DE2365764B2 - Working method of an electrophotographic device in which the recording material is cleaned and device for carrying out the working method - Google Patents

Description

The invention relates to a working method of an electrophotographic apparatus according to the preamble of claim I and an electrophotographic device for performing the working method.

In known working methods of this type it has been found that the recording material when Cleaning after image transfer cannot be completely cleaned. The one after the Image transfer, the amount of toner that remains on the recording material is reduced by the subsequent cleaning reduced, but not completely removed. So it always remains a thin layer Developer liquid, which contains toner particles, is returned to the recording material. This is because the toner particles in the wet winder have a much smaller diameter than the toner particles, which are used for dry development where cleaning is less of a problem. the The thin developer layer that remains inevitably on the recording material is per se for the The next copying process is not harmful if it is carried out immediately afterwards. When the device However, if it remains unused for a long period of time, the carrier liquid evaporates, leaving the toner particles on the Adhere recording material firmly. Such toner adhering to the recording material deteriorates however, the quality of at least the first copy made after the break is quite considerable. this applies also for the mixture of toner and carrier liquid, that at the moment of the shutdown of the recording material is present in the cleaning zone. In addition, copy quality may also decrease as a result of

ίο soiling of the recording material surface, which can occur when the device is not used for a long period of time due to dust or the like will.

The invention is based on the object of creating a working method according to the preamble of claim 1, in which the inadequate cleaning effect of the usual cleaning devices does not lead to a reduction in the quality of the copies.
According to the invention, this object is achieved with the im

? n characterizing part of the claim! specified Features solved.

By rotating the recording material according to the invention by at least one revolution and the wet cleaning becomes the entire surface of the drum prior to the start of charge imaging cleaned. The Vorte'H of this preparatory turning of the recording material and the wet cleaning is less that the amount of the on the recording material remaining toner is further reduced, but in particular that the binding of the individual toner particles to the recording material is dissolved by the wet cleaning, so that the Toner particles can not affect the next process steps and from the first

J5 produced copy to an excellent copy quality is achieved. So it is practically the state that is established between the individual copy cycles results in the production of a plurality of copies in direct succession. In this way there is no need for any attempt to develop complex cleaning devices that are as complete as possible Allow cleaning of the recording material after image transfer.

In DE-OS 15 22 620 is a method for Cleaning of an electrophotographic recording drum described in which the recording drum is immersed in developer liquid and is there in contact with a rotating brush. Self when doing a very thorough cleaning

If the recording material surface succeeds, the Toner-containing developer fluid on the areas of the drawing material emerging from the developer fluid bath on, so that the toner contained therein after a prolonged standstill of the drum on Recording material sticks and the quality of the first copy made after the standstill impaired.

A special cleaning liquid for performing wet cleaning is advantageously unnecessary because that the contact zone between cleaning device and recording material for the purpose of Wet cleaning developer liquid is supplied. This is expedient on the recording material along to the development facility.

ίί To avoid damage to the cleaning device or of the recording material through in the contact zone between the cleaning device and the recording material to avoid dried-on toner

the, in a further development of the invention after switching on the device is first developer liquid fed to the contact zone and then rotated the recording material.

An electrophotographic device for implementation the working method according to the invention is the subject of sub-claim 5.

The invention is explained below with reference to the description of the construction and the method of operation of a Electrophotographic copier explained in more detail with reference to the drawing.

Fig. 1 shows a perspective view of a copier.

Fig. 2 is a view of the longitudinally sectioned device of Fig. S.

F i g. 3 shows the circuit diagram of the power supply system of the copier.

F i g. 4 shows the circuit diagram of a timer.

Fig.5 shows a circuit for driving and for Control of an original carrier.

Fig.6 shows a circuit for the drive: .nd for Control of a sheet original.

F i g. 7 is a control circuit for paper feed.

Fig. 8 shows the arrangement of microswitches the photosensitive drum.

F i g. 9 is a timing diagram.

The copier described below uses wet development and image transfer and is Can be used either for copying sheet originals or thick originals such as books.

