CN103381696B - There is the printer of the bonder for roller - Google Patents

Abstract

The present invention relates to a kind of printer (1), comprising: roller (2)；For rotating the drive shaft (3) driving described roller (2)；Be used for the bonder (4) that makes described roller (2) be connected alternatively with described drive shaft (3) and get loose.Described bonder (4) has the first bonder half portion (5) and the second bonder half portion (6).In said two bonder half portion (5,6) one is arranged on that described drive shaft (3) is upper and another in said two bonder half portion (5,6) is arranged on described roller.Described bonder (4) is Oldham formula bonder (4) with telophragma (7).Described telophragma (7) is only connected with described first bonder half portion (5) axial restraint ground.Described axial restraint is realized by the formfitting element (8,9) cooperated.

Description

There is the printer of the bonder for roller

Technical field

The present invention relates to a kind of printer.

Background technology

The printer with anilox roll is described in US 7,389,728B2.Anilox roll can be locked from roller by operator Middle taking-up.

A kind of anilox roll can taken out from roller is locked is also illustrated in DE 10 2,009 057 974 A1.Here, blade tooth Bonder allows anilox roll get loose with drive shaft and be connected.

The shortcoming of described blade tooth bonder is, the meeting when anilox roll and drive shaft have axle dislocation in this blade tooth bonder Occur that sidewall is alternately.Described sidewall alternately can cause the vibration damaging printing quality in the machine.

Summary of the invention

Therefore the task of the present invention is to provide one and has the printer of bonder (or clutch), and it does not damage printing Quality.

Described task solves by having the printer of feature of present invention.The printer of the present invention includes: roller；For rotating Drive the drive shaft of described roller and for the bonder making described roller be connected alternatively with described drive shaft and get loose；Wherein, institute State bonder and there is the first bonder half portion and the second bonder half portion；Wherein, one in said two bonder half portion sets Put in described drive shaft and another in said two bonder half portion is arranged on described roller.Printing in the present invention In machine, described bonder be have the Oldham formula bonder of telophragma and described telophragma only with described first bonder Half axial restraint ground, connects, and wherein, described axial restraint is realized by the formfitting element cooperated.

It is to say, in the printer of the present invention, coupler configurations is cross recess bonder.This Oldham formula bonder Cross recess bonder is the compensation bonder for compensating axle dislocation in other words.Because axle dislocation is compensated, therefore in coupling Occurring without sidewall in device and alternately and occur without the vibration thus caused, this vibration will damage print result.

Described telophragma is only so connected with the first bonder half portion so that this telophragma is in the direction of rotation axis of roller On will not come off from the first bonder half portion.One formfitting element is positioned in the first bonder half portion and another shape Co-operating member is positioned on telophragma.One formfitting element prevents another formfitting element on the direction of rotation axis of roller Motion, thus provides axial restraint (or axial relief) measure.With the first bonder half portion by contrast, the second bonder half portion To pull-out and axial restraint can be there is not between telophragma and the second bonder half portion from telophragma upper shaft.

Provide the favourable further scheme of the printer of the present invention in a preferred embodiment, carry out brief specifically below Illustrate.

In a further scheme favourable for the compensation that the axle between drive shaft and roller misplaces, form fit unit Part allows telophragma relative to first bonder half radial motion in the boundary provided in advance by backstop.In radial motion Time, telophragma relative to the first bonder half portion and is arranged on the first bonder half together with the formfitting element being disposed thereon Formfitting element sliding in portion.This sliding is perpendicular to the geometry rotation axis of described drive shaft and runs.

In a further scheme favourable for the one piece construction of backstop, described telophragma has ring, institute The inner peripheral surface stating ring has two regions being in diameter end opposite, and these regions constitute described backstop.Described ring And thus described backstop can be manufactured simply by telophragma processing on lathe or the like.

In a further scheme favourable for producing axial force component, said two formfitting element is altogether With constituting a swallow-tail form guider.Made by described swallow-tail form guider when torque is delivered to roller from drive shaft Power on the inclined contact surface of described swallow-tail form guider, be broken down into some force components.One of described force component is parallel Rotation axis in drive shaft is orientated and is devoted to move the formfitting element being allocated to telophragma to another form fit On element and thus by telophragma move in the first bonder half portion.Determine to the univocality that is thus in operation the position of telophragma Put and do not have patter patter the sound or the like noise.

One with regard to formfitting element be applied not only to transmit torque and also for radial compensation axle dislocation multi-functional should In further scheme favourable for, formfitting element is configured to groove and another formfitting element is configured to The tenon corresponding with described groove.Described groove and the described tenon being embedded in described groove on the one hand jointly constitute for by torque from driving Propeller boss that moving axis is delivered on telophragma connect and on the other hand constitute between drive shaft and telophragma diametrically The linear guide of motion.When village swallow-tail form guider, described groove is wedge groove.This wedge groove has the transversal of wedge shape Face shape, this shape of cross section attenuates outwardly.Two inwalls of described wedge groove or sidewall extend outwardly opposite to each other.

In another further scheme, described tenon and described groove are arranged on described first bonder half portion and described telophragma On.The most said tenon is arranged in described first bonder half portion and described groove is arranged on described telophragma.

Favourable entering for telophragma and the second bonder half portion are connected by other linear guide In one step scheme, described telophragma arranges an other groove.Described other groove is transverse to following linear guide Groove extend, by this linear guide by the connection of telophragma and the first bonder half.

In an other further scheme, the first bonder half portion is fixed on or shapes on the driving shaft and second Bonder half portion is fixed on or is formed on roller.When fixing corresponding bonder half portion, they are configured to tenon or lath and example As being tightened.When shaping corresponding bonder half portion, they are configured to groove or gap and are such as milled into.

