EP0311646A1

EP0311646A1 - Multi-purpose toner container for non-mechanical printers and copiers.

Info

Publication number: EP0311646A1
Application number: EP87906160A
Authority: EP
Inventors: Erich Krahn
Original assignee: Siemens AG
Current assignee: Canon Production Printing Germany GmbH and Co KG
Priority date: 1986-10-02
Filing date: 1987-09-25
Publication date: 1989-04-19
Anticipated expiration: 2007-09-25
Also published as: DE3761344D1; JPH02500055A; DE3633606A1; US4990964A; WO1988002504A1; EP0311646B1

Abstract

Le réservoir de toner (10) décrit possède un fond en forme d'entonnoir avec une région de stockage du toner très profonde. Les parois latérales du réservoir sont constituées de surfaces planes, et au moins une paroi (12) forme une surface d'appui pour le réservoir (10). Pour empêcher le toner d'adhérer aux parois du réservoir, celles-ci sont inclinées. Le réservoir (10) se vidange par l'intermédiaire d'un bec aspirant (10) agencé de manière déplaçable verticalement. Il s'utilise donc aussi bien comme bac de transfert de toner frais que comme bac collecteur de toner usagé.The described toner container (10) has a funnel-shaped bottom with a very deep toner storage region. The side walls of the reservoir consist of flat surfaces, and at least one wall (12) forms a bearing surface for the reservoir (10). To prevent toner from adhering to the walls of the tank, the walls are tilted. The reservoir (10) is emptied by means of a suction nozzle (10) arranged in a vertically displaceable manner. It can therefore be used both as a fresh toner transfer container and as a waste toner collection container.

Description

description

Multifunctional toner container for non-mechanical printing and copying machines.

The invention relates to a toner container according to the preamble of claim 1.

In copying technology and in modern high-speed data printers that work on the principle of electrophotography, charge images are recorded on a recording medium e.g. produced directly on an intermediate carrier (photoconductor drum) or directly on special paper and then colored with a black powder (toner) in a developer station. When an intermediate carrier is used, this toner image is then transferred to normal paper and fixed thereon

As a rule, a two-component developer is used for development, which consists of ferro-magnetic carrier particles and the toner particles carrying the color. The developer is guided past the charge pattern on the intermediate carrier by means of a magnetic brush arrangement, to which the toner sticks due to electrostatic forces.

An electrophotographic copier that develops charge images according to the principle given is e.g. known from DE-AS 21.26 667.

By coloring the charge images on the intermediate carrier, the toner concentration in the developer mixture of the developer station decreases continuously. It is therefore necessary to continuously add new toner to the developer mixture. Since the toner consumption per unit of time is very high in the case of fast copying machines and high-performance data printers, a spacious toner reservoir is used in such machines in order to avoid downtimes by refilling the toner. When this toner reservoir is empty, the toner, which is usually supplied in handy containers, is filled into the reservoir. It is important to fill the toner from the container into the reservoir so

5 that no toner is spilled and the environment is thereby contaminated.

From DE-PS 32 24 296 a device for filling and sieving toner from a container into a toner storage container is known. In this case, the toner located in a transport container, namely a toner bottle, is fed to a storage container in that the toner bottle is slipped into a filling opening of the storage container. Arranged in the area of the filling opening is a sieve basket which is closed with a sieve relative to the storage container and which is connected to an electrical vibrating device which can be triggered if necessary. The vibrating device is triggered by opening the cover closing the filling opening. 0

With such filling devices, there is now a risk that the toner will spill out of the toner bottle during manual refilling. In addition, since the toner is only supplied to the toner supply container at a certain point, special distribution devices are required in the toner supply container in order to ensure a uniform supply of the toner to the developer station.

It is also known from the Xerox Disclosure Journal, Vol. No. 8, Q August 76, to supply toner to the developer station from a remotely located reservoir by blowing air through the reservoir. This air then transports the toner to the developer station.

The object of the invention is to design a toner container of the type mentioned at the outset in such a way that the toner can be easily transferred from this container into the printing or Can be transferred to the piercing device without toner consolidation occurring or the toner being spilled.

This object is achieved in the case of a toner container of the type mentioned at the outset in accordance with the characterizing part of the first patent claim.

