CN108859405A - Printing machine for the method for reliable delivery printable fabric and for implementing the method - Google Patents

Abstract

The present invention relates to a kind of methods for being controlled printable fabric substrate bearing on printing machine delivery element.It has follow steps according to the method for the present invention：A) the printable fabric substrate (100) on the delivery element (10) is detected by thermal imaging camera (20)；B) analysis handles the thermal image (200) of the thermal imaging camera (20)；C) the printable fabric retainer member (9,15,18) is corrected so that the printable fabric substrate (100) is preferably carried on the delivery element (10).Present method be advantageous in that, it can be achieved that entire printable fabric substrate is reliably born.The printing machine (1000) that the present invention also relates to a kind of for executing this method.

Description

Printing machine for the method for reliable delivery printable fabric and for implementing the method

Technical field

The present invention relates to a kind of to be used for printable fabric substrate on delivery element with feature described in claim 1 Bear the method controlled and a kind of printing machine with feature described in claim 7.

Background technique

In order to print the page made of paper, cardboard and ground paper with small-format or with personalized printing theme, it is known that Using digital printer.When using ink gun printed pages, transportation system makes each page move across spray with the smallest interval Below black head.As transportation system, it is known that rotary conveyer belt (being for example implemented as suction belt) and rotating cylinder (so-called injection Roller) or rotary pallet.

In the machine design using roller, as described in 10 2,015 211 440 B3 of DE, above injection roller Multiple ink jet printing heads are disposed in a manner of being radially spaced, these ink jet printing heads are printed with closely-spaced relative to print head The page that ground moves across.On injection roller, multiple pages can be aspirated and conveyed simultaneously.In order to ensure high press quality and keep away Exempt from the damage of print head, it is important that each page is carried on well on injection roller.

If page does not bear and for example holded up dog-ear reliably or there are page ripples, these may damage print head. In order to avoid such case, it is known that configure detection device to printing machine, for example：Page height controller；So-called bad page passes Sensor；And quickly stop printing machine in the case where having holded up corner angle or seamed edge.But thus greatly reduce the efficiency of printing machine.

For guiding page, these page delivery rollers have for keeping page to be conveyed known page delivery roller Hold in the month and take device system, for example disclosed in 10 2,015 211 440 B3 of DE.The document gives a kind of page delivery roller, Face is born with the page that section (Kammsegmenten) is constituted is combed by two respectively.In order to reliably keep bearing page, these Combing section has suction socket, these suction sockets are supplied by the rotary valve being arranged in inside page delivery roller to aspirate air.

The prior art simultaneously it is not recommended that uses thermal imaging camera in printing machineReferring to DE10 2005 029 332 A1.This is considered expensive, slow and sensitive.

Summary of the invention

The task of the present invention is to provide a kind of for controlling printable fabric substrate bearing on delivery element Method, and propose a kind of printing machine, the method and the printing machine can be realized printable fabric substrate with more preferably and more The drawbacks of reliable way conveys and at least partly overcomes the prior art.

The task by it is a kind of it is with feature described in claim 1, for printable fabric substrate in delivery element The method that is controlled of bearing solve.

According to the method for the present invention for being conveyed to printable fabric substrate (the especially page made of Paper or cardboard) Bearing on element (i.e. placement and with the contact of the delivery element) is controlled.The delivery element has printable fabric Retainer member (Bedruckstoffhaltemittel).It can be realized in printing machine by this method by printable fabric substrate It is conveyed in a manner of safely and reliably.

For this purpose, in the first step, the printable fabric substrate on the delivery element is detected by thermal imaging camera.? This, the detection carries out (i.e. during delivery element movement) in operation.

In the second step, analysis handles the thermal image of the thermal imaging camera.It is handled according to this analysis, in third Corrected in step the printable fabric retainer member to by the printable fabric substrate improve bear and (preferably bear), For example：It is more securely clamped by the printable fabric retainer member, more effectively blown or more strongly aspirated.