According to FIG. 1, on an apparatus body 101, there are a sheet original feeder 102 and an original carrier 2, on which a thick original (hereinafter referred to as the "book original") is placed, with an original holding cover 2 | on the original carrier, 15 2 is arranged. Fig. 2 shows guide rails 103 ,, 1032 for the original carrier, a cassette 20 for the Accommodation of copy paper 21. an ejection table 32 on which the from the device after the Kopicr / Cycle Ejected finished copies arrive, a main switch 104, a group of warning lamps 105i to IO54, a button! 06 for selecting the number of copies Copy button 107 in the center of button 106, a Haltcknopf 108 to turn off the continuous Copying and a disc 109 provided for controlling the brightness.

The mode of operation of this copier will first be described with reference to FIG. 2 with regard to sheet originals and 32 of the sheet original feeder 102 rotating in synchronism with a constantly rotating drum 1, the sheet original is fed to the left as shown in FIG. When the outer end of the original is detected by a control lamp 5 and a photo element 38, the first feed rollers 3 | stop and 3 ₂ immediately, which also stops the original. When the drum I then reaches the required position and an original start signal is transmitted, the first conveyor rollers 3 | begin and 3? to rotate again and the original is transported to the left synchronously with the drum I and with the help of second flat original conveyor rollers 4, and 4? led out of the device. μ move during this time; 1, the original passes above an original disc 40 and is illuminated from below with the aid of two lamps 6.

By means of a mirror 7 and a mirror lens S, an image of the Originals thrown onto drum 1.

The drum 1, which is a recording material with one of a transparent insulating cover layer covered photoconductive layer, always rotates clockwise, as in F i g. 2 shown. The recording material is first positively charged by a primary charger 9. When the drum then the Reaching exposure device 41, it is slit exposed with an image of the original and you at the same time an AC charge is supplied by an AC charger 10. With the help of a subsequently taking place overall exposure by an overall exposure lamp 12 occurs on the recording material an electrostatic latent element entering a development station 42.

The development station 42 has a tank 14 for developer liquid 43, a pump 4 / for stirring and conveying the development liquid and a development electrode 13 which is always pressed against the drum 1 by means of a spring 45, with a fine gap is maintained between the electrode and the drum. The electrostatic latent image formed on the drum 1 is developed by the toner in the developing liquid 43 pumped onto the developing electrode 13. Then the negative charge of a corona charger 15 squeezes excess developer liquid from the drum 1 without affecting the image. Subsequently, the image receiving material in the form of copy paper 21 transported by the paper feed device is brought close to the drum 1 and the toner image is transferred from the recording material to the copy paper 21 with the aid of the positive charge of a transfer charger 16.

The copy paper 21 provided with the image is peeled off from the drum 1 with the aid of a separating tape 25 and transferred through a drying and fixing device 46. in order then to the discharge table 32 to be carried out. Remaining toner and developing liquid are marked with edges 17i and IBi cleaning apron 17 and a cleaning sheet 18 wiped off the drum so that the drum is ready for a next cycle. The ones by the cleaners 17 and 18 removed developer liquid is via a circumferential groove Ii at both ends of the Drum 1 is returned to the development station 42 and is used for further development.

The copy paper 21 is accommodated in the cassette 20 and is pressed up there under the action of a spring 48. When the drum 1 reaches a predetermined position, a signal is generated, in response to which the usually rotating paper feed roller 22 is moved downward and brought into contact with the copy paper in the uppermost portion of the cassette 20. The top piece of copy paper 21 is separated by the rotation of the paper feed roller 22 and the action of separating pawls 49 and, as in FIG. 2, transported in the direction to the right. However, immediately after the paper feed roller 22 has been moved downward, control rollers 23 and 23 _{2 located} in the vicinity stop: o That the sheet of copy paper 21 fed out of the cassette 70 lies _{loosely between paper guides 35 and 35 2} that the outer edge of the paper against the crack of the rolling waltz. 23i and 23: 2 thrusts. The drum 1

immediately thereafter transmits a signal to start the paper feed, whereupon the control rollers 23i and 232 begin to rotate and the copy paper 21 with at a speed equal to that of the surface of the drum 1. On the other hand i the downwardly moved paper feed roller 22 moves again after the lapse of a predetermined time upwards and detaches itself from the copy paper 21. after which the paper feeder from the paper feeder which is provided behind the control rollers 23i and 232.

