DE2113446B2 - Device for developing charge images - Google Patents

Description

The invention relates to a device for development of charge images on a moving image carrier by means of a powdery toner and developer consisting of carrier particles, which flows in countercurrent to the direction of movement of the image carrier cascading over a sloping upward part of the picture surface.

In the so-called cascade development, the powdery form of carrier particles and toner is left composite developer over the surface

) (> before the image carrier carrying the latent charge images trickle. The triboelectrically charged toner particles remain in accordance with the charge pattern be liable. The image made visible in this way is then fused by melting the toner using heat.

5) xed.

Development devices are known in which the developer is in the same direction as the direction of movement of the image carrier trickles over it like a cascade (USA patent 3117891). This so-called DC development process gives images of sufficient quality as long as the peripheral speed the drum is noticeably slower than the flow speed of the gravity flow trickling flow of developer. At increased

■ r, drum speed, however, there are disturbances in the copy quality.

There is also already known a device in which the developer is supplied in such a way that it rotates in opposite directions to the direction of movement of the image carrier

w cascades over this (DE-OS 1926198). at this device, the developer is from above a sloping part of a belt-shaped Image carrier fed, which moves opposite to the direction of movement of the developer. That

-, -> The image carrier tape runs in a straight line in the area of the development station and one is also straight formed developing electrode closely adjacent. The developing electrode is on its top At the end with an entry chute, which together

bo men a narrow feed gap with the image carrier forms, to which the developer is fed via a chute by a transport mechanism. Direct Above the outlet opening of this shaft there is one that runs parallel to the image carrier

μ and this closely adjacent end plate. Of the The developer supplied trickles down between the electrode and the image carrier belt and remains on the exposed parts of the image carrier tape adhere.

With this device, the development process extends over a large part of the image carrier length in relation to the total length of the image carrier. This leads to a high degree of aui the composition of the developer increases a demand that ^r> increased copy speed. For this reason, the known device has a complicated measuring and control arrangement in order to control the toner concentration in the developer by constant monitoring and adjustment of the toner supply.

There is also a device known in which in the area of the lower half of the charge image drum, a horn-shaped development housing Cross-section, to which toner powder is fed via a vertical υ shaft (DE-OS 1900802). The toner powder builds up in the development housing and is moved upwards by the friction on the drum up to a range above the filling opening. From there it falls back to the bottom of the development housing, so that a permanent ring-shaped circulating flow is created. In the return branch of this circulating flow is fresh Toner material fed in from the vertical feed shaft. With this arrangement, r> an intimate bond of the toner powder with the surface of the imaging drum via a relatively large area ensured. However, due to the jam of the toner powder in the lower Part of the development housing and through the overturning movement itself thrust forces on the circumference of the Drum on, reducing the risk of the developed image being adversely affected by loosening it transferred toner particles.

The object of the invention is, in a device J ~> of the type explained above to enable a more effective supply of the developer to thereby the To improve the copy quality and / or to increase the copy speed. This is what makes this job solved that below a feed opening a the flow of the developer partially in the direction of movement of the image carrier conductive deflector is arranged and that is above the deflector a free space adjacent to the image carrier for the accumulation of development materials rial, which is kept filled with developer material during the development process, so that only a part of the supplied developer material cascades onto the surface in countercurrent of the development area falls while another w part accumulates above the deflector and there forms an end zone for the finished development.

Various advantageous refinements and developments of the invention can be found in the claims evident. Several embodiments of the >> Invention are shown in the drawings and will be explained in more detail below. It shows

Fig. 1 is a schematic sectional view of a first embodiment of the development station,

Fig. 2 is a schematic sectional view of a two w) th embodiment of the development station,

3 is a schematic sectional view of a development station with electrical auxiliary devices to explain a further development of the invention and b5

4 is a schematic sectional view of a development station with magnetic auxiliary devices to explain another development of the invention.

