DE2516433A1 - DEVELOPMENT PROCESS AND DEVICE FOR CHANGING THE RANGE OF DEVELOPER MATERIAL OFFERED TO A PHOTO-CONDUCTING SURFACE - Google Patents

Description

ttlt. ING. E. HOFFMANN · DIPL ·. ING. W. EITLE DR. HER. NAT. K. HOFFMANN

PATENT LAWYERS D-8000 MÖNCHEN 81ARABELLASTRASSE 4 TELEPHONE (0811) 911087

26 613 XEROX CORPORATION, Rochester, N.Y. / UNITED STATES

Development process and apparatus for changing the bandwidth offered to a photoconductive surface Developer material

The invention relates to a development method and apparatus to change the range of developer material available on a photoconductive surface.

In the case of electrostatic copying systems, it has been found that the developer (carrier and toner particles) in terms of its Lifetime depends on the number of circulation cycles through the development system. The greater the number of circulation cycles, the shorter the life of the developer.

In known systems, the developer of the latent image bearing photoconductive surface is over the same

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Width, regardless of the dimensions of the finished, desired Image presented. For example, the developer of a latent image bearing surface can range from 35.5 cm to copy an image onto 28 χ 35.5 cm or 8.5 28 cm paper. The bandwidth matches the length of the paper as it is fed through the machine. As for the latter paper dimension As concerns, the developer is supplied to the latent image over an excess band width of 7.5 cm, so that it is unnecessary with the associated shortening of its service life is circulated.

The aim of the invention is therefore to avoid unnecessary circulation of excess developer and thus the life of the developer to improve. As a result, the latent image-bearing surface of the developer should only be in a range which is equal to the length of the paper on which the developed image will be transferred. With some systems in addition, the photoconductive surface is developed beyond the limits of the original and copy sheet, which is a Removal of excess toner particles from the affectededia Zones of the surface makes necessary and thus the Rexnxgungssystem additionally burdened. With the invention therefore, unnecessary cleaning of toner particles from a photoconductive surface can be further avoided.

According to the invention, therefore, in the preamble of the claim 1 suggested developing method described that one the photoconductive surface with the developer over a bandwidth brings into contact, which is essentially the same as the dimension of the copy medium used.

A copier is used to carry out this process

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is characterized by an element with an on it developable image, a developer sump containing a developer having magnetic properties, a Device for transferring a tape from the developer from the sump to the image to be developed, a device for selective change of the width of the developer belt, a receiving member for a copy paper supply and a device to change the dimensions of the receiving member according to the different copy paper dimensions, wherein the means for selectively changing the developer bandwidth is coupled to the means for is controlled by it.

An embodiment for such a copying machine is characterized by an element with a developable image on it, a developer swamp, the one developer with magnetic properties, means for transporting a variety of developers from the sump for the image to be developed, this device being a rotatable, non-magnetic and surrounding at least one magnet Element, wherein the magnet is formed with variable length, and comprises means to selectively Increase or decrease the length of the magnet in order to achieve a corresponding change in the length of the magnet magnetic field, so that a corresponding change in the bandwidth of the developer transported to the image is produced.

Another embodiment is characterized by an element with a developable image thereon, a developer sump containing a developer with magnetic Features, a device for transporting a tape from the developer from the sump to the image to be developed,

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the device comprising: a rotatable, non-magnetic element surrounding at least one magnet, a junction located near one end of the magnet and means for moving the junction into position which surrounds one end of the magnet and to pull it away from the sheet, the junction being made of a material exists, which prevents the magnetic field from escaping from the end of the magnet surrounded by the junction, so that this end becomes ineffective in attracting developer to the non-magnetic element.

