housing 17 is synchronizeed and is moved on guide assembly with tooth bar 4, and nip rolls 11 synchronizing movings that connect with take-up housing 17 of drive, the front and back of so realizing nip rolls 11 come and go mobile.

It should be noted that conduction band 18 also can be driven by other motor, only need be in the time that nip rolls 11 move forward, guarantee that conduction band 18 and nip rolls 11 are synchronously mobile in the same way.As conduction band 18 can be by driven by servomotor, the moving direction of conduction band 18 and speed are by the driver control of servomotor, in the time driving, send pulse by driver to servomotor, controlled the anglec of rotation of this servomotor by the number of umber of pulse, the anglec of rotation is just long with regard to conduction band 18 displacements greatly, otherwise just short.And, if nip rolls 11 and conduction band 18 drive by different motors, be also convenient to the control to both translational speeds and moving direction.

In the present embodiment, described guide assembly comprises rack beams 7 and guide rail 9, and described guide rail 9 is installed in rack beams 7, and at least one slide block (not shown) is set on guide rail 9, and described take-up housing 17 is connected with described slide block.In the present embodiment, the slide block on every guide rail 9 is two, steady can make take-up housing 17 slide on guide rail time.

Please again consult Fig. 3, described elevating mechanism comprises cylinder 14 and sliding sleeve 13; Described sliding sleeve 13 connects with described limit base 16, on described cylinder 14, is provided with seat board 15, and described seat board 15 is installed on sliding sleeve 13, in described sliding sleeve 13, is provided with sliding shoe 12, and this sliding shoe 12 can slide up and down in sliding sleeve 13.In described sliding shoe 12, be equiped with bearing (not shown), described bearing connects with the spindle nose of nip rolls 11 ends, makes, in process that nip rolls 11 resets, to roll and press with medium, further promotes the flattening effect of medium.

In the present embodiment, described limit base 16 is fixed on described take-up housing 17, connects sliding sleeve 13 on limit base 16, is fixed the position of cylinder 14 by limit base 16.While being coated with table top glue at needs on conduction band, control sliding shoe 12 by cylinder 14 and move up, nip rolls 11 is upwards risen, after coating table top glue medium being fitted on nip rolls 11, cylinder 14 is controlled sliding shoe 12 and is moved down, until nip rolls 11 presses with conduction band 18.

The utility model also provides a kind of printing machine to flatten the method for medium, refers to Fig. 4.A kind of printing machine that Fig. 4 provides for the utility model flattens the method flow diagram of medium.As shown in Figure 4, printing machine of the present utility model flattens the method for medium, comprises the following steps:

S100, drive slide mechanism to drive nip rolls and conduction band synchronizing moving preset distance by driving mechanism;

S200, in the time of Printing-Machine ', driving mechanism drives slide mechanism to drive nip rolls to reset, and in reseting procedure, by flattening medium, and medium is fitted on conduction band.

The method of the flattening medium that the utility model provides first driving mechanism drives slide mechanism to drive nip rolls and conduction band synchronizing moving forward, and the two stops after moving forward certain distance; Then printhead starts print job, and conduction band is motionless simultaneously, and driving mechanism drives slide mechanism to drive nip rolls to move backward (being that nip rolls resets).So, the utility model constantly repeats to drive slide mechanism to drive nip rolls to move forward and mobile these two actions backward by driving mechanism, completes printing machine and completes the operation of printing and flattening medium.

Wherein, before printing machine is printed, before described step S100, the method that printing machine of the present utility model flattens medium also comprises: risen by elevating mechanism control nip rolls, gap by medium through nip rolls and conduction band, and medium is attached on nip rolls; Afterwards, elevating mechanism control nip rolls declines, and nip rolls and conduction band are pressed.The utility model rises nip rolls, so that be coated with table top glue on conduction band, and medium is passed in the middle of nip rolls and conduction band, after medium and nip rolls laminating, make nip rolls drop to the position pressing with conduction band, then drive slide mechanism to drive after nip rolls and conduction band synchronizing moving preset distance, nip rolls is resetted, in reseting procedure, flatten medium and be fitted on conduction band by nip rolls.It should be noted that the bonding force between medium and nip rolls need be less than the bonding force of table top glue, thereby in the time that screen plain-barreled roll completes reset operation for the first time, medium can not torn up from conduction band.

The utility model is by the fit mode of medium of machinery, than tradition, that medium is fitted in to mode on conduction band is more smooth by manual, and the contact of the utility model employing face flattens the mode of the replacement line contact of medium, effectively the fold of medium is flattened, realized medium and conduction band fitting together closely.

For the ease of understanding the utility model, arrive Fig. 4 in conjunction with Fig. 1 herein, the method that printing machine of the present utility model is flattened to medium is elaborated:

In the time that printing machine is started working, first driven by servomotor drive roll drives conduction band 18 to move forward, motor 2 starts driving decelerator 1 simultaneously, drive power transmission shaft 10 to rotate by decelerator 1, make gear 3 coaxial rotation of power transmission shaft 10 ends, the tooth bar 4 engaging with gear 3 is moved forward, because tooth bar 4 is installed on take-up housing 17, thereby take-up housing 17 is moved forward along guide rail 9.Connect now because limit base 16 is installed on take-up housing 17, and with the sliding sleeve 13 of cylinder 14, nip rolls 11 is also moved forward thereupon, and be consistent with conduction band 18 translational speeds and moving direction.In the time that conduction band 18 moves to print area, conduction band 18 and nip rolls 11 are all stopped mobile.