1 partially shows a movable image carrier 11 with a surface 12 that is insulating at least in the dark, which carries a latent electrostatic charge image and moves around a roller 13 in the direction of arrow 14. The image carrier 11 preferably has a photoconductive layer on its surface. The electrostatic charge pattern thereon is formed, for example, by a previous uniform electrostatic charge of the surface 12 by means of conventional corona discharge devices and subsequent imagewise exposure of the photoconductive layer. The electrostatic charge pattern can, however, also be applied to an insulating layer Ί2 in another way.

To develop the electrostatic charge image carried by the image carrier 11 is a novel development station 15 provided. The development station 15 has a storage container 16 for the developer 17, which consists of a mixture of carrier particles and toner powder, the Toner particles adhere electrostatically to the carrier particles. This so-called developer 17 is from the Storage container 16 via facilities such. B. a conveyor spindle or a revolving chain of conveyor buckets, which are shown schematically by the endless dashed line, in a receiving container 18 transposed, from which it falls onto the picture carrier. A toner metering device, not shown is included in the development station to continuously add fresh toner to the developer Supply storage container.

The novel development station 15 contains devices for generating a development end zone, d. H. a finished development zone above the area where the developer hits the image carrier 11, the development of the electrostatic image being terminated or completed in this zone. In the embodiment shown in Fig. 1, this end zone is produced in the following manner and maintain. The receptacle 18 has solid walls 19 and 20 and one that can be moved laterally Wall 21, which thereby more or less opens a gap 22 in the receptacle. It is also located near the receptacle 18 in the path of the developer flow to the image carrier 11, a deflector 23, which gives the developer 17 a certain Upward acceleration granted. When the developer flows onto the surface 12 of the image carrier 11, is so caused a part of this developer to form said end zone 24, while the rest of the Developer, as shown by arrow 25, in a In the downward direction, it trickles like a cascade, which is opposite to the direction of movement of the image carrier 11 is.

The still undeveloped electrostatic charge image the surface 12 of the image carrier 11 meets the developer 17 for the first time when entering the development station 15 together. The developer 17 with which the electrostatic image first comes into contact comes, is already partially depleted of toner, because a certain amount of toner is on leading image areas was delivered. While the electrostatic image continues to move upwards, it will continue to move developed, but not completely, which does not happen until it passes through the development zone 24. In the lower area of this end zone, the developer is still unused and heavily interspersed with toner

therefore completes the development of the already partially toned electrostatic image. At the top In the area, however, the carrier particles are more or less bare of toner, and therefore they may sweep Remove any toner from the underlying areas of the image. These are essentially toner-free Carrier particles also run back into the path of the newly entering developer, where they come from take up this toner and then either run back into the zone 24 or along the surface 12 after trickle down into the container 16. Thus, in this developing device, the electrostatic image becomes first partially developed before it reaches the end zone of the finished development, in its lower area the development of the image is completed and in its upper area the underground areas of the Remove loose toner from images that you want to remain white.

Another embodiment of the development station is shown in Fig. 2, where the movable Image carrier 11 also carries an insulating surface 12 and here has the shape of a drum, so that the development surface is not flat but curved. Similar to the embodiment shown in FIG The development station of FIG. 2 contains a storage container 16 for supplying the Receiving container 18 with developer 17 via a shown schematically by the dashed endless line Transport mechanism. In this embodiment, the deflector is through the formed lower part of the container wall 19 and the formation of the end zone of the development at least controlled in part by devices for changing the angle of inclination of the container wall 19. The receptacle 18 is rotatably arranged in Fig. 2 about a pin 27, which is slidable in a latching member 28 can be latched. The pin 27 can be pulled down from the uppermost slot in the locking member 28 can be adjusted to one of the three other slots. The receptacle 18 is pivoted upwards and the wall 19 moved from the current position to one of three other positions, from each of which pivots the wall 19 of the container 18 further into the horizontal position. The more the wall 19 is pivoted to the horizontal position, the larger the end zone of the development. One Return of the pin 27 in the uppermost slot of the locking member 28 leads accordingly to a Pivoting the receptacle 18 downwards and the wall 19 back into a more vertical position Location. This reduces the extent of the end zone 24. The baffle 23 of Fig. 1 can of course be attached in a similar manner as the storage for the wall 19 in Fig. 2, thereby the Change the angle of the baffle 23 accordingly.