The advantage of such methods is, reliably the bearing of entire printable fabric substrate can examine and recoverable.Here, Thermal imaging camera using especially beneficial because it is compared to for example landform laser scanning system (topographisches Laser-Scanner-System) cost is less expensive.Here, other than so-called bad page sensor disclosed in the prior art, The thermal imaging camera can be used between bad page sensor and printing station, this makes it possible to work as the once printable fabric base It realizes when being detached from after by the bad page sensor from the surface of the delivery element to the printable fabric substrate at bottom Additional control.

In being advantageously improved in scheme according to the method for the present invention, its temperature and heat are identified in analysis processing step There are those of high level deviation regions for the rest part of image.This high level deviation is considered：Printable fabric substrate is at this It is born on the delivery element in a little regions bad.

In a kind of alternative structure scheme of this method, the temperature of the delivery element is determined by additional sensor Degree.If printable fabric substrate is carried on the delivery element in the form of planar, temperature shown in thermal image is close The temperature of the delivery element.Then, it can identify its temperature in analysis processing step and the temperature of the delivery element is deposited In those of significant deviation region.This deviation indicates：These regions bear bad on the delivery element.

Then, in next aligning step, the guarantor of the printable fabric retainer member in that region can be improved Holding force, thus to facilitate the printable fabric substrate to bear with improving.

In one kind according to the method for the present invention in particularly advantageous and then preferred improvement project, the printable fabric is kept Device be at least also implemented as the blowing element (for example guide plate or blow-out nozzle above the delivery element) that can individually control and/ Or suction element (for example suction socket or suction hole).Then, in aligning step, the blowing effect to the blowing element is carried out The adaptation of (or suction effect of the suction element).This advantage is, can sufficiently accurately set blowing force or suction according to demand Power.Thus, it is possible to avoid the printable fabric substrate deformation caused by too strong air capacity, this is because no longer needing to prevent Property carry out operation by very more air.Also air requirements and air consumption can integrally be reduced.

In a kind of feasible method modification, after the analysis processing step, analysis processing display is being printed On the interface of the equipment control device of brush machine (for example on a display screen).Thus the thermal image can be visualized.

The present invention also relates to a kind of printing machine (especially digital printers), have：Including printable fabric retainer member Delivery element；At least one printing station in the delivery element region；With the equipment control device including interface.The printing Machine is for printing the printable fabric substrate for being conveyed through the printing station by the delivery element.According to the present invention, described defeated It send in the region of element and handles the printable fabric base for analyzing in the printing station upstream arrangement thermal imaging camera Bottom bearing and (disposing or contact) on the delivery element.Preferably, the delivery element is configured to rotary element, Especially：Roller (for example so-called injection roller) or conveyer belt (for example suction belt).

In improvement project of the invention, the sensing of the temperature for detecting the delivery element can be additionally provided with Device.Then, as above-mentioned thermal imaging camera, which is also filled in a manner of Data Transfer Technology with the apparatus control It sets and is connected.

In a kind of advantageous and then preferred improvement project of printing machine according to the present invention, the printable fabric is kept Device is at least also implemented as the blowing element that can individually control and/or suction element.

The present invention and the present invention it is above-mentioned be advantageously improved scheme be combined with each other also constitute the present invention be advantageously improved scheme (only Will technically it is significant if).

Advantageous structural scheme is referring to dependent claims and base in terms of other advantages of the invention and structure and function It is described in the embodiment of attached drawing.

Detailed description of the invention

The present invention should do further explaination based on attached drawing.Mutual corresponding element and component are in the accompanying drawings with identical attached Icon note indicates.In order to be more clear attached drawing, the displaying according to actual proportions is not done herein.

Attached drawing is schematically shown：

Fig. 1：The synoptic chart of printing machine according to the present invention,

Fig. 2 a and 2b：The top view and side view of injection roller as delivery element,

Fig. 3 a and 3b：Thermal image before being corrected to printable fabric retainer member and later.