Stop after movement at nip rolls 11 and conduction band 18, printing machine just can start stamp work at print area, and now motor 2 reverses, and drives in a manner described nip rolls 11 mobile same distance backward, nip rolls is resetted, in the process resetting at nip rolls 11, flatten the medium being fitted on conduction band.

In this step, because the time-write interval of printing machine is compared long one to two times of time of moving forward, so slow one to two times of the speed that the velocity ratio moving backward at nip rolls 11 moves forward like this, better flattens medium nip rolls 11.Herein, the speed that nip rolls 11 moves is backward preferably than it and moves forward slow 2 times of speed.

Further, printing machine of the present utility model also comprises alarm module and controls computer, in the time that nip rolls 11 does not contact with medium, controlling computer control alarm module reports to the police, remind nip rolls 11 roll surfaces and conduction band 18 Surface Contacts abnormal, if there is no medium contact between the roll surface of nip rolls 11 and conduction band 18 surfaces, elevating mechanism drives nip rolls 11 to rise again, and display medium spreads into there being problem on control computer.In addition, if medium spreads into there being fold, elevating mechanism also automatic traction nip rolls 11 rise and point out medium to spread into there being problem.Above-mentioned realization is take the pressure sensitive of sliding shoe 12 as benchmark.

In sum, a kind of printing machine that the utility model provides, the technique effect specifically reaching is:

1, the line between nip rolls in prior art and medium is contacted and be promoted to face contact, medium and conduction band are closely fitted, and fold that can more effective removal medium, promotes the quality of print image, and make the laminating degree of medium and conduction band better, make printing machine can better print work;

2, owing to contacting between nip rolls and medium as face contact, better medium being flattened, make printing machine operating efficiency higher, is not only that the working method of the slow printing of prior art offers convenience, and more can be applicable to the working method of flying print.

Be understandable that; for those of ordinary skills; can be equal to replacement or change according to the technical solution of the utility model and utility model design thereof, and all these changes or replacement all should belong to the protection domain of the appended claim of the utility model.

Claims (8)

1. a printing machine, comprise, wallboard, for the conduction band of transmission medium with for flattening the nip rolls of medium, it is characterized in that, on described wallboard, be provided with before and after controlling nip rolls and come and go the mobile slide mechanism that flattens described medium, on described slide mechanism, be provided with the elevating mechanism of the height for regulating nip rolls; Described wallboard, slide mechanism and elevating mechanism are two, and are positioned at the both sides of conduction band; One end of described nip rolls is installed on an elevating mechanism, the other end of nip rolls is installed on another elevating mechanism, and nip rolls is driven and is located on conduction band; On a wallboard wherein, be also provided with the driving mechanism for driving slide mechanism to slide, described driving mechanism connects with the slide mechanism on this wallboard.

2. printing machine according to claim 1, is characterized in that, described slide mechanism comprises power transmission shaft and two axle sleeves, and two axle sleeves are all enclosed within on power transmission shaft, and are embedded in described wallboard.

3. printing machine according to claim 2, it is characterized in that, described driving mechanism comprises motor and decelerator, on described wallboard, be also provided with bearing, described decelerator is installed on described bearing, and the power shaft of decelerator connects with described motor coaxle, the output shaft of decelerator and one end of described power transmission shaft are coaxially connected.

4. printing machine according to claim 3, it is characterized in that, tooth bar, take-up housing, guide assembly and limit base that described slide mechanism also comprises gear, engages with gear, described guide assembly is installed on wallboard, described take-up housing is slidably installed on guide assembly, described gear is installed in transmission the tip of the axis, and the tooth bar engaging with gear is installed on take-up housing.

5. printing machine according to claim 4, is characterized in that, described elevating mechanism comprises cylinder and sliding sleeve; Described sliding sleeve connects with described limit base, on described cylinder, is provided with seat board, and described seat board is installed on sliding sleeve, in described sliding sleeve, is provided with sliding shoe, in described sliding shoe, is equiped with bearing, and described bearing connects with the spindle nose of nip rolls end.

6. printing machine according to claim 4, is characterized in that, described guide assembly comprises rack beams and guide rail, and described guide rail is installed in rack beams, and on guide rail, is provided with at least one slide block, and described take-up housing connects with described slide block.

7. printing machine according to claim 1, is characterized in that, also comprises bracing frame, and one end of support frame as described above is installed on a wallboard, and the other end of bracing frame is installed on another wallboard, and bracing frame is positioned at the below of conduction band, and with the inner surface laminating of conduction band.

8. printing machine according to claim 7, is characterized in that, the binding face of support frame as described above and conduction band is plane.

Images