DE102008056183A1 - Cleaning arrangement for belt at electrographic printing device, has cleaning element which is fitted at band, where cleaning element is arranged at end of receiving rocker - Google Patents

Abstract

The cleaning arrangement has a cleaning element which is fitted at a belt. The cleaning element is arranged at an end of a receiving rocker. A spring element is arranged at the receiving rocker, which executes spring force on the receiving rocker and the cleaning element in the direction of the belt. A damping arrangement is arranged at the receiving rocker, which dampens the vibration of the cleaning element caused by the cleaning of the belt.

Description

Electrographic printing or copying machines are known, see, for. B. WO 98/39691 A2 ( US 6,246,856 B1 ). In such a printing or copying device are charged to a charged by a charger to a charging photoconductor element, for. As a photoconductor belt or a photoconductor drum, generated by a character generator charge images of the images to be printed by discharging to a discharge potential. Subsequently, the photoconductor element is moved past developer stations, one color per color in color printing. These transport z. B. toner and carrier existing developer to the photoconductor element. According to the charge images on the photoconductor element, toner is transferred to the photoconductor element and colors it. The toner images are collected in color printing on a transfer ribbon for color image and finally transferred to a printing material and printed on this fixed. The exact course of the printing process can WO 98/39691 A2 are removed, the contents of which are hereby incorporated into the disclosure.

Such a printing device shows 1 , A photoconductor band 3 as a photoconductor element is replaced by a charging unit 2 , z. B. a corotron, charged to a charging potential. Subsequently, by a character generator 1 , z. As an LED comb, on the photoconductor belt 3 Generates charge images of the images to be printed. This is the photoconductor belt 3 discharged. Through at least one developer station 6 With a developer roller, the charge images are toned with toner into toner images. The individual toner images are z. B. on a substrate web 7 at a transfer station 8th transfer-printed. After transfer, a residual toner remains on the photoconductor belt 3 , first by a cleaning coronet 5 is then transferred to a cleaning unit 4 to be cleaned.

To remove the residual toner image from the surface of the photoconductor belt 3 can the cleaning unit 4 z. B. a cleaning brush 10 exhibit. The hair of the cleaning brush 10 are at an electrical potential whose polarity is chosen so that the charged residual toner particles deposit on their brush hairs. At this time, the toner particles are removed from the surface of the photoconductor belt by the mechanical brushing operation 3 pushed to attach themselves to the brush hair electrostatically. From a roller assembly with a cleaning roller 11 which sweeps over the toner-enriched brush hairs, the toner particles are redeposited from the brush hairs to the cleaning roller via electric fields 11 transferred and mechanically cleaned from this. By mechanically dissolving the toner particles through the brush hairs, the toner particles become over the photoconductor belt 3 pushed, with the result that finest toner components on the surface of the photoconductive belt 3 attach. This contamination grows into a film on the surface of the photoconductor belt in the course of the printing operation 3 at. This film interferes with the exposure of the surface of the photoconductor belt 3 and leads to print image relevant disorders.

To prevent film formation on the surface of the photoconductor belt 3 becomes a rubbery cleaning blade 9 on the surface of the photoconductor belt 3 arranged, which prevents the structure of this film. Deposits of minute parts are removed before growth of the film can occur.

The composition of the film consists of the smallest toner components (eg silica) with a size of a few nanometers. These small parts become very adhesive on the surface of the photoconductor belt 3 held. The electrical and mechanical forces of the brush hairs are insufficient, these particles from the surface of the photoconductor belt 3 to solve. That means the cleaning blade 9 with a correspondingly high force on the surface of the photoconductor belt 3 must be pressed to capture the particles and move.