The following describes the operation in the case of a book original. The changeover from a sheet original to a book original takes place by turning a changeover button 110 at the extreme end of the original carrier and then moving the original carrier appropriately to the left, as shown in FIG. 2 is shown. By making the master carrier is transferred to 2 in this manner from the sheet original position to the original point position, the current supply is interrupted »feeding means 102 for the sheet original 2, so that all the circuits are switched to the copying of the book original.

The book original to be copied is placed on the glass pane 55 of the original support and there from _ >> the hall cover 2 | held. When the copy button 107 is depressed, the original carrier 2 is moved to the left as shown in Fig. 2 by an original start signal in synchronism with the peripheral speed of the drum 1 in a manner similar to that of the sheet original for the slit exposure. In the middle of the path, the original carrier 2 generates a paper feed start signal for the continuation of the paper feed in synchronism with the exposure. At the end of the exposure, the original carrier 2 stops moving to the left. by indicating its position and immediately returning in the opposite direction, ie to the right. This reverse speed is higher than that of the opposite direction, so that the copying performance can be increased. When the original carrier has returned to the starting position for the book original. he stops.

Except for the operation described above, there is agreement with the case of a Sheet originals. * ■>

The following describes the general start preparations to be made before the copy operation, the final conditions after the operation has ended, and the restart procedure. As described above, this copier has a wet developing system in which toner is fixed in the developing liquid by evaporation of the carrier liquid. Further, since the toner or developing liquid remaining on the drum 1 after transfer is removed by cleaners 17 and 18, a small amount of toner is always accumulated near the edges 17i and I81 of each cleaner. If the device is stopped and left in this state, the carrier liquid evaporates at the edges 17 | and I81 and the toner solidifies. If the drum 1 is rotated again under these conditions, the edges 17 and the cleaner and the surface of the drum 1 will be damaged or the image will be adversely affected. Therefore, the drum 1 is not set in rotation even when the main switch 104 is switched on, but only the pump 44 of the development station 42 runs. Simultaneously with the stirring of the developer liquid 43, it is pressed upwards and reaches the liquid supply line 56 in order to pour itself into the cleaner 18 in this way. After a predetermined time has elapsed, the toner softens at the edges 17 _t and I81 and the drum I begins to rotate, the softened toner being stripped off. After at least half a revolution of the drum, the sheet original feed rollers 3 | start and 3 _{to rotate 2} in the sheet original feeder 102 to initiate the copy operation.

On the other hand, if the power supply is left on after the entire copying operation has been completed, the life of the drum 1 and the cleaners 17 and 18 will be adversely affected by the continued rotation of the drum 1. The copier is therefore designed so that in the event that copying is not restarted after a predetermined time has elapsed after a certain copying operation has been completed, the drum 1 is automatically stopped to enter the sleep mode even if the main switch 104 is turned on remain. This period of time is set to be longer than the time required to take the last copy out of the device and to clean the entire surface of the drum 1

The drum 1 is stopped in such a position that a seam of the recording material, ie a portion where no image occurs, comes to rest at the edge I81 of the cleaner 18 in order to prevent the image from being adversely affected by solidified toner . Moreover, before the drum 1 is stopped, all charges are erased so that the drum can be stopped without any charge remaining thereon by exposing its entire surface to an AC corona discharge.

In addition, the machine is stopped during the halt state when the copy button 107, which also serves as a restart button, is depressed. returned to the state before the stop.

The following describes the principle of the electrical circuit. The electrical circuit includes a power supply system with 100 V AC voltage, which is shown in FIG. 3 is shown.

1. Energy supply (Fig. 3)

If the device is in the normal operating state when the door switches MSD \ and MSLh and the main switch SW (104) (the reference numerals in brackets indicate an existing relationship to the device description), the device is supplied with power to a 100 V -To put an AC voltage circuit and a DC circuit (24 V DC) into operation.