In summary, the invention is an electrostatic one A copier machine is provided which has a magnetic brush development system. The magnetic brush offers a latent, electrostatic Image a developer tape, the width of which changes according to the dimensions of the copy paper used can be. This is done using a variable length magnet inside a non-magnetic, rotatable one Roller is located on its outer surface, the developer, wearing. The length of the magnet is changed according to the dimension of the copy paper, so that the length of the dated Magnets outgoing magnetic field changes accordingly and thus a corresponding change in the bandwidth of the the image presented developer arises. A branch can also be provided to achieve the same result which can be pivoted to a position in which one end of the magnet is surrounded. This prevents that a magnetic field emanates from said end of the magnet with the result that the magnet with regard to attraction from developer to the roller at this end becomes ineffective and the developer bandwidth is reduced as a result.

Embodiments of the invention are explained in more detail below with reference to the drawing. Show it:

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Fig. 1 is a schematic view of a copier, Fig. 2 is a view along the section line II-II according to Fig. 1,

Fig. 3 is a view of a modified embodiment of the of Figs. 1 and 2,

FIG. 4 shows a view along the section line IV-IV according to FIG. 3,

Fig. 5 is a plan view of an adjusting device for a copy paper receiving member, and Figs

FIG. 6 shows a partial view along the section line VI-VI according to FIG. 5.

In Fig. 1 and 2, a drum 1o is shown on which a photoconductive layer '2 is located. A loading station A, an imaging station B _7, a developing station C, an image transferring and fixing station D and a cleaning station E are arranged along the circumference of the drum 1o. The functions of these stations are known. An electrostatic latent image can be created on the layer 12 and developed with xerographic toner particles. The invention is directed to the development station to which special attention is directed.

The development station includes a developer sump 14, which contains developer 16. The developer is a mixture of toner particles and ferromagnetic carrier particles. The toner particles adhere triboelectrically to the carrier particles. One side wall of the sump has a stationary one connected thereto Bearing bush 18 in which one end of a cylinder or a roller 2o made of non-magnetic material is received.

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So that the cylinder 2o can rotate relative to the bearing bush and the sump, a ball bearing ring 22 is on the bush 18 attached. The other end of the cylinder 2o is connected to a gear train, not shown, with a gear wheel, also not shown Motor in connection, whereby the cylinder is driven. A retaining element 24 made of magnetic material is attached to the sleeve 18 attached and sitting thereon a receiving magnet 26 for the developer, a developing magnet 28 and a transport magnet 3ο for remaining developer, with all magnets arranged within the outline of the cylinder 2o. Furthermore is attached to the holding element 24, a guide region 31, which has an upper surface 32, a lower surface 34 and a lateral surface 36 surrounding the magnet 26 for reasons described below. The management area 31 consists of non-magnetic material, while magnets 26, 28 and 3o are permanent magnets.

The magnet 26 is divided into two sections, a stationary section 38 and a slidable section 40. the Surfaces 42 and 44 of sections 38 and 4o, respectively, are complementary to one another and slide into engagement with one another. At the Side wall 36 is a leaf spring 46 attached to the slidable Touches section 4o and thus keeps this section in contact with section 38. Another is planned Arrangement with a flexible cable, which is a tubular Sleeve 48 comprises which is connected at one end to the sleeve 18 and at its other end to a part 5o of the copy frame is. A flexible, twisted wire 52 slidably extends within the sleeve 48. The wire 52 is on one End connected to the slidable magnet portion 4o and has at its other end a button 54 which is manually gripped can be used to weave the wire back and forth. When pushing inwards of the button, the wire 52 pushes the magnet portion 4o

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inward to the position indicated by dashed lines, whereby the effective magnetic field emanating from the magnet 26 is shortened. These movements are guided by the guide surfaces 32 and 34. The leaf spring 46 represents an engagement of the Section 4o with section 38 safe. When the button is pulled out, the wire 52 pushes the magnet section 4o back into the position shown in FIG.