Advantageous embodiments of the invention are characterized in the subclaims.

Because the toner container has a funnel-shaped bottom with a deepest collecting area for the toner, with at least one container wall serving as a base for the container, the toner container can be completely emptied with the aid of a suction nozzle. The toner container can be placed anywhere on flat surfaces via the base.

The wall slope of the side winch of the toner container prevents the toner from sticking to the side walls.

The collecting effect in the container can be further increased by means of a vibrating device.

The smooth wall surfaces of the toner container enable the containers to be stacked easily, which considerably facilitates the transport of several toner containers.

The multifunctional toner container according to the invention is with regard adapted shaping of the suction device for the toner such that the operator of the printer unit a ^{'pollution-free} change of the container is possible, wherein the toner container can also be used both as a container for fresh toner as a collecting container for used toner. Embodiments of the invention are shown in the drawings and are described in more detail below, for example. Show it

1 shows a schematic representation of the toner container

2 shows a schematic sectional view of the toner container

3 shows a schematic representation of the toner supply area of a printing device with inserted filled toner bottle before connection to the suction device

4 shows a schematic sectional illustration of the toner supply area of the printing device, partially in a sectional illustration with an almost completely empty toner container

5 shows a sectional view of the securing mechanism for the proboscis in the secured state

6 shows a sectional view of the securing mechanism for the suction proboscis in the unlocked state

7 shows a schematic sectional view of the adapter area of the suction device and

8 shows a schematic representation of the emptying area of the printing device with the inserted toner container as a collecting container.

A printing device (not shown here) that works according to the electrophotographic principle contains a toner supply area (FIG. 3) for receiving a toner container 10 made of plastic with an associated suction device via which the powdery toner 11 is fed to a developer station (not shown) of the printing device becomes. Furthermore, an emptying area (FIG. 8) is provided in the printing device, in which an empty area Toner container 10 can be attached as a collecting container for the developer mixture when emptying the developer station.

In the developer station of the printing device, a charge image is colored with toner in a known manner using a two-component developer mixture of toner and carrier particles. On the one hand, this developer mixture has to be refreshed from time to time by adding toner, on the other hand, after a long period of operation, it is necessary to replace the entire developer mixture.

The toner container 10 is designed to hold approximately 3 kg of toner powder. Its container walls form flat surfaces, a surface 12 being designed as a standing surface. The upper wall surfaces of the toner container form a cuboid with parallel surfaces, which enables space-saving stacking of the toner containers. A handle 13 .. is integrated into the wall surfaces so that, on the one hand, the toner container 10 can be carried easily, and on the other hand, stacking of several toner containers is not hindered. Adjacent to the stand area 12, the container walls 12/5 and 12/6 together with the container wall 12/1 and the stand area 12 form a funnel-shaped collecting area for the toner. Opposite this collecting area there is a filling and emptying opening 14 which can be closed with a lid 16 with a foam insert 9 which is secured in a captive manner via a tab 15.

After filling with toner powder 11, the opening itself is sealed with an aluminum foil 17.

The collecting area and filling and emptying opening 14 are arranged relative to one another in such a way that, according to FIG. 1, the proboscis 18 inserted into the toner container from above penetrates to the collecting area after appropriate suction of the toner powder. In this characteristic removal position shown in FIG. 1, the collecting area forms the lowest point of the toner container. In relation to the vertical axis A of the installation or removal position of the toner container, the walls enclose an angle B which is less than 45 °.

This means that in the illustrated empty position according to FIG. 1, all the walls have a slope, relative to the vertical axis A, which prevents the toner from getting stuck on the walls of the container during removal with the suction nozzle 18 in connection with a knock / Vibration device prevented. When emptied, the toner collects in the collection area formed by the walls 12/5 and 12/6 or 12 and 12/1, which forms the lowest point of the container, and can be suctioned off completely there.

In order to be able to reliably feed the toner from the toner container 10 to the developer station without contaminating the surroundings, the toner supply area has a suction device for the toner and a corresponding holding device for the toner container 10.