By stretching the soft blade material (eg silicone) in the direction of belt travel and releasing the cleaning blade in the micro range 9 There is a risk that the cleaning blade 9 begins to oscillate with its holder. This problem is in 2 shown. In 2 is a cleaning blade 9 as a cleaning element at one end of a receiving rocker 12 attached at the other end to a thigh 13 a bearing block 23 on a rotation axis 15 is rotatably mounted. At the storage of the receiving rocker 12 is z. B. a torsion spring 14 arranged, which has a spring force on the receiving rocker 12 and thus on the cleaning blade 9 towards the photoconductor band 3 exercises. First, there is the cleaning blade 9 on the photoconductor belt 3 at ( 2a ). By the movement of the photoconductor belt 3 in the direction of the arrow PF1 and possibly additionally by a movement perpendicular to the direction of movement of the photoconductor belt 3 receives the cleaning blade 9 slight bumps that cause the cleaning blade 9 slightly from the photoconductor belt 3 takes off ( 2 B ). If this process is not stopped, the cleaning blade will catch 9 to swing ( 2c to 2e ) and finally reaches its resonance range. As a result, the cleaning blade 9 constantly from the surface of the photoconductor belt 3 takes off and resumes. The resonance system made of cleaning blade 9 and pickup swing 12 vibrates at the beginning with low energy energy (low energy), at the end with high energy (high energy) with a frequency up to 25 Hz. The lifting and putting on of the cleaning blade 9 from or on the photoconductor belt 3 generates load fluctuations in the drive of the photoconductive belt 3 resulting in small speed drops and the resulting speed drops of the photoconductive belt 3 to lead. As with a photoconductor band 3 Constantly writing data to the photoconductor surface as a latent charge image at a constant data rate means that the written data points are not in the place of the photoconductor belt 3 written to which they should be written.

Measures for damping vibration movements in a pressure device are z. B. off DE 698 19 623 T2 known. Here is the swing of a drum, z. B. a photoconductor drum can be prevented. For this purpose, it is proposed to arrange in the interior of the drum as an inertia element another drum, which is connected via a vibrating body with the outer drum. The vibration of the outer drum is transmitted to the inner drum via the vibrating body and damped by the moment of inertia of the inner drum.

The problem to be solved by the invention is a Specify a cleaning arrangement in which the tendency of a vibration on a belt adjacent cleaning element, in particular one Cleaning Blades, is prevented.

This Problem is solved according to the features of the claim 1 solved.

in the The invention will now be described with reference to the cleaning of a photoconductor belt explained, without the invention being limited thereto becomes. The tape could z. B. also a transfer belt at a Be a color printing device.

The Vibration tendency in a cleaning arrangement of cleaning element and pickup swing for cleaning a photoconductor belt may then be prevented if a damping arrangement on the receiving rocker is arranged, which caused the cleaning of the photoconductive belt Vibrations of the cleaning element dampens or their emergence prevented. Then, the above-mentioned problems occur in the cleaning operation not up.

further developments The invention will become apparent from the dependent claims.

at the explanation of the invention it is assumed that the cleaning element is a cleaning blade and that the receiving rocker with the Reinigungsblade between the legs of a bearing block rotatable are stored so that z. B. a photoconductor belt over the Whole width can be cleaned. For cleaning then the Pickup swung with the cleaning blade to the photoconductor belt otherwise it can be swiveled. The damping arrangement can then between receiving rocker and bearing block or a leg be arranged of the bearing block.

• – Die Dämpfungsanordnung kann als Gasdämpfer ausgeführt werden, wobei der Gasdämpfer am Lagerbock fest angeordnet ist und die Koppelstange am Dämpferkolben und der Aufnahmeschwinge drehbar gelagert ist. Als Gas kann Luft eingesetzt werden. Mit dem Gasdämpfer kann die Amplitude einer beim Betrieb des Reinigungsblades auftretenden Schwingung des aus Reinigungsblade und Aufnahmeschwinge bestehenden Masse-Federsystems reduziert werden, die Entstehung der Schwingung jedoch nicht verhindert werden. Der Grund ist darin zu sehen, dass das Gas kompressibel ist und die Lagerungen der Koppelstange ein Spiel aufweisen.
• – Die Dämpfungsanordnung kann als Flüssigkeitsdämpfer ausgeführt werden, wobei der Flüssigkeitsdämpfer am Lagerbock fest angeordnet ist und die Koppelstange am Dämpferkolben und an der Aufnahmeschwinge drehbar gelagert ist. Der Vorteil dieser Ausführungsform besteht darin, dass die Flüssigkeit, z. B. ein Öl, inkompressibel ist und die Flüssigkeit dem Entstehen der Schwingung sofort ein widerstand entgegensetzt. Problematisch ist die Lagerung der Koppelstange, die möglichst spielfrei sein muss, um die Einleitung des Schwingungsvorgangs zu verhindern.

The damping arrangement can be designed differently:
The damping arrangement can be realized as a gas damper or liquid damper. These dampers have a damper piston which is movable in a housing against a gas or a liquid and which is connected to the receiving arm by means of a coupling rod. The coupling rod is rotatably mounted both on the damper piston and on the receiving rocker.