Favourable entering for described roller is in the application in the glazing device or anilox inking unit of printer In one step scheme, described roller is anilox roll.

Accompanying drawing explanation

By following description of a preferred embodiment and accompanying drawing drawing in other structures and the most favourable further side Case.In accompanying drawing:

Fig. 1 is Oldham formula bonder and anilox roll, the telophragma of described bonder by swallow-tail form guider with Drive shaft persistently connects, described anilox roll be in in drive shaft decoupled state；

Fig. 2 is the side view according to the line of vision II-II be given in Fig. 1 of telophragma.

Detailed description of the invention

With Local map, the printer 1 for carrying out offset lithographic or offset lithography in page is shown in fig 1 and 2.? Roller 2 shown in this Local map and for rotating the drive shaft 3 driving described roller 2.Roller 2 is the anilox inking unit of printer 1 Anilox roll.For the sake of becoming apparent from, axle journal is only illustrated for described roller 2.Figure is shown without roller lock, described roller Lock structure For quick replacement device and allow operator people by roller 2 such as in order to cleaning purpose is taken out from printer and puts the most again Enter.

Oldham formula bonder 4 be used for making described roller 2 separate with drive shaft 3 when being taken out by roller and when roller is put into Drive shaft 3 connects.Described Oldham formula bonder 4 includes the first the 5, second bonder half portion of bonder half 6 and telophragma 7. Described first bonder half portion 5 is on the end of described drive shaft 3 and described second bonder half portion 6 is in described roller 2 Collar end on.

Telophragma 7 has the first groove 8 at it and has second at it on the side of roller 2 on the side of drive shaft 3 Groove 11.The two groove 8,11 is mutually perpendicular to and radially.First groove 8 is wedge groove and its cross section outwards attenuates.The Two grooves 11 are not wedge grooves, but substantially U-shapedly contoured groove.

First bonder half portion 5 is consisted of tenon 9, and described tenon is fixed in drive shaft 3.Described tenon 9 has the most thickening Cross section, this cross section and the cross section precise match of the first groove 8.Telophragma 7 utilizes the first groove 8 to be arranged on tenon 9, its In, described first groove 8 and described tenon 9 are collectively forming swallow-tail form guider 12.

Telophragma 7 has ring 10 and thus surrounds described drive shaft 3.On the inner peripheral surface of described ring 10 two The region that is mutually in diameter end opposite constitutes backstop, described backstop at telophragma 7 along tenon 9 (namely relative to Fig. 1 The vertical direction of drawing plane on) mobile time backstop in drive shaft 3 and be therefore prevented from telophragma 7 in radial directions from Landing on tenon 9.

Second bonder half portion 6 is and the tenon of the second groove 11 precise match, and it is screwed on the axle journal of roller 2.Described tenon (the Two bonder half portions 6) can pull out in the side of rotation axis 13 is upwardly into the second groove 11 and from this second groove.? There is a risk that when being pulled out from the second groove 11 in the second bonder half portion 6, telophragma 7 is de-from the first bonder half portion 5 Fall.Owing to the wedge-type shape of the cross section of swallow-tail form guider 12 gives prevent telophragma 7 this from coming off the most solid Set down measures.

Reference number table

1 printer

2 rollers

3 drive shafts

4 Oldham formula bonders

5 first bonder half portions

6 second bonder half portions

7 telophragmas

8 first grooves

9 tenons

10 rings

11 second grooves

12 swallow-tail form guiders

13 rotation axiss

Claims (10)

1. a printer (1), comprising:

Roller (2)；

For rotating the drive shaft (3) driving described roller (2)；With

For the bonder (4) making described roller (2) be connected alternatively with described drive shaft (3) and get loose；

Wherein, described bonder (4) has the first bonder half portion (5) and the second bonder half portion (6)；

Wherein, one in described first bonder half portion (5) and described second bonder half portion (6) is arranged on described drive shaft (3) on and described first bonder half portion (5) and another in described second bonder half portion (6) are arranged on described roller On；

It is characterized in that,

Described bonder (4) is Oldham formula bonder (4) with telophragma (7), and

Described telophragma (7) is only connected with described first bonder half portion (5) axial restraint ground,

Wherein, described axial restraint is realized by the formfitting element cooperated.

2. the printer as described in claim 1, it is characterised in that described telophragma (7) by described formfitting element with Described first bonder half portion (5) is radially movably coupled with, and wherein, radially movement is limited by backstop.

3. the printer as described in claim 2, it is characterised in that described backstop is consisted of ring (10).

4. by the printer that one of claims 1 to 3 is described, it is characterised in that described formfitting element constitutes swallow-tail form leads To device (12).

5. by the printer that one of claims 1 to 3 is described, it is characterised in that described formfitting element includes groove (8) and tenon (9)。

6. the printer as described in claim 5, it is characterised in that described groove (8) is wedge groove.

7. the printer as described in claim 5, it is characterised in that described tenon (9) is arranged on described first bonder half portion (5) Upper and described groove (8) is arranged on described telophragma (7).

8. the printer as described in claim 5, it is characterised in that described groove (8) groove (11) other with intersects, described Other groove is arranged on described telophragma (7).

9. by the printer that one of claims 1 to 3 is described, it is characterised in that described first bonder half portion (5) is arranged on institute Above and described second bonder half portion (6) is arranged on described roller (2) to state drive shaft (3).

10. by the printer that one of claims 1 to 3 is described, it is characterised in that described roller (2) is anilox roll.