KR900007884B1 - Develop device - Google Patents

Abstract

Developing device includes a casing for containing a developer. A movable developer carrier is mounted in the casing for carrying a developer. A cylindrical resilient body is mounted in the hopper and disposed in a first position confronting the developer carrier for supplying the developer to the developer carrier. A voltage is applied between the developer carrier and the resilient body to coat a layer of the developer on the developer carrier. A thickness limiting member is fixedly disposed on the hopper for limiting the thickness of the layer of the developer on the developer carrier.

Description

Developing equipment

1, 2, and 3 are side views of main parts of a developing apparatus using the one-component developer in the conventional example, respectively.

4 is a sectional side view of the main portion of the developing apparatus in the first embodiment of the present invention.

5 is a cross-sectional side view of the lid portion in the first embodiment of the present invention.

6 is a main perspective view of the developing apparatus in the first embodiment of the present invention.

7 is a main perspective view of a fur brush which is a cylindrical elastic body in the first embodiment of the present invention.

8, 9, and 10 are cross-sectional side views showing an operating state of a sheet-shaped elastic member for supplying a developer in the first embodiment of the present invention.

11 is a sectional view of the main portion of the developing apparatus in the second embodiment of the present invention.

12 is a cross-sectional side view of both ends of a fur brush which is a cylindrical elastic body in a second embodiment of the present invention.

13 is a perspective view of the main brush portion in the second embodiment of the present invention.

14 is a sectional view of the main portion of the developing apparatus in the third embodiment of the present invention.

Fig. 15 is a sectional side view showing main parts of the developing apparatus in the fourth embodiment of the present invention.

16 is a sectional view of the main portion of a developing apparatus in a fifth embodiment of the present invention;

* Explanation of symbols for main parts of the drawings

)22: latent image retention 23: expectation

)

24: photoconductor 25: charger

26 DC high voltage power supply 27

28: developer 29: hopper

30 outlet 31 31 supply opening

32: lid 33: sheet-shaped elastic member

34: developer carrier (developing roller)

35: fur brush (cylindrical roller body)

36: heart gold 37: elastic material

38: scraping plate 39: partition plate

40: bearing 41: bearing

42 DC high voltage power supply 43 detection means

44: blade (total thickness regulation subhead) 45,46: sealing material

47: pressure spring 48: bias voltage applying means

49: rocking member

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a developing apparatus in an image forming apparatus such as a copying machine, a printer, etc. applying an electrophotographic.

Conventionally, as a developing method using a dry developer, it is divided into two methods, a method of using a two-component developer and a method of using a one-component developer.

The method of using a two-component developer uses a mixed developer of a carrier and a toner, and thus requires a toner concentration control device that maintains a constant mixing ratio of the toner and the carrier, and also periodically replaces the carrier by deterioration of the carrier. Has its drawbacks. Therefore, in recent years, in order to eliminate the said fault, the developing method which implements only the one-component developer which does not use a carrier is proposed. This developing method is disclosed in, for example, Japanese Patent Application Laid-Open No. 54-43038, Japanese Patent Application Laid-Open No. 56-110963, US Patent No. 4,083,326, and the like. The configuration is shown. In Fig. 1 (Japanese Patent Laid-Open No. 54-43038), (1) is a developing roller, (2) is a toner, (3) is a hopper, (4) is a blade, and (5) is a photosensitive member. do. The developing roller 1 is composed of an uneven metal material on its surface, and the toner 2 is supplied from the hopper 3.

Next, when the developing roller rotates in the direction of the arrow, the tow 2 is charged to a predetermined polarity by the blade 4 contacted with the surface of the developing roller 1 and at the same time the developing roller ( Coated on the surface of 1).

Next, the charged toner 2 emerges when facing the electrostatic latent image of the photosensitive member 5 and develops. In Fig. 2 (Japanese Patent Laid-Open No. 58-110963), (6) is a photoconductor, (7) is a shape made of a conductive urethane material in contact with the photoconductor (6), and (8) is a developing roller (7). (9) is a conductive furbrush (8) and a power supply for applying a voltage to the developing roller (7), (10) a voltage divider for adjusting the voltage of the power source (9), (11) ) Is configured as a hopper in which the toner 12 is housed.