2. AC voltage circuit (Fig. 3) and timer circuit (Fig. 4)

At the same time when the main switch SW (104) is turned on, the heaters H \ and Hi in the drying and fixing device 46 are activated (MS6A and 65 are switches which open when jamming of the copy paper is indicated and during remain closed during normal operation). A motor M 2 of the pump 44 in the development station 42 and cooling fans FM 1 and FM 2 go into operation. A capacitor C 16 is suddenly charged via a resistor R 41, a diode D 15 and a resistor R 43 (the value of Λ 41 + R 43 is low) and

at the same time time transistors Q 17 and Q 18 are biased via a resistor /? 45, so that they switch through and bring the relay K 6 into the on position, with its contact / C6 | (Fig. 3) connects the high-voltage circuit of the stabilizer 5/2 with a fluorescent lamp FL 2 (6) in order to ignite it.

3. Timer circuit
(Fig. 4, 12 second delay)

Then a capacitor C13 is charged via variable resistors VR β and VR 7 and resistor R 35 (the time constant of the timer circuit consisting of VR 6, VR 7, Λ 35 and C13 is controlled by short-circuiting or switching on the VR 6 via a thermal switch SM 2) . When the n-type thyrionr O 15 narh Ahlaiif rjpr required time

f .. copy operation

(Preparation of the beginning) switches through, is a charge of the capacitor C13 via the resistor R 39 on electrodes of the silicon-controlled rectifier C? 16 given that switches through. At this time, the transistors Q 17 and Q 18 are in the on position under the condition described in the preceding paragraph (2), so that the transistor ζ) 19 blocks and the transistor 20 due to a bias voltage via a signal lamp PL 1 of the transistor 20 and Resistors R 49 and R 50 then switched through and the relay K 7 brought into the on position, its contacts K7 _t and K 7j (F ^; g. 3) close and switch on the main drive motor M 1 so that the drum 1 rotates. At the same time, the high-voltage transformers HVT-Ac and HVT-DC are switched on.

4. Idle (one turn)

If the device is left idle for a long time, the recording material will recover from its fatigue, so that it is necessary to expose the surface of the recording material uniformly to radiation, before copying continues to put it into a usable fatigue state.

As shown in FIG. 8, the switching mechanism performs its time function with the aid of microswitches arranged on the drum 1, as shown in the time diagram according to FIG. 9 is specified. Even if a sheet original is inserted when the drum 1 starts rotating, the copying cannot take place because the ground side of the microswitches MS 1 A and MSiB (Fig. 6) is cut off by the silicon controlled rectifier Q 22 (Fig. 4) are, so that the relay K 5 (Fig. 6) can not assume its on position. If, however, the microswitch MS3A (FIG. 7) is switched on, a signal is fed to the grid electrode of Q 22 via diode D 22 and resistor R 56 and there, as mentioned above, the transistor Q 20 and the relay K 7 is switched on, transistor ζ) 21 is naturally switched through by resistor Λ 53, where it is supplied by ζ) 21 and resistor 54 itself. The microswitches MSIA and MSIB are therefore connected to ground via the diode 21 in order to enable the normal copying process to be carried out from the second rotation of the drum on. As mentioned above, turning on the main switch SW (104) already causes the motor Ai 2 of the pump 44 to start up, so that developer liquid is supplied to the cleaners 17 and 18 before, during and after the first rotation of the drum.

When the solenoid SL 3 (Fig. 6) is turned on, the original feed rollers 3 | and 32 are energized at the sheet original feeder 102 (for sheet originals, "original" is set hereinafter), and when an original is fed from the original guide 37, it is fed as shown in FIG. 2, transported to the left. If then that

ίο the extreme end of the original reaches the sheet original control lamp L 1 (5) and the light receiving element PD (38) (Fig. 6), PD (38 ) is directly irradiated by the light from L 1 (5), so that the transistor Q. 6 is forward biased by an emf of PD , with transistor Q 7 being turned on, although transistor Q 6 is forward biased above variable resistor VR 3 and resistor R 8 prior to the arrival of the Qrioinais.

The mechanical operation is partly different when copying a sheet original from that when copying a thick original (book), as described above, so that the device must be switched over. In this case, a connector CN, which accomplishes the electrical switching, is plugged in. At this moment, sheet originals are used so that the connector CN is plugged in and the DC voltage of 24 V is applied. When the remaining multi-pole plugs connect the circuits of the control lamp L 1 and the photo element PD , the transistor Q% is blocked, the transistor Q7 is switched on , the transistor QS is blocked and the relay K 4 is not effective. The voltages of the coil of the relay K 4 and the resistor R 12 are then only converted to the opposite in the emitter of the transistor Q 9

r> th impedance generated, so that a voltage is fed through the resistors R 13 and R 14 of the grid electrode of the silicon-controlled rectifier QiO, where C? 10 is switched through and the relay KB is switched on and the energy supply of the magnetic coils SL 2 and SL 3, which control the original feed rollers, is switched on through the contact K 82.