• - The damping arrangement can be designed as a gas damper, wherein the gas damper is fixedly mounted on the bearing block and the coupling rod is rotatably mounted on the damper piston and the receiving rocker. As gas, air can be used. With the gas damper, the amplitude of an occurring during operation of the cleaning blade vibration of cleaning blade and receiving rock existing mass spring system can be reduced, the formation of the vibration can not be prevented. The reason is that the gas is compressible and the bearings of the coupling rod have a game.
• - The damping arrangement can be designed as a liquid damper, wherein the liquid damper is fixedly mounted on the bearing block and the coupling rod is rotatably mounted on the damper piston and on the receiving rocker. The advantage of this embodiment is that the liquid, for. As an oil is incompressible and the liquid immediately opposes resistance to the formation of the vibration. The problem is the storage of the coupling rod, which must be as free of play as possible to prevent the initiation of the vibration process.

• – Bei einer Ausführungsform kann das Andruckelement des Reibungsdämpfers als Scheibe ausgeführt werden, die das Reibungselement federnd an den Schenkel des Lagerbocks andrückt, wobei die Scheibe mit der Drehachse der Aufnahmeschwinge über einen Mitnehmer gekoppelt ist, derart, dass die Drehbewegung der Aufnahmeschwinge sich auf die Scheibe überträgt. Die Kopplung Mitnehmer-Scheibe weist jedoch ein Spiel auf, auf Grund dessen die nieder energetische Schwingungsbewegung nicht unterbunden werden kann. Mit dieser Ausführungsform kann jedoch die Amplitude der Schwingung begrenzt werden.
• – In einer weiteren Ausführungsform kann der Reibungsdämpfer als Andruckelement eine Blattfeder aufweisen, die das Reibungselement federnd an den Schenkel des Lager bocks andrückt, wobei die Blattfeder mit der Drehachse der Aufnahmeschwinge fest verbunden ist, derart, dass die Drehbewegung der Aufnahmeschwinge sich unmittelbar auf die Blattfeder überträgt, die der Drehbewegung folgt. Durch die direkte Kopplung der schwingenden Masse aus Aufnahmeschwinge und Reinigungsblade mit dem Reibungsdämpfer wird das Entstehen der Schwingungsbewegung schon im Ansatz verhindert. Die Schwingungsenergie kann nicht aufgebaut werden.

The damping arrangement can be designed as a friction damper with a pressure element and a friction element attached to the pressure element, wherein the pressure element is arranged on the axis of rotation of the receiving rocker and the friction element presses resiliently against the leg of the bearing block.

• - In one embodiment, the pressure element of the friction damper can be designed as a disc which presses the friction element resiliently against the leg of the bearing block, wherein the disc with the axis of rotation of the recording rocker is coupled via a driver, such that the rotational movement of the receiving rocker transmits to the disk. However, the coupling driver disc has a game, due to which the low-energy vibrational motion can not be prevented. However, with this embodiment, the amplitude of the oscillation can be limited.
• - In a further embodiment, the friction damper may have a leaf spring as a pressing element, which presses the friction element resiliently on the leg of the bearing, wherein the leaf spring is fixedly connected to the axis of rotation of the receiving rocker, such that the rotational movement of the receiving rocker directly on the leaf spring which follows the rotational movement. Due to the direct coupling of the oscillating mass of recording rocker and cleaning blade with the friction damper the emergence of the vibrational motion is prevented in the beginning. The vibration energy can not be built up.

at the last-mentioned embodiment of the friction damper is characterized by a direct and play-free coupling of the damping Frictional force with the vibration-prone spring-mass system from recording rocker and Reinigungsblade a vibration already in Prevented approach, so that no vibration movement can occur. It prevents the high-energy state of the resonance vibration is reached. This does not cause the disturbing load fluctuations in the belt drive system, z. B. the photoconductor belt drive system. Here is then prevented when writing charge images uncontrolled speed dips of the photoconductor belt occur. In addition, the friction damper is extremely simple and cost-effective. Because of the few simple ones and non-moving parts of the system is the functional safety over ensures the entire life of a printing device. Farther the friction damper is maintenance-free.

For optimal operation of the damping arrangement is the Damping force of the damper greater chosen in comparison to the force at the beginning of oscillation acts on the cleaning blade. In addition, the damping force smaller chosen compared to the spring force that the cleaning blade presses on the photoconductor belt.