Specific embodiment

Fig. 1Digital printer 1000 for printing to page 100 is shown.The digital printer 1000 has number print Brush station 3, the digital print station 3 have multiple ink jet printing items 30 of the front and back arranged in succession on conveying direction T, these ink-jets Printed strip 30 has the ink jet printing head being arranged parallel to each other.Feeder stacks 101 page in page feeder 1 100 are transported to the number using the conveying device (for example conveyer belt and conveying roller) shown in non-detail on conveying direction T Word printing station 3.The page 100 is by spraying roller 10 (a and 2b referring to fig. 2) by the conveying of the digital print station 3 It carries out, the page 100 is carried on the injection roller 10.3 upstream of digital print station is provided with thermal imaging camera shooting Machine 20 and so-called bad page sensor 21, the thermal imaging camera 20 and the bad page sensor 21 and the apparatus control fill Set 7 connections.By the rotation of the injection roller 10, the page 100 is made to move across the ink-jet print of the digital print station 3 Below brush head, and it can be printed herein.The ink jet printing head of the printed strip 30 control be by equipment control device 7 into Row.In conveying direction T, there is the maculature output device for failure page to be discharged in injection 10 downstream of roller setting Discharge station.Conversely, good page is transported further, and the collector in page collector 2 is stacked and is exported on 102.

Fig. 2 aThe injection roller (page delivery roller) 10 is illustrated to overlook, can see in figure：Preferred In embodiment, the injection roller 10 includes at least one first comb section 11 and the second comb section 12, in order to roll the injection Cylinder 10 adapts to the different size length of page 100 to be conveyed, and the second comb section 12 can be around axis of oscillation 13 relative to institute It states the rotation of the first comb section 11 or is supported swingingly, central axis of the axis of oscillation 13 corresponding to the injection roller 10.Each Combing section 11,12 has pointed tooth 14, these pointed tooths 14 are embedded into the intermediate space between the pointed tooth 14 of corresponding another comb section 12,11.

The second comb section 12 is used to adapt to smaller page specification towards the first comb adjustment of section 11, this makes institute It states pointed tooth 14 to be deeper pushed into the intermediate space, so that the intermediate space narrows；In order to adapt to compared with big page Specification is opened, the second comb section 12 is away from the first comb section 11 and is adjusted, this causes widening for the intermediate space.

The injection roller 10, which has to hold in the month, takes device system 15 and suction socket 9,18, as printable fabric retainer member.It is described Holding in the month for roller 10 of injection takes device system 15 to have：Being arranged in holding in the month in the first comb 11 front seamed edge of section takes device to bear portion 16；With Be allocated to these hold in the month take device bear portion 16, for sandwiching holding in the month for the printable fabric page 100 take device tongue 17.Described It is disposed with trailing edge suction socket 18 in two comb sections 12, for the trailing edge of the printable fabric page 100, the trailing edge to be sucked Suction socket 18 is attached to suction air-source (being not shown in Fig. 2 a and 2b).It is alternatively to the trailing edge suction socket 18, can also be made With multiple rows of suction nozzles of arrangement.Mechanically holding in the month in the page front seamed edge takes on device 15 and the page trailing edge Suction socket 18 is of great significance for reliably conveying the page 100.It thus ensures：The page 100 can be It is compacted on its corner angle and seamed edge, and can be with the closely-spaced ink gun lower section for moving across the digital print station 3 of definition.

First comb section 11 and the second comb section 12 are equipped with suction socket 9, these suction sockets 9 ensure page 100 without in The mode of empty position is well flatly born.

Fig. 2 bThe injection roller 10 in Fig. 2 a is illustrated with cross-sectional side.

In order to ensure reliably bearing for the page 100, it is necessary to correctly set the printable fabric retainer member.

