CN103381696A - Printing machine with coupling unit for roller - Google Patents

Abstract

A printing machine (1) has a roller (2), a drive shaft (3) rotatably driving the roller (2), and a coupling unit (4) optionally connecting and disconnecting the roller (2) with and from the shaft (3). The coupling unit (4) has two coupling halves (5, 6), where one of the halves (5, 6) is arranged at the drive shaft (3) and the other half is arranged at the roller. The coupling unit (4) is formed as an Oldham coupling unit (4) with an intermediate washer (7), which is axial-fixedly connected with the former half (5) such that an axial locking is produced by interlocking closure elements (8, 9).

Description

Has the printing machine for the coupler of roller

Technical field

The present invention relates to a kind of printing machine as described in the preamble in claim 1.

Background technology

At US7, the printing machine with anilox roll has been described in 389,728B2.Anilox roll can be taken out from the roller lock by operating personnel.

A kind of anilox roll that can take out from the roller lock has also been described in DE 10 2,009 057 974 A1.At this, the blade tooth coupler allows anilox roll get loose with driving shaft and be connected.

The shortcoming of described blade tooth coupler is, sidewall can occur alternately in this blade tooth coupler when anilox roll and driving shaft have the axle dislocation.Described sidewall alternately can cause damaging the vibration of printing quality in machine.

Summary of the invention

Therefore task of the present invention is, a kind of printing machine with coupler (or clutch) is provided, and it does not damage printing quality.

The printing machine of the feature of described task by having claim 1 solves.Printing machine of the present invention comprises: roller; The driving shaft and the coupler that is used to make described roller and described driving shaft be connected alternatively and get loose that are used for the described roller of rotary actuation; Wherein, described coupler has the first coupler half one and the second coupler half one; Wherein, in described two coupler half ones be arranged on described driving shaft and described two coupler half ones in another be arranged on described roller.In printing machine of the present invention, described coupler is to have the Oldham formula coupler of telophragma and described telophragma only to be connected with described the first coupler half axial restraint ground, and wherein, described axial restraint is realized by the form fit element that cooperatively interacts.

That is to say, in printing machine of the present invention, coupler is configured to the cross recess coupler.This Oldham formula coupler cross recess coupler in other words is the compensation coupler that misplaces for compensating shaft.Because the axle dislocation is compensated, the vibration that sidewall therefore do not occur alternately in coupler and do not occur causing thus, this vibration will damage print result.

Described telophragma only is connected like this with the first coupler half one, makes this telophragma can not come off from the first coupler half one on the direction of rotation axis of roller.Form fit element is positioned in the first coupler half one and another form fit element is positioned on telophragma.A form fit element prevents that another form fit element from moving on the direction of rotation axis of roller, provide thus axial restraint (or axial relief) measure.With the first coupler half one by contrast, the second coupler half one can axially pull out from the telophragma and do not have axial restraint between telophragma and the second coupler half one.

Provide in the dependent claims the favourable further scheme of printing machine of the present invention, the below briefly sets forth particularly.

In a further scheme favourable with regard to the compensation of the dislocation of the axle between driving shaft and roller, the form fit element allows telophragma with respect to the radially motion in the boundary that provides in advance by backstop of the first coupler half.When radial motion, telophragma together with form fit elements relative disposed thereon in the first coupler half one be arranged on form fit element slippage in the first coupler half one.This slippage is perpendicular to how much rotation operations of described driving shaft.

In a further scheme favourable with regard to the single type structure of backstop, described telophragma has ring, and the inner peripheral surface of described ring has two zones that are on the diameter end opposite, and these zones consist of described backstop.Thereby described ring and described backstop can by telophragma lathe or like that on processing make simply.

In a further scheme favourable with regard to producing axial force component, swallow-tail form guider of the common formation of described two form fit elements.Power by the effect of described swallow-tail form guider when being delivered to roller on from driving shaft torque is broken down into some force components at the inclined contact surface of described swallow-tail form guider.One of described force component is parallel to the rotation orientation of driving shaft and is devoted to move another form fit element on to the form fit element of telophragma configuration and thus telophragma is moved in the first coupler half one.Determined to the univocality that is in operation thus the position of telophragma and patter patter the sound or noise like that can not occur.

Not only be used for transmitting torque at one with regard to the form fit element but also be used for favourable further scheme with regard to the multifunctional application of radial compensation axle dislocation, form fit element is configured to groove and another form fit element is configured to the tenon corresponding with described groove.Described groove and the described tenon that is embedded in described groove jointly are configured on the one hand torque is delivered to from driving shaft the linear guide that propeller boss on telophragma connects and be configured on the other hand the radially relative motion between driving shaft and telophragma.Described groove is the wedge groove when the swallow-tail form guider of village.This wedge groove has the shape of cross section of wedge shape, and this shape of cross section attenuates outwardly.Two inwalls or the sidewall of described wedge groove extend outwardly opposite to each other.

In another further scheme, described tenon and described groove are arranged on described the first coupler half one and described telophragma.Preferred said tenon is arranged in described the first coupler half one and described groove is arranged on described telophragma.

With regard to being connected by other linear guide, the second coupler half one in favourable further scheme, an other groove is set with regard to telophragma at one on described telophragma.Described other groove extends transverse to the groove of following linear guide, by this linear guide, telophragma is connected with the first coupler half one.

In an other further scheme, the first coupler half one is fixed on or is formed on driving shaft and the second coupler half one is fixed on or is formed on roller.They are configured to tenon or lath and are for example screwed when fixing corresponding coupler half.They are configured to groove or gap and for example are milled into when being shaped corresponding coupler half.