The suction device consists of the suction nozzle 18 which is vertically displaceably arranged between guide rods 19 and which is connected via a flexible suction pipe 20 to a fan of the printer, not shown here. The blower sucks the toner out of the toner container 10 via the suction nozzle and deposits it in the developer station.

4, the suction nozzle 18 contains an inner tube 21 which is wedge-shaped at its lower end and which is connected to the flexible suction tube 20 and has suction openings 22 for the toner. The inner tube 21 is completely surrounded by an outer tube 23 arranged at a distance, which on the one hand has an air intake opening 24 opening to the surroundings at its upper part, and on the other hand, toner inlet openings 25 at its tip in the suction area. The distance and the guidance of the inner tube 21 becomes by means of causes spacer elements, not shown here, which can consist, for example, of three foam strips evenly distributed around the circumference.

In order to keep clumped toner residues away from the feed to the printer station, the door entry openings 25 can be covered by a toner screen covering the suction area of the suction nozzle.

The suction nozzle itself is arranged so that it can be moved vertically by means of a handle 26. For this purpose, support elements 27 are provided which guide the suction nozzle between guide rods 19. In order to protect the suction nozzle and prevent toner from escaping into the environment, the suction nozzle 18 is surrounded by a sleeve in the form of a rubber bellows 28. This sleeve 28 is fastened to the carrier elements 27 at the top and bottom, the lower carrier element 27 being designed as an adapter for connecting the toner container 10 and as a lower guide for the suction nozzle 18. The adapter is arranged in a stationary manner and contains an annular wiper ring 29 (FIG. 7) for wiping off toner residues from the suction nozzle 18. Furthermore, a safety device designed according to FIGS. 5 and 6 is provided, which will be explained later. The actual connection part for the toner container consists of a foam sealing ring 30 for the filling and emptying opening and a cutting ring 31 which has the task of cutting through the film 17 when the toner container 10 is inserted.

Furthermore, the receiving device contains a receiving container 32 for the toner container, which has two wall surfaces, between which holding rods 33 for the toner container are arranged. The receptacle 32 is pivotally attached to a rotary hinge 34, with which the receptacle 32 can be pivoted out of the interior of the receiving area (device compartment) of the printer. The receptacle 32 can also be pivoted vertically about the fastening axis 35 on the rotary hinge 34 and has a tensioning mechanism 36 which interacts with a corresponding hook 37 on the adapter of the suction devices.

5 and 6 there is a latch 38 in a side wall of the receptacle 32 which cooperates with a corresponding pin 39 of a spring rod 40 which is resiliently mounted in the adapter. The lifting rod 40 mounted in the adapter is connected via a toggle lever 41 to a holding pin 42 attached to it. A spring 43 envelops the lifting rod 40.

The function of the device described is now as follows: The toner container 10 with film seal 17 and opened lid 16 is pivoted in the receptacle 32 via the rotary hinge 34 into the interior of the receiving area of the printer. A tensioning mechanism 36 brings the toner container 10 arranged in the receiving container 32 into engagement by rotation about the fastening axis 35

Adapter. However, before the toner bottle neck 44 engages in the foam sealing ring 30 of the adapter, an approximately 340 ° circular sector is cut into the film seal by the cutting ring 31.

If the toner bottle neck 44 engages in the foam sealing ring 30, the suction nozzle 18 is released by the securing mechanism of FIGS. 5 and 6. The suction nozzle 18 is fixed by a retaining pin 42 which is connected to the toggle lever mechanism 41. As a result of the pivoting movement of the receptacle 32 about the fastening axis 35, the pin 39 on the lifting rod 40 engages with the latching lug 38 arranged on the receptacle with the associated ramp. The lifting rod 40 is raised and the holding pin 42 moved by the toggle lever 41 releases the suction nozzle 18. Due to its own weight, the suction nozzle 18 penetrates into the toner container 10 and thereby presses the slit, only on one tab hanging foil seal 17 into the bottle interior, where the actual toner delivery can now begin. A pivoting of the receptacle 32 when the suction nozzle 18 is inserted is prevented by the locking nose 38.

After the conveying process has ended, that is to say when the toner container 10 is changed, the suction nozzle 18 is pulled out of the toner container 10 by means of the handle 26. The toner adhering to the suction nozzle 18 is removed when it is pulled out by the scraper ring 29 and falls back into the interior of the bottle. The rubber bellows 28 covers the suction nozzle 18, which is possibly still slightly dirty, and thus offers protection against contact.