The heat for moving across the page 100 of the thermal imaging camera 20 can be shot by the thermal imaging camera 20 Image 200.The analysis processing of the thermal image 200 can determine that：Whether each page 100 is by the printable fabric retainer member 9,15,18 keep well and are reliably carried on the injection roller 10.If page 100 is carried on the spray well It penetrates on roller 10, then can identify by entire surface the surface texture of the injection roller 10 in the thermal image 200, for example：Tool There is the comb section 11,12 of pointed tooth 14.Also it may recognize that：It is reliably born in front seamed edge and trailing edge region.

Fig. 3 aIn illustrative thermal image is shown.Herein it can be seen that：The page 100 is in the corner region of trailing edge It bears bad.In order to also realized in these regions 201 it is good bear, it is described comb section 12 external suction slot 9 (it is described after rib The perimeter of side suction socket 18) it can more strongly be loaded to aspirate air.This can or automatically pass through the machine Control device or progress is correspondingly inputted by operating staff.It is obtained after such correctionFig. 3 bShown in thermal map Picture, the thermal image represent well bearing for page.

Reference signs list

1 feeder

2 collectors

3 printing stations

7 equipment control devices

9 suction sockets

10 injections roller (delivery element)

11 first comb sections

12 second comb sections

13 axiss of oscillation

14 pointed tooths

15 mechanical hold in the month take device

16 hold in the month device are taken to bear portion

17 hold in the month and take device tongue

18 trailing edge suction sockets

20 thermal imaging cameras

30 printed strips with ink jet printing head

40 air-sources (for example aspirate air generator)

100 pages

101 feeders stack

102 collectors stack

200 thermal images

201 pages bear the region of difference

202 temperature sensors

1000 digital printers

T conveying direction

Claims (10)

1. one kind for printable fabric substrate (100) in printing machine (1000) with printable fabric retainer member (9,15, 18) method controlled is born on delivery element (10), the method is used for printable fabric substrate (100) reliably Conveying,

It the described method comprises the following steps：

A) the printable fabric substrate (100) on the delivery element (10) is detected by thermal imaging camera (20),

B) analysis handles the thermal image (200) of the thermal imaging camera (20),

C) the printable fabric retainer member (9,15,18) is corrected, so that the printable fabric substrate (100) is with improved side Formula is carried on the delivery element (10).

2. according to the method described in claim 1,

Wherein, in step b), following region (201) are identified：The temperature in the region relative to remaining thermal image (200) and There are the deviations of high level for speech.

3. according to the method described in claim 1, including the steps that additional：

A1 the temperature of the delivery element (10)) is determined.

4. according to the method described in claim 3,

Wherein, in step b), following region (201) are identified：The temperature in the region significant departs from the conveying member The temperature of part (10).

5. according to the described in any item methods of preceding claims,

Wherein, the printable fabric retainer member is implemented as the blowing element that can individually control and/or suction element (9,18), and And it realizes in step c) to the adaptation for being blown effect and/or suction effect.

6. being included the steps that additional according to the described in any item methods of preceding claims：

B1 the analysis processing) is shown on the interface of equipment control device (7).

7. a kind of printing machine (1000), has：

At least one delivery element (10), the delivery element have printable fabric retainer member (9,15,18),

At least one printing station (3), the printing station are located in the region of the delivery element (10), and

Equipment control device (7), the equipment control device have interface,

It is characterized in that,

Thermal imaging camera (20) are disposed in the region of the delivery element (10), for printable fabric substrate (100) Bearing on the delivery element (10) is analyzed and processed.

8. printing machine according to claim 7,

It is characterized in that,

The delivery element is configured to rotary element, particularly roller (10) or conveyer belt.

9. printing machine according to claim 7 or 8,

It is characterized in that,

Sensor (202) are provided with, for detecting the temperature of the delivery element (10).

10. printing machine according to any one of claims 7 to 9,

It is characterized in that,

The printable fabric retainer member is implemented as the blowing element that can individually control and/or suction element (9,18).