The toner 12 supplied from the hopper 11 to the furbrush 8 is triboelectrically charged by the furbrush 8, and is then developed from the furbrush 8 by the voltage of the power source 9. ), And then adhere to the electrostatic latent image of the photosensitive member 6 to develop. If the predetermined development concentration cannot be obtained as a result of development, the voltage divider 10 adjusts. In FIG. 3 (US Pat. No. 4,083,326), (13) is a developing roller, (14) is a toner, (15) is a hopper, (16) is a blade, (17) is a sheet-shaped photosensitive member, (18) (19) is a conductive furbrush in contact with the developing roller (13), (20) is a first power supply for applying a voltage to the hopper 15 and the conductive furbrush (18), and (21) is a conductive furbrush A second power source for applying a voltage to the brush 18 and the developing roller 13. The voltage applied by the second power source 21 is larger than the voltage applied by the first power source 20 and is lower than the voltage of the electrostatic latent image of the photosensitive member 17. The toner 14 is triboelectrically charged by the fur brush 18 so that the toner 14 is developed by the potential difference between the first and second power sources 20 and 21 from the hopper 15 via the conductive fur brush 18. ), And then smoothed by the blade 16, and adhered to the electrostatic latent image of the photosensitive member 17 to develop. Next, the toner 14 on the developing roller 13 after development is scraped off by the conductive fur brush 19 to remove the developing history on the developing roller.

However, such a system has a problem in terms of uniform chargeability of the developer (toner) and uniform layer thickness formation on the development roller, making it difficult to reproduce high quality images.

That is, as shown in FIG. 1, the toner of the surface layer on the developing roller is frictionally charged in contact with the blade, but the toner below the surface layer not in contact with the blade is not frictionally charged. If the toner is made to fly in this state and developed, the uncharged toner may scatter and contaminate the apparatus, or may be attached to an unfired line to cause blackening.

As shown in FIG. 2, the charging toner of the perbrush is coated on the developing roller by an electric field between the furbrush and the developing roller. Therefore, if the amount of toner supplied to the fur brush is not constant, a coating stain is generated on the developing roller. Therefore, a means for uniformly supplying the fur brush from the hopper is required.

However, even if the toner has a means for uniformly supplying the toner, the coating spots of the toner on the developing roller are caused by the density irregularity of the fur of the furbrush. There was a problem.

As shown in FIG. 3, the toner charged on the developing roller can be uniformly coated, and the problem of FIG. 1 and FIG. 2 is solved, and the toner supply and the toner are scraped by two per brushes. The configuration is complicated because the dropping is performed. Moreover, since the hopper containing the toner is located below, the arrangement of the developing apparatus is restricted. In addition, since the brush is rotated in the opposite direction to the developing roller at the contact position between the brush and the developing roller, the toner scraped off is scattered by the restoring force of the middle of the pur brush and contaminates the inside of the machine. There was a problem in which burns occurred on the burned or scattered toner.

This invention makes it possible to expand the constraints on the arrangement of the developing apparatus with a simple configuration, to uniformly charge the developer on the developer carrying member, and to form a uniform layer thickness. It is an object of the present invention to provide a developing apparatus which can prevent contamination of the apparatus due to scattering of the toner and obtain a high quality image free of roughening and concentration stain thereon.

In order to achieve the above object, the developing apparatus of the present invention includes a cylindrical elastic body placed at a position opposite to the developer carrying member, voltage applying means for applying a voltage therebetween, and a moving direction of the developer carrying member. A layer thickness regulating member for regulating the layer thickness of the developer at a position opposed to the developer carrier at a position downstream from the opposite position with respect to the developer carrier, wherein at least the developer carrier and the layer thickness with respect to the moving direction of the developer carrier. The developer is not supplied downstream from the opposite position of the regulating member between the developer carrying member and the upstream side from the opposite position of the elastic body of the cylindrical phenomenon.