The application of the split magnet in copiers takes place in the following way: It is assumed that the axial The length "a" of the fixed section 38 is 28cm (11 inches), the axial "b" of the movable section 4o is 7.5cm (3 inches) and the combined The axial length of the magnets 28 and 3o be 35.5 mm (14 inches). Is the section 4o in the solid line Lines in Fig. 2 indicated position, the total length of the magnet 26 is 35.5 cm. The roller turns 2o in Direction of the arrow "A", it magnetically takes the developer material in the magnetic field of the magnet 26 over a 35.5cm long axial tape and presents the photoconductive surface 12 with a 35.5 cm long developer tape. The section is located 4o, however, in the dashed position according to FIG the total length of the magnet 28 cm, so that the magnetic field is reduced by 7.5 cm. When rotating the roller 2o in direction of the arrow "A" is therefore magnetically the developer material in the magnetic field of the magnet 26 along a 28 cm long Axial band added and the photoconductive surface 12 an approximately 28 cm long band (which spreads slightly can) presented from developer material. The magnet 4o can also be in an intermediate position between the fully extended and dashed position according to FIG. 2, so that the photoconductive surface 12 has a developer belt between 28 cm and 35.5 cm is presented.

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The length of a copy sheet usually corresponds to the axial length of a developing sheet carried by a photoconductive drum Image. E.g. the image can extend over an area of 28 cm or 35.5 cm of the axial length of the drum, to be transferred onto a copy sheet with a length of 28 cm or 35.5 cm. The life of the developer represents is a function of the upheaval by the development system; the greater the number of revolutions, the shorter it is Lifespan. Therefore, when the developer is presented to photoconductive surface 12 over a 35.5 cm band width, while only a 28 cm image and copy sheet are provided, a developer belt width of 7.5 cm is unnecessarily circulated, which leads to a shortening of the developer life. However, if the length of the magnet 26 is reduced so that the Roller 2o only takes up a developer belt width of 28 cm and presents this to the photoconductive surface 12, only the necessary amount of developer of the photoconductive surface offered and thus increases the developer life. Using of a 33 cm long copy sheet, the section can be moved inwards by 2.5 cm from its position shown in FIG by pushing button 54 accordingly. To give the operating staff guidance on how far If the knob needs to be moved for the different paper dimensions, an indicator can be provided. From this it becomes clear that easily corresponded to the various paper dimensions by changing the length and number of the stationary and movable portions of the pickup magnet 26.

In Fig. 3 and 4, a modified embodiment of Fig. 1 and 2 shown. The same elements as in the previous embodiment are given the same reference numerals with the addition of an "a". In this embodiment

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a junction 1oo is pivotably articulated to the holding element 24a. A torsion spring 1o1 is around the pivot connection wound, which pushes the junction clockwise so that it surrounds a permanent magnet 1o3. The flexible one Wire 52a is wrapped around a wheel 1o4 and connected at the other end to junction 1oo. The junction can be a have an axial length of about 7.5 cm and are made of a material such as thin measuring tape steel. In this way, the axial length of the magnetic field of the magnetic rod becomes 1o3 reduced by about 7.5 cm when the junction in the position indicated by solid lines according to FIG. 3 is located. If a 35.5 cm copy sheet is used, the button 54a is pulled out so that the junction 100 comes into the dashed position according to FIG. 3, whereby the axial length of the magnetic field of the magnetic rod 1o3 is equal to the total length of the magnet, i.e. 35.5 cm. When using a copy sheet of 28 cm, the button 54a is pushed inwards, so that the spring 1o1 rotates the branch 1oo in a clockwise direction to the fully extended position according to FIG.

It will be understood that any number of branches could be used and that their length can be varied according to the desired results.

In the previous embodiments, the actuation takes place of the magnetic rod section 4o and the branch 1oo selectively by hand. However, the cable 52 or 52a can be connected to a Selector are connected, which sets a paper supply tray according to the length of the paper used. on in this way, the axial magnetic field of the take-up magnet 26 or 1o3 is automatically adjusted to the size of the copy paper set when the paper supply tray is adjusted. FIGS. 5 and 6 show an overall schematic view of FIG

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such a selector, and wire 52 or 52a could be connected to the Selector 2oo indicated therein are connected. For details of the mode of operation of the selector, see US Pat 3,251,594, which under the reference numeral 348 discloses and describes a similar selector of this type. The description of this patent specification is thus incorporated into the present one.