When the outer end of the original of the control lamp L 1 (5) and the photo element PD (38) reaches, PD is no longer irradiated, so that the EMF of the photo element PD is zero, the transistor QS is switched on , the transistor Q 7 is blocked Transistor QS and relay K 4 switched on, solenoid SL3 through contact K 4 | of the relay K 4 is switched off and the magnet coil SL 2 is switched on through the contact K 52 and the diode D9 and then the rollers 3i and 32 and likewise the original stop. When the drum 1 has then rotated into the required position, the microswitch MSiA is switched on and the diode D 21, the transistor Q 22 in Fig. 4 come to the contact K 4i, the coil of the relay K 5, the contact K%, the diode D3 and the microswitch MFA in contact when the relay K 5 is turned on, the solenoid SL 2 is turned off and the solenoid SL is turned on by the contact KSi 3, so that the rollers 3i and 32 rotate, and the original in synchronization with the drum 1 is transported to the left and is extended to the upper part of the machine by means of the second sheet original rollers 4i and 42. During this time, the original runs past the upper area of the original glass pane 40 of the lighting device 39 and is illuminated with radiation from below with the aid of the two lighting lamps FL 2 and FL 3 (6).

The image is imaged with the aid of a reflection mirror 7 and a mirror lens 8 at the exposure device 41 on the drum t. It is formed, the electrostatic latent BiIJ by the Hochspannungst ^r ansformatoren HVT-ac-ac and HVT and said optical system reaches the development station 42nd

Paper feeder {F i g. 7)

When the drum 1 is rotated and the microswitch MS2A is switched on, a circuit consisting of a contact K5j, a diode O 25 and the switched on microswitch MS2A is closed, so that the magnetic coil SL 4 is switched on, whereby a downward movement of the normally rotating paper feed roller 22 is triggered wirH Hip then with Hpm nhprsfpn Hpr in Hpr Kaccpttp ΉΪ

10

whereby one of the transfer papers (hereinafter referred to as "paper") is included in the workflow as described the machine is transported.

The microswitch MSIA in a circle of MS 2A, MS13, the relay contact K 83 and the magnetic coil Si-5 is switched off, however, to the rotation of the control rollers 23 | and 232, which are controlled by the solenoid SL 5, to stop so that the paper stops at the control rollers 23i and 23 ₂ . If the microswitch MS2A is switched off and at the same time the magnetic coil SL 4 is switched off and the magnetic coil SL 5 is switched on, the paper is transported by the control rollers. The paper 21, imaged in a corresponding process and cut from the drum, is moved forward while it is closely aligned with the heating plate 28 within 4ft

stored transfer papers comes into contact, and fed to the discharge table 32.

In addition 7 sheets of drawings

Claims (5)

Patent claims: 1. Working method of an electrophotographic apparatus in which on a rotatable recording material a charge image is formed and wet-developed, the resulting toner image then transferred to an image receiving material and the recording material is then cleaned is, characterized in that the recording material is put into operation of the device and rotated at least one revolution before charge imaging begins and is wet cleaned while turning. 2. Working method according to claim 1, characterized in that the contact zone between Cleaning device and recording material for the purpose of wet cleaning, developer liquid is fed. 3. Working method according to claim 2, characterized in that the cleaning device supplied developer liquid is guided along the recording material to the developing device will. 4. Working method according to one of the preceding claims, characterized in that according to When the device is switched on, developer liquid is first applied to the contact zone between the cleaning device and recording material is fed, and then the recording material is rotated. 5. Electrophotographic device for performing the working method Kach ein-.m of the preceding claims, characterized by a device (K 7) for switching on ü «.. drive motor (M l) of the recording material (l) bci switched on device and by a switch (MSiA ), which can be actuated after one revolution of the recording material and activates a device (K 2 or K 5) which triggers the scanning of the original to be copied to generate the charge image.