Based of embodiments, shown in the figures are, the invention will be further explained.

It demonstrate

1 a detail of a printing unit with a photoconductor element with functional units arranged thereon;

2 the cleaning arrangement at different Stel settings of the cleaning blade;

3 the cleaning arrangement in the pivoted state;

4 the cleaning arrangement in the pivoted state;

5 the arrangement of a gas damper in the cleaning arrangement;

6 the arrangement of a liquid damper in the cleaning assembly;

7 the arrangement of a first embodiment of a friction damper in the cleaning assembly;

8th the arrangement of a second embodiment of a friction damper in the cleaning assembly;

9 an embodiment of the cleaning arrangement.

The 1 has already been explained above reference is made.

First, the problem to be solved by the invention on the hand of 2 further deepened. The cleaning assembly RA has the cleaning blade 9 and the pickup swing 12 on. Due to the elasticity of the cleaning blade material, for. As silicone, this is due to the frictional force between Reinigungsblade 9 and photoconductor tape 3 stretched in the fine area (toughened, 2a ). This bias is released from a certain elongation and the cleaning blade 9 relaxes abruptly. The minimal relaxation gives a small force impulse to the recording rocker 12 of the cleaning blade 9 that begins to move slightly ( 2 B ). This initial stage is still very low energetic. Depending on the mass and pressure force moves the recording rocker 12 a certain time in the opposite direction. The period with its duration and amplitude is also dependent on system cleaning blade 9 and pickup swing 12 , The mass-spring system swings up and finally oscillates at its resonance frequency ( 2c to 2e ). The vibration of the spring mass system is highly energetic and is therefore difficult to calm down again. Therefore, it is the aim of the invention, the oscillatory motion in the low-energy range not even arise. With the following embodiments, this aim is sought.

3 . 4 show the cleaning assembly RA in side view. This has the cleaning blade as a cleaning element 9 , the recording swing 12 for the cleaning blade 9 and a torsion spring 14 on which the pickup swing 12 and thus the cleaning blade 9 against the photoconductor belt 3 presses. The pickup swing 12 is at one end on the thigh 13 a bearing block on a rotation axis 15 rotatably mounted and carries at the other end of the cleaning blade 9 , The bearing block has two legs (in the 3 . 4 not shown; s. 9 ), between which the receiving rocker 12 is stored. The pickup swing 12 can therefore to the photoconductor belt 3 over its entire width due to the spring force of the torsion spring 14 be swung.

To pivot on a cam device with a cam 16 and a lever 17 used by the in 3 and 4 only the lever 17 and the cam 16 are shown, but not a drive for the cam 16 which can be of conventional construction. For pivoting the Reiniqungsanordnung RA from the tape 3 becomes the cam 16 Turned up to the cam 16 the lever 17 applies, which with the recording swing 12 connected is. When turning the cam further 16 the lever slides 17 at the cam 16 along and turn the pickup swing 12 against the spring force of the torsion spring 14 so that the cleaning blade 9 from the band 3 is lifted ( 3 ). Will the cam 16 turned further, the lever is released 17 back from the cam 16 and gives the pickup swing 12 free, the torsion spring 14 turns the pickup swing 12 and thus the cleaning blade 9 to the band 3 , so this is the band 3 creates ( 4 ).

In order to suppress the vibration process described above, a damping arrangement DA can be provided, which on the receiving rocker 12 acts such that their movement is already counteracted at the beginning of the oscillation process. In the 5 to 8th Different embodiments of such a damping arrangement DA are shown.

at 5 is a damping device DA1 a gas damper 19 used, in which a damper piston 20 in a housing 18 against a damper gas 22 can be moved and the via a coupling rod 21 with the pickup swing 12 is coupled. As gas, air can be used. The gas damper 19 is on the bearing block 23 attached and has a valve 24 on to the pressure in the gas damper 19 to be able to adjust. The coupling rod 21 is at one end to the receiving rocker 12 rotatably arranged between its storage on the axis of rotation 15 and the recording for the cleaning blade 9 , At the other end is the coupling rod 21 on the damper piston 20 rotatably mounted. If at beginning of oscillation the recording rocker 12 As it raises, this movement becomes on the connecting rod 21 transferred, this moves the damper piston 20 against the damper gas 22 in the gas damper 19 and pushes the gas 22 together. This will cause the movement of the pickup rocker twelve and thus the cleaning blade 9 counteracted.