Although the take-up magnet has been explained here in a combined take-up and developing roller, the invention could can also be used in a system using any number of rollers; the essential point of view is therefore to use the invention on a roller before the developer is presented to the photoconductive surface. Most beneficial however, it is to apply the invention to the initial take-up roller for the developer.

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Claims (7)

Claims (J, method of developing an electrostatic, latent image on a photoconductive surface, in which an electrostatic, latent image is created, the image is developed by applying a triboelectric developer to the photoconductive surface toner particles adhering to carrier particles, which are released from a developer sump on the surface, are developed, transfers the toner particles from the latent image to a copy medium of a certain size, another Electrostatic latent image is created on the same photoconductive surface as the photoconductive surface Developer from the same developer sump for developing the other latent image in contact with the toner particles and brings the toner particles from the other latent image to another copy medium with a significantly different one Dimension as the first copy medium transfers, characterized in that one transfers the photoconductive surface contacts the developer over a bandwidth substantially equal to the dimension of the copy media used is. 2. copying machine, characterized by an element (1o) with a developable thereon Image, a developer sump (14) containing a developer (16) with magnetic properties, a device (2o, 26, 28, 3o; 2oa, 1o3, 28a, 3oa) for transferring a tape from the developer from the sump to the image to be developed, a device (38-54; 52a, 1oo, 1o1, 1o4, 48a-54a) for selective change in the width of the developer belt - 12 - 509845/0999 Receiving member for a copy paper supply and a device ßoo) to change the dimensions of the receiving organ according to the various copier paper dimensions, where the device for selectively changing the developer bandwidth is coupled to the device (2oo) in such a way that it is controlled by it. 3. copying machine, characterized by an element (1o) with a developable thereon Image, a developer sump (14) containing a developer (16) with magnetic properties, a device for transporting a bandwidth of developer from the sump to the image to be developed, this device being a rotatable, non-magnetic element (2o) surrounding at least one magnet (26), the magnet of variable length and comprises means (28-54) for selectively increasing or decreasing the length of the magnet, to cause a corresponding change in the magnetic field emanating from the magnet, so that a corresponding change in the bandwidth of the developer transported to the image is generated. 4. Machine according to claim 3, characterized by a receiving member for a supply of copy paper and a device (2oo) for changing the dimensions of the receiving member corresponding to the various copier paper dimensions, the means (28-54) for selective increase or reducing the length of the magnet is coupled to the device (2oo) so that it is controlled by this. 5. copying machine, characterized by an element (1o) with a developable thereon Image, a developer sump (14), which has a developer 509845/0999 ¹³ " (16) with magnetic properties contains a device for transporting a tape of the developer from the sump to the image to be developed, the device comprising: a rotatable, non-magnetic element (2oa) surrounding at least one magnet (1o3), one near one end of the magnet arranged branch (1oo) and a device (1o1, 52a, 1o4, 48a-54a) to move the junction to a position surrounding one end of the magnet and to pull it away from the position, wherein the branch is made of a material that allows an exit of the magnetic field from that of the branch the surrounding end of the magnet, making this end ineffective in terms of attracting developers to the end will not be magnetic element. 6. Machine according to claim 5, characterized in that the magnet (1o3) from a stationary Holding element (24a) is carried, wherein the branch (1oo) is pivotably articulated on the holding element. 7. Machine according to claim 5, characterized by a receiving member for a supply of copy paper and a device (2oo) for changing the dimensions of the receiving member in accordance with the dimensions of the copy paper, wherein the means (52a) for moving the branch (1oo) is coupled to the means (2oo) in order to be controlled thereby to become. 509845/0999