Preferably for an image carrier running at 80 cm / sec with an extension of the first, i. H. the Cascade development zone of about 18 cm is the extension of the end zone of development between 1 cm to about 5 cm. It was found that the smaller the end zone under these conditions electrostatic image is not developed to optimal density and the background should be white of the developed image still contains loose toner particles, as none of the toner particles are in the upper part of the end zone Toner bare carrier particles are located, which can clean the surface of excess toner. On the other hand, if the end zone of development under these conditions exceeds a width of 5 cm, the developer in the uppermost part of the end zone is so largely depleted of toner that it does not only loosen Absorbs toner from the background of the image and thus: cleans it, but even partially that deletes the developed image.

Since the dimensions of the end zone are so important for the finished development, some parameters are

K), by changing them if they remain the same the image carrier speed the formation of the zone can be influenced:

1. the angle of inclination of the chute through which the developer flows onto the image carrier (in

ι j described in connection with FIG. 2);

2. the size of the outlet opening or the gap of the container containing the developer;

3. The use of a baffle in the flow path of the developer and the angles this plate to the flow direction (described in connection with FIG. 1);

4. the use of a locking mechanism between the insulating surface and the end of the Inflow and

2 ^r > 5. the angle of inclination of the insulating surface.

About the gap 22 of the receptacle 18 can accordingly the throughput of developing material and thus the size of the end zone of the development increases and be scaled down. Besides that, it can

«Ι end 26 of the wall 19 in FIG. 2 closer to the insulating surface 12 of the image carrier 11 can be moved towards or away from this by actuating the Latching member 28. So that the flow of developing material between the end 26 and the Area 12 enlarged or reduced and in this way the size of the end zone of the development accordingly changes.

The size of the end zone can also be changed via the angle of inclination of the image carrier 11.

According to the illustration in FIG. 1, the angle is this part about 45 °. If this angle is increased beyond this value, the effect decreases gravity on the developing material and thereby the size of the end zone of the development reduced, whereas at an angle below 45 ° this zone is enlarged because the force of gravity is no longer can act as strongly on the developing material, the angle is for a web-shaped image carrier preferably at about 45 °.

As has already been said, the carrier particles depleted in clay take on reaching the top one Area of the end zone of development looser unwanted toner from the background of the image. Before the size of the end zone, it depends on how far c the carrier particles are depleted of toner. If di (end zone of development becomes too large, adheres to the Carrier particles only so little toner that this <now not only toner from the blackening area because of their:

in the absence of toner, fertilize unsaturated electrical charges and possibly even on the photoconductor stick and are carried upwards out of the development zone. In a training Application of the invention are therefore in the range of the end

_b5 zone of development auxiliary devices are provided which exert a force on the toner-depleted carrier particles and thus regulate their proportion in the upper area of the end zone of development in such a way that

these particles are not carried further upwards and thus out of the development zone.

In Fig. 3 an embodiment of this development of the invention is shown, where a voltage source is attached to an isolated chute in the form a baffle plate 23 is applied and the image carrier 11 for illustration purposes once as an extended one Circular line to indicate a drum and on the other hand as a straight dashed line to indicate one Track or an endless belt is shown. The polarity of the electrical applied to this gutter Potential must be opposite to the triboelectric charge of the carrier particles and in its size sufficient to prevent the detonated carrier particles from moving upward out of the end zone of the Development can be transported out. This is usually the case at around 200 volts. If the electrostatic Charge image z. B. is negative, the triboelectric charge on the carrier particles is negative, then the polarity of the potential applied to the channel must be positive. The core of the carrier particle can consist of insulating material such. B. glass or sand or made of a conductive material such as z. B. iron.