With the gas damper 19 If the amplitude of the oscillation occurring can be reduced, however, the generation of the oscillation can not be prevented, since at the onset of the oscillation process of the oscillation movement no resistance was set against. The reason is that the gas must first be compressed before the damping effect occurs and also the bearings of the coupling rod 21 have a game.

Another embodiment of a damping arrangement DA2 results from 6 , Here is a damper as a liquid damper 25 , z. As an oil damper used. The structure has a housing 29 for a damper piston 26 on, in which the damper fluid 27 , z. As oil is arranged. The damper piston 26 is with a coupling rod 28 with the pickup swing 12 connected, wherein the coupling rod 28 rotatable on the damper piston 26 and the pickup swing 12 is stored. The storage of the coupling rod 28 on the pickup swing 12 lies between their storage on the axis of rotation 15 and the attachment of the cleaning blade 9 , If the cleaning blade 9 and thus the recording rocker 12 begins to swing, this movement is via the coupling rod 28 on the damper piston 26 transfer. The damper piston 26 tries the damper fluid 27 to squeeze together. As a result, the vibration is set against resistance already at the onset of the oscillation process because of the incompressibility of the liquid and prevents the oscillation movement. A problem with this embodiment of the damping arrangement DA2 is the bearing of the coupling rod 28 , which must be carried out without play, otherwise would use the oscillatory motion.

7 shows a further embodiment of the invention. Here, as a damping arrangement DA3 is a friction damper 30 . 31 used. 7a represents the front view, 7b the side view of the friction damper 30 . 31 along with the pickup swing 12 and the cleaning blade 9 dar. The friction damper 30 . 31 is doing on the of the receiving rocker 12 opposite side of the thigh 13 , So the outside, the bearing block arranged. The friction damper 30 . 31 has a friction element 31 on, z. B. a felt material passing through a disc-shaped pressure element 30 to the thigh 13 is pressed. This is a compression spring 32 inserted, which is a spring force towards the thigh 13 on the pressure element 30 and the friction element 31 exercises. The spring force can be adjusted by the compression spring 32 is compressed accordingly. The coupling of the friction damper 30 . 31 with the pickup swing 12 is made by the pressure element 30 about a driver 33 with the rotation axis 15 the pickup swing 12 connected is. A problem with this embodiment of the damping arrangement DA3 is the use of the driver 33 , There is a game 36 between the driver 33 that with the rotation axis 15 the pickup swing 12 is firmly connected, and the pressure element 30 with the result that a low-energy vibrational motion can be initiated. This can cause a high-energy oscillation to swell.

Another embodiment of the invention shows 8th , Here, another embodiment DA4 of a friction damper is shown, showing 8a the cleaning arrangement RA in front view, 8b the cleaning assembly RA in side view and 8c the cleaning assembly RA in rear view. The friction damper 34 . 35 is again on the outside of the thigh 13 on the axis of rotation 15 the pickup swing 12 arranged and that he is with the axis of rotation 15 firmly connected. The friction damper 34 . 35 has a spring element 34 on, which may be designed as a leaf spring, and a friction element 35 on. The spring element 34 exerts a spring force on the friction element 35 towards the thigh 13 out. When the pickup swing 12 and the cleaning blade 9 are moved, this movement transmits directly to the spring element 34 that is the friction element 35 on the thigh 13 rotated accordingly and generates a friction torque, which is the torque of the receiving rocker 12 counteracts. Because the pickup swing 12 and the cleaning blade 9 directly with the friction damper 34 . 35 are coupled, a vibrational motion is prevented in the beginning. Thus, the vibrational motion in the low-energy range does not even arise.

8a shows again the cleaning assembly RA from receiving rocker 12 and cleaning blade 9 in which the recording rocker 12 with the rotation axis 15 on the thigh 13 is stored. The cleaning blade 9 lies on the tape 3 on. Out 8b The result is the side view of the cleaning assembly RA together with the friction damper 34 . 35 , The spring element 34 is on the axis of rotation 15 attached so that the spring element 34 with the rotation axis 15 turns when the pickup swing 12 is turned. 8c shows the front of the friction damper 34 ,

The force relationships in the cleaning assembly RA and the friction damper 34 . 35 when the pickup swing 12 want to turn, are the following:
The friction force F _friction effect generated during oscillation starting force F _{vibration starting} against and prevent the oscillating movement in the bud. requirement is, that F friction > F vibration beginning is set. The required force F _friction is chosen so that the still low-energy force pulse no movement of the receiving rocker 12 can trigger.