4 to 10 are developing apparatuses in the first embodiment of the present invention, and are examples used for developing an electrophotographic copying machine. In Fig. 4, reference numeral 22 denotes an electrostatic lock, a photosensitive drum, or the like as a latent image retainer.

)(23)의 표면상에 산화아연, 셀렌, 유기 광도전재료등의 광도전체(24)를 담지(擔持)한 것이다. (25)는 대전기로서 제1의 직류고압전원(26)에 의하여 감광드럼(22)의 광도전체(24)에 대응하여, 예를들면 산화아연의 경우는 마이너스, 셀렌의 경우는 플러스의 코로나를 주어서 광도전체(24)를 전면적으로 대전시키는 것이다. (27)은 광학부로서, 패턴광상을 감광드럼(22)상에 투영해서 정전잠상을 형성하는 것이다. (28)은 현상제로서 통상의 1성분절연성 토우너이다.In the present embodiment, the latent image retainer 22 is a photosensitive drum, which is the base of aluminum.

The photoconductor 24, such as zinc oxide, selenium, and an organic photoconductive material, is supported on the surface of the (23). Numeral 25 denotes a charger, corresponding to the photoconductor 24 of the photosensitive drum 22 by the first DC high voltage power supply 26, for example, negative for zinc oxide and positive corona for selenium. The photoconductor 24 is fully charged by giving. Reference numeral 27 denotes an optical portion which projects a patterned image onto the photosensitive drum 22 to form an electrostatic latent image. Reference numeral 28 denotes a conventional one-component insulating toner as a developer.

The developer 28 may be either a magnetic toner or a nonmagnetic toner. Reference numeral 29 denotes a hopper in which a developer 28 is stored with an outlet portion 30 at one end and a replenishment opening 31 at the other end. 32 is a lid of the replenishment opening 31 of the hopper 29. Reference numeral 33 is a sheet-shaped elastic member, for example, made of a sheet-like polyethylene terephthalic acid having a thickness of about 40 μm, and one end thereof is fixed to one side 32a of the lid 32. In addition, the elastic subsidiary material 33 is returned to the state as shown in FIG. 5 when the lid 32 is removed, and bent as shown in FIG. 4 when the lid 32 is attached. do. Reference numeral 34 denotes a developer roller that is a developer carrying member. For example, a metal roller such as stainless steel, aluminum, or a roller coated with a resin on the surface of the metal roller is preferably used. Similarly, the outer peripheral surfaces 34a and 34b of both ends of the developing roller 34 are smooth surfaces, and a rough surface of fine unevenness is formed on the central surface 34c. Further, the developing roller 34 is provided at the outlet portion 30 and is provided at a predetermined interval with respect to the photosensitive drum 22. For example, the developing roller 34 rotates counterclockwise as shown in FIG. Reference numeral 35 denotes a fur brush, which is a cylindrical elastic body, a roller made of sponge, or the like, and a layer of elastic material 37 is formed on the outer circumferential surface of the core 36. In this embodiment, the cylindrical elastic body 35 is a fur brush, and the elastic material 37 is composed of a conductive peer using rayon fibers containing carbon. In addition, the fur brush 35 is in the developer 28 of the hopper 29, and is in contact with the surface of the developing roller 34, for example, clockwise and more than the peripheral speed of the developing roller 34. The excess flow of the developer 28 is eliminated by rotating at.

As shown in FIG. 7, the fibers of the fur brush 35 have a spiral shape in a direction in which the developer 28 moves from the main parts of the both ends of the fur brush 35 to the center part at the time of rotation. Reference numeral 38 denotes a scraping plate, which is in contact with the fur brush 35 to make the amount of the developer 28 in the fur brush 35 uniform. In addition, the fur brush 35 agitates the developer 28, performs frictional charging by friction between the perforated 35 and the developer 28, and at the same time comes in contact with or in contact with the surface of the hopper 29. In contact with the scraping plate 38 to help the friction charging of the developer 28. In addition, the peripheral speed of the fur brush 35 is faster than the peripheral speed of the developing roller 34. Therefore, after the development administration, the developer 28 adhering to the surface of the development roller 34 can be scraped off. Reference numeral 39 denotes a partition plate to prevent the undeveloped developer 28 from reaching the vicinity of the developing roller 34 and the fur brush 35, and to prevent the developer 28 from remaining. In FIG. 6, reference numeral 40 denotes a bearing of the developing roller 34, and 41 denotes a bearing of the fur brush 35. As shown in FIG. Reference numeral 42 denotes a second DC high voltage power supply that is a voltage application means to apply a voltage between the developing roller 34 and the fur brush 35.