When the rubber bellows 28 is compressed, ie when it penetrates into the toner bottle 10, pressure compensation takes place through a bore 45.

If the suction nozzle 18 is completely pulled out of the toner bottle 10, the compression spring 43 can press the lifting rod 40 downward and thereby lock the suction nozzle 18 with the retaining pin 42. Likewise, the pin 39 which interacts with the locking lug 38 is released and the receptacle 32 with the toner container 10 can be pivoted away.

In order to ensure a safe supply of the toner 11 into the suction area of the suction nozzle 18 with the suction nozzle inserted, a vibrating device can be provided in the receiving area (FIG. 4), which e.g. consists of a knocking hammer 46 which is arranged pivotably in the receiving device and which can be deflected against a spring force 47 by means of an electromagnet 48. This pounding hammer 46 forms a type of vibrating device which detaches any toner that may still be adhering to the inner walls of the toner container 10.

In the case of printing devices operating on the principle of electrophotography, after the transfer printing process, the Residual toner remaining in the drum is conveyed away from the photoconductor drum by a brush cleaning station which is connected to a vacuum and separated by a cyclone filter into a collecting container.

8, an empty toner container 10 can serve as a collecting container for this residual toner. For this purpose, an empty toner container is inserted into a holding container 49, which has a wedge-shaped insert 40 in its base area, which is shaped in accordance with the base surface area 12 of the toner container 10. The holding container 49 with the empty toner container 10 arranged therein can be fastened to the hook 53 of the outlet pipe 54 of the cyclone filter (not shown here) by means of corresponding clamping mechanisms 51 and 52.

10 claims 8 FIG

0

5

Claims

l claims

1. Toner container (10) with a filling and emptying opening (14) for interchangeable fastening in a holding device of a printing or copying machine, characterized in that the toner container (10) has a funnel-shaped bottom which has a deepest collecting area for the toner (11) forms, the filling and emptying opening (14) and the collecting area being arranged relative to one another such that when the toner container (10) is fastened in the holding device in a removal position, in which the collecting area is the deepest area of the toner container (10) forms, a suction nozzle (18) assigned to the printing or copying machine can be displaced into the collecting area and that at least one container wall (12) is designed as a standing surface for the toner container (10).

2. Toner container according to claim 1, d a d u r c h g e ¬ k e n n z e i c h n e t that all the container walls are designed as flat surfaces.

3. Toner container according to one of claims 1 or 2, since ¬ characterized in that the container walls have a wall slope to facilitate the outflow of the toner, the angle (B) which the side walls of the container relative to the vertical axis (A) of the container in the removal position, is less than 45 °.

4. Toner container according to one of claims 1 to 3, d a - d u r c h g e k e n n z e i c h n e t that the holding device is assigned a vibrating device (46, 48) for the toner container (10).

5. Toner container according to one of claims 1 to 4, since - characterized in that the holding device for inserting the container (10) is designed to be pivotable out of the pressure device.

6. Toner container according to one of claims 1 to 5, since ¬ characterized in that the suction nozzle (18) in a arranged above the holding device Füh¬ guiding device (19) within a flexible protective cover (28) is arranged vertically displaceably, the suction nozzle (18) moves along the holding device according to the level of the toner in the toner container (10) during suction.

7. A toner container according to claim 6, dadurchge ¬ indicates that between the guide device (19) and the holding device (32) a flexible protective cover (28) with the filling and emptying opening (14) of the toner container (10) dust-proof connecting adapter is provided.

8. Toner container according to one of claims 6 or 7, so that the adapter has a cutting device (31) for piercing a film (17) covering the filling and emptying opening (14) of the toner container (10) in the filled state.

9. Toner container according to one of claims 1 to 8, d a ¬ d u r c h g e k e n n e z e i c h n e t that a handle element (13) is arranged on the toner container (10).

10. Tonerbehältεr according to one of claims 1 to 9, d a ¬ d u r c h g e k e n n e e c h n e t that on the filling and emptying opening (14) in a captive manner a closure lid (16) is arranged.