One with regard to described roller with regard to the glazing device of printing machine or the application in anilox inking unit in favourable further scheme, described roller is anilox roll.

Description of drawings

By draw in following description of a preferred embodiment and accompanying drawing on other structures and function on favourable further scheme.In accompanying drawing:

Fig. 1 is Oldham formula coupler and anilox roll, and the telophragma of described coupler is connected with driving shaft lastingly by the swallow-tail form guider, described anilox roll be in driving shaft decoupling zero state in;

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

The specific embodiment

Illustrate for the printing machine 1 that carries out offset lithographic or offset lithography on page with Local map in Fig. 1 and 2.At roller 2 shown in this Local map be used for the driving shaft 3 of the described roller 2 of rotary actuation.Roller 2 is anilox roll of the anilox inking unit of printing machine 1.For the purpose of clearer, for described roller 2, axle journal only is shown.The roller lock is not shown in figure, and described roller Lock structure is quick replacement device and allows operator people that roller 2 is for example taken out from printing machine and and then puts into for cleaning purpose.

Oldham formula coupler 4 is used for making described roller 2 separate with driving shaft 3 when roller is taken out and be connected with driving shaft 3 when roller is put into.Described Oldham formula coupler 4 comprises the first coupler half one 5, the second coupler half one 6 and telophragma 7.Described the first coupler half one 5 is on the end of described driving shaft 3 and described the second coupler half one 6 is on the axle journal end of described roller 2.

Telophragma 7 has the first groove 8 and has the second groove 11 at it on the side of roller 2 on the side of driving shaft 3 at it.These two grooves 8,11 vertically and radially extend mutually.The first groove 8 is that wedge groove and its cross section outwards attenuate.The second groove 11 is not the wedge groove, but the contoured groove in U-shaped ground basically.

The first coupler half one 5 consists of by tenon 9, and described tenon is fixed on driving shaft 3.Described tenon 9 has the cross section of thickening outwardly, and this cross section accurately coordinates with the cross section of the first groove 8.Telophragma 7 utilizes the first groove 8 to be arranged on tenon 9, wherein, and the common swallow-tail form guider 12 that forms of described the first groove 8 and described tenon 9.

Thereby telophragma 7 has ring 10 and surrounds described driving shaft 3.The zones that on the inner peripheral surface of described ring 10 two are on the diameter end opposite mutually consist of backstops, described backstop telophragma 7 along tenon 9(namely on the direction vertical with respect to the figure paper plane of Fig. 1) when mobile backstop on driving shaft 3 and prevent that thus telophragma 7 is in landing from the tenon 9 in the radial direction.

The tenon that the second coupler half one 6 is and the second groove 11 accurately coordinates, it is screwed on the axle journal of roller 2.Described tenon (second coupler half one 6) can be pushed on the direction of rotation 13 in the second groove 11 and from this second groove and pull out.The danger that exists when the second coupler half one 6 is pulled out from the second groove 11 is, telophragma 7 comes off from the first coupler half one 5.Because the wedge-type shape of the cross section of swallow-tail form guider 12 has provided this axial restraint measure that comes off that prevents telophragma 7.

The reference number table

1 printing machine

2 rollers

3 driving shafts

4 Oldham formula couplers

5 first coupler half ones

6 second coupler half ones

7 telophragmas

8 first grooves

9 tenons

10 rings

11 second grooves

12 swallow-tail form guiders

13 rotations

Claims (10)

1. a printing machine (1), it comprises:

Roller (2);

The driving shaft (3) that is used for the described roller of rotary actuation (2); With

For the coupler (4) that makes described roller (2) be connected alternatively and get loose with described driving shaft (3);

Wherein, described coupler (4) has the first coupler half one (5) and the second coupler half one (6);

Wherein, in described two coupler half ones (5,6) is arranged on another in described driving shaft (3) upper and described two coupler half ones (5,6) and is arranged on described roller;

It is characterized in that,

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

Described telophragma (7) only is connected with described the first coupler half one (5) axial restraint ground,

Wherein, described axial restraint is realized by the form fit element (8,9) that cooperatively interacts.

2. by printing machine claimed in claim 1, it is characterized in that, described telophragma (7) radially is connected with described the first coupler half one (5) movingly by described form fit element (8,9), and wherein, radially movement limits by backstop.

3. by printing machine claimed in claim 2, it is characterized in that, described backstop consists of by ring (10).

4. by one of claims 1 to 3 described printing machine, it is characterized in that, described form fit element (8,9) consists of swallow-tail form guider (12).

5. by one of claim 1 to 4 described printing machine, it is characterized in that, described form fit element comprises groove (8) and tenon (9).

6. by printing machine claimed in claim 5, it is characterized in that, described groove (8) is the wedge groove.

7. by the described printing machine of claim 5 or 6, it is characterized in that, described tenon (9) is arranged on described the first coupler half one (5) upward and described groove (8) is arranged on described telophragma (7).

8. by the described printing machine of one of claim 5 to 7, it is characterized in that, described groove (8) intersects with an other groove (11), and described other groove is arranged on described telophragma (7).

9. by one of claim 1 to 8 described printing machine, it is characterized in that, described the first coupler half one (5) is arranged on described driving shaft (3) upward and described the second coupler half one (6) is arranged on described roller (2).

10. by one of claim 1 to 9 described printing machine, it is characterized in that, described roller (2) is anilox roll.

Images