• – Der Widerstand gegen die Schwingungsbewegung ist immer vorhanden. Eine Schwingung kann dadurch nicht entstehen.
• – Die Kopplung des Reibungsdämpfers 34, 35 zum schwingenden Element 12 ist absolut spielfrei.
• – Der konstruktive Aufbau kann sehr einfach gehalten werden und ist damit extrem kostengünstig und wartungsfrei.

The function of the friction damper 34 . 35 is the following:
The torsion spring 14 creates a moment on the pickup swing 12 for the cleaning blade 9 that the cleaning blade 9 to the photoconductor band 3 suppressed. The torsion spring 14 is preloaded so far that a defined moment arises that the cleaning blade 9 , arranged in the pickup swing 12 , with a defined force against the photoconductor belt 3 suppressed. This force is matched to the surface properties of the photoconductor belt 3 , on the material of the cleaning blade 9 and on the components of the disturbing materials that are on the photoconductor belt 3 want to deposit. The torque that the torsion spring 14 generated is higher than the friction torque of the friction damper 34 . 35 , Acts the force pulse caused by the relaxation of the cleaning blade material on the receiving rocker 12 , so this wants to move. Contrary to this movement now acts the friction force of the friction damper 34 . 35 , The friction force of the friction damper 34 . 35 is chosen so that the still low energetic force pulse no movement of the recording rocker 12 can trigger. This has this friction damper 34 . 35 the following advantages:

• - The resistance to the vibration movement is always present. An oscillation can not arise thereby.
• - The coupling of the friction damper 34 . 35 to the vibrating element 12 is absolutely free of play.
• - The structural design can be kept very simple and is therefore extremely inexpensive and maintenance-free.

Instead of a friction damper 34 to 8th a corresponding friction damper can be realized in that instead of a designed as a ball bearing pivot bearing 15 to 8th , a friction bearing with defined friction can be provided. Then, the friction for the rotation axis can be adjusted so that vibration excitation for the cleaning blade is suppressed.

9 shows the cleaning assembly RA when using the damping arrangement DA4 in the side view ( 9a ) and the front view ( 9b ). The on the photoconductor band 3 Overlying cleaning blade 9 is at the pickup swing 12 attached to the axis of rotation 15 is stored. The rotation axis 15 is in the thighs 13 of the bearing block 23 stored. At the axis of rotation 15 is the torsion spring 14 on one side of a thigh 13.1 attached, which has a spring force on the receiving rocker 12 exercises. The pivoting or swiveling takes place via the cam 16 that by a cam motor 37 is driven. The operation of the cam device is in 3 and 4 described. At the axis of rotation 15 is on the other leg 13.2 the damper assembly DA4 attached ( 8th ) and the leaf spring 34 that the spring element 35 to the thigh 13 invests. For the function of the damper assembly DA4 and the cam device is to the explanations to 3 . 4 and 8th directed.

RA

cleaning arrangement

THERE

damper arrangement

1

character generator

2

Charger

3

Photoconductor belt

4

cleaning unit

5

Reinigungskorotron

6

developer station

7

printing material

8th

transfer station

9

Cleaning element = Cleaning Blade

10

cleaning brush

11

cleaning roller

12

recording rocker

13

leg of the bearing block

14

torsion spring

15

axis of rotation

16

cam

17

lever

18

casing

19

gas damper

20

damper piston

21

coupling rod

22

damper gas

23

bearing block

24

Valve

25

liquid damper

26

damper piston

27

damping fluid

28

coupling rod

29

casing

30

Friction damper pressure unit

31

Friction damper friction element

32

compression spring

33

takeaway

34

Friction damper spring element

35

Friction damper friction element

36

game between driver and pressure element

37

cam engine

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• WO 98/39691 A2 [0001, 0001]
• - US 6246856 B1 [0001]
• - DE 69819623 T2 [0007]

Claims (16)