Another embodiment for regulating the proportion of carrier particles depleted in toner in the upper part of the end zone of development is shown in FIG. Here a non-magnetic one rotates Cylinder 29 around a fixed magnetic hub 30 with one or more axially aligned Bar magnets 31 near the inside of the rotating cylinder. The cylinder 29 is against the movement of the image carrier 11 is rotated in the direction of arrow 32. Of the bar magnets 31 of the Hub outgoing magnetic springs extend through the non-magnetic cylinder and pull the freed from the toner carrier particles, if they have magnetically attractable cores such. B. iron cores to have. The rotation of the cylinder 29 carries the carrier particles back into the developer stream Receiving container 18 and from the magnetic fields

j, thereby removing the toner stripped carrier particles returned to the flow of the developer and with freshly coming from the receiving container, be mixed with other carrier particles loaded with toner. Thus the rotating cylinder leads

κι the toner depleted carrier particles not only by means of the magnetic fields back into the developer stream, but can also be used to increase the number to regulate the carrier particles exposed from toner in the upper region of the end zone of development.

r> By z. B. the speed of rotation of the As the cylinder increases, the number of these carrier particles in the end zone decreases, as a greater proportion of them Particles are carried out of the end zone and back into the flow of the developer. Another control option for the size of the zone also provides the strength of the applied magnetic field.

If the cylinder 29 is made of metal, it can also have a potential from a voltage source 33 received and thus a further function as a development

2) adopt lung electrode to help develop the Enhance electrostatic image in larger blackened areas. The one applied to the cylinder Potential must be slightly higher than the underground voltage level and significantly lower than that

j (i voltage level in the blackened areas of the Image or pattern. A negative electrostatic charge pattern has e.g. B. usually a Surface potential of -700 volts in the pattern areas and a potential of -100 volts in the

r> underground areas. Thus, the voltage applied to cylinder 29 should be about -150 volts.

1 sheet of drawings

809 516/130

Claims (10)

Patent claims: 1. Device for developing charge images on a movable image carrier by means of a powdery developer consisting of toner and carrier particles, which flows in countercurrent to the direction of movement of the image carrier cascading over an upward sloping one Part of the image surface is scattered, characterized in that below one Feed opening (22) allows the developer to flow partially in the direction of movement of the image carrier conductive deflection device (23) is arranged and that is above the deflection device a free space adjacent to the image carrier for the accumulation of developing material which is kept filled with developer material during the development process so that only a part of the developer material supplied is cascaded in countercurrent falls on the surface (12) of the development area, while another part falls Above the deflection device (23) accumulates and there an end zone (24) for the finished development forms. 2. Device according to claim 1, characterized in that the deflection device (23) with an adjusting mechanism (27,28) is provided, which can be used to selectively change the extent the end zone (24) forming above the deflection device (23) is used for development. 3. Device according to claim 1 or 2, characterized in that with the adjusting mechanism (27, 28) the cross section of the feed opening (22) can be changed as required. 4. Device according to one of claims I to 3, characterized in that the deflection device by an at least partially extending below the feed opening (22) Deflector (23) is formed. 5. Device according to claim 4, characterized in that the deflector (23) in the Proximity of the surface (12) carrying the charge image to be developed as a chute for the Developer is formed, the angle of inclination is adjustable. 6. Device according to one of claims 1 to 5, characterized in that in the vicinity of the Feed opening (22) an electrode (29) is arranged, the polarity of which corresponds to the charge of the carrier particles opposite and whose tension is sufficient to cause the toner to migrate to prevent freed carrier particles from the end zone (24) of upward development. 7. Device according to claim 6, characterized in that the electrode is formed by the deflection plate (23) which for this purpose is connected to a voltage source ( V) . 8. Device according to one of claims 1 to 7, characterized in that the carrier particles are ferrous and that a magnet is provided in the vicinity of the end zone (24) of the development, which prevents the carrier particles freed from the toner from migrating upwards. 9. Device according to claim 8, characterized in that a rotatable, non-magnetic Cylinder (29) is provided, in the interior of which a fixed magnet (31) is eccentric is arranged, which pulls the freed from the toner carrier particles to the surface of the cylinder, and that the carrier particles removed from the magnet after a rotation of the cylinder and the Receiving container (18) supplied to the developer will. 10. Device according to one of claims 1 to 9, characterized in that the movable The image carrier is an endless, flexible belt, the angle of inclination in the area of the development station to influence the expansion of the end zone (24) of the development is adjustable.