Cleaning arrangement for a band in an electrographic printing apparatus, - in which one on the band ( 3 ) adjacent cleaning element ( 9 ) is provided, which at one end of a receiving rocker ( 12 ) arranged at one end in thighs ( 13 ) of a bearing block ( 23 ) arranged rotational axis ( 15 ) is rotatably mounted, - in which at the receiving rocker ( 12 ) a spring element ( 14 ) is arranged, which has a spring force on the receiving rocker ( 12 ) and the cleaning element ( 9 ) towards the band ( 3 ), - in which at the receiving rocker ( 12 ) a damping arrangement (DA) is arranged, which in the cleaning of the tape ( 3 ) caused vibrations of the cleaning element ( 9 ) dampens. Cleaning arrangement according to claim 1, wherein the spring element ( 14 ) as torsion spring ( 14 ) is formed, which at the axis of rotation ( 15 ) of the recording rocker ( 12 ) is arranged. Cleaning arrangement according to claim 1 or 2, wherein the damping arrangement (DA) between the receiving rocker ( 12 ) and a thigh ( 13 ) or the bearing block ( 23 ) is arranged. Cleaning arrangement according to one of claims 1 to 3, wherein the damping arrangement (DA1) as a gas damper ( 19 ) with one in a housing ( 18 ) arranged with gas damper pistons ( 20 ) and a coupling rod ( 21 ) is carried out, wherein the gas damper ( 19 ) on the bearing block ( 23 ) is fixed and the coupling rod ( 21 ) on the damper piston ( 20 ) and the receiving rocker ( 12 ) is rotatably mounted. Cleaning arrangement according to one of claims 1 to 3, wherein the damping arrangement (DA2) as a liquid damper ( 25 ) with one in a housing ( 29 ) with liquid arranged damper pistons ( 26 ) and a coupling rod ( 28 ) is carried out, wherein the liquid damper ( 25 ) on the bearing block ( 23 ) is fixed and the coupling rod ( 28 ) on the damper piston ( 26 ) and the receiving rocker ( 12 ) is rotatably mounted. Cleaning arrangement according to claim 4 or 5, wherein the coupling rod ( 21 . 26 ) between the axis of rotation ( 15 ) of the recording rocker ( 12 ) and the attachment of the cleaning element ( 9 ) on the receiving rocker ( 12 ) is stored. Cleaning arrangement according to one of claims 1 to 3, wherein the damping arrangement (DA3, DA4) is designed as a friction damper, wherein the friction damper at the axis of rotation ( 15 ) of the recording rocker ( 12 ) is arranged and on a leg ( 13 ) of the bearing block ( 23 ) is resiliently applied. Cleaning assembly according to claim 7, wherein the friction damper comprises a spring element and a friction element connected to the spring element, wherein the spring element, the friction element to the leg ( 13 ). Cleaning arrangement according to claim 8, in which the friction damper ( 30 . 31 ) a pressure element ( 30 ) having the friction element ( 31 ) resiliently to the leg ( 13 ), wherein the pressure element ( 30 ) on the axis of rotation ( 15 ) of the recording rocker ( 12 ) via a driver ( 339 is arranged such that the rotational movement of the receiving rocker ( 12 ) on the pressure element ( 30 ) transmits. Cleaning arrangement according to claim 8, in which the friction damper ( 34 . 35 ) a leaf spring ( 34 ) having the friction element ( 35 ) resiliently to the leg ( 13 ) of the bearing block ( 23 ), wherein the leaf spring ( 34 ) with the axis of rotation ( 15 ) of the recording rocker ( 12 ) is firmly connected, such that the rotational movement of the receiving rocker ( 12 ) directly on the leaf spring ( 34 ) transmits. Cleaning arrangement according to claim 8, wherein the friction damper as a friction bearing of the axis of rotation ( 15 ) is executed with set friction. Cleaning arrangement according to one of the preceding claims, wherein the damping force of the damper assembly (DA) is selected to be greater compared to the force at the start of oscillation on the cleaning element ( 9 ) acts. Cleaning arrangement according to one of the preceding claims, wherein the damping force of the damper assembly (DA) is chosen smaller compared to the spring force of the torsion spring ( 14 ), which the cleaning element ( 9 ) to the tape ( 3 ). Cleaning arrangement according to one of the preceding claims, in which the cleaning element ( 9 ) and the recording rocker ( 12 ) across the width of the tape ( 3 ) and between thighs ( 13 ) of the bearing block ( 23 ) are arranged and the damping arrangement (DA) at least on the outside of a leg ( 13 ) is arranged. Cleaning arrangement according to one of the preceding claims, in which the cleaning element ( 9 ) is a cleaning blade, which in the direction of movement of the tape ( 3 ) is aligned. Cleaning arrangement according to one of the preceding claims, in which the band ( 3 ) one Photoconductor belt is.