Reference numeral 43 is a detecting means for detecting the current value of the second DC high voltage power supply 42 and detecting the presence or absence of the developer 28. Reference numeral 44 denotes a blade which is a layer thickness regulating means for regulating the layer thickness of the developer 28. In this embodiment, a rubber blade made of an elastic material such as urethane rubber is used. It may be an elastic synthetic resin such as telephthalate, an elastic metal such as phosphor bronze or spring steel, or a fluorine resin coated on an elastic metal or synthetic resin. The developing roller 34 also has a blade 44 downstream from the developer 28 portion of the hopper 29 with respect to the rotational direction of the developing roller 34, and upstream from the opposing portion with the photosensitive drum 22. It is installed by pressing on the surface of. Moreover, the width of the blade 44 is a length which abuts with the outer peripheral surfaces 34a and 34b of both ends of the developing roller 34, as shown in FIG. (45) (46) is a sealing material which prevents the leakage of the developer 28, and is comprised from elastic materials, such as felt, a sponge, and rubber, for example. The sealing members 45 and 46 are in contact with both ends of the outer peripheral surface 34a and 34b of the developing roller 34 and the blades 44, respectively. In addition, the perbrush 35 may be either insulative or conductive. However, when an insulating material is used, the voltage applied to the developing roller 34 and the perforation 35 by the second DC high voltage power supply 42 can be set to high voltage. Because of the necessity, the apparatus becomes expensive and also involves a risk, so it is preferable to use a conductive material having a specific resistance of about 10 ¹⁰ ? Cm or less. As the fur brush 35, not only the conductive rayon fiber but also other conductive fiber may be used as in this embodiment, and in order to make the coating even, a fur brush made of electrostatic hair is used. It is also valid. As the elastic material 37 of the cylindrical elastic body 35, the above-described effects of frictional charging, coating and the like can be effectively performed even when a conductive sponge, a conductive cloth, and a soft wire brush are used.

In the case where the developer 28 is a one-component magnetic toner, it is also effective to use a magnetic roller as the core 36 and form a magnetic brush on the outer circumference thereof to form a cylindrical elastic body 35. Further, the developer 28 in the hopper 29 is at least downstream of the opposite position of the developing roller 34 and the blade 44 with respect to the moving direction of the developing roller 34, and the developing roller 34 and the fur brush ( It is comprised so that it may not be supplied between the upstream rather than the opposing position of 35).

The operation of the developing apparatus of the first embodiment configured as described above will be described.

cm의 레이온섬유를 3600개/cm²정도 식모한 퍼어브러시, 현상로울러(34)의 표면거치름은 5μm Rmax, 현상로울러(34)에 압압하는 블레이드(44)의 선압력은 25g/cm, 감광드럼(22)과 현상로울러(34)의 간격은 0.15mm, 현상제(28)는 통상의 플러스 대전성의 비자성 1성분 토우너를 사용하여 실현하였다In order to make the operation easier to understand, the photoconductor 24 on the photosensitive drum 22 has zinc oxide, and the cylindrical elastic body 35 has a specific resistance containing carbon as the elastic material 37 on the aluminum core 36. This about 10 ⁵

surface mounted flow of 3600 to cm rayon fiber / cm ² degree flocking a spur brush, the developing roller 34 is the line pressure of the blade 44 which presses on 5μm Rmax, the developing roller 34 is 25g / cm, the photosensitive The distance between the drum 22 and the developing roller 34 is 0.15 mm, and the developer 28 is realized using a normal plus charge nonmagnetic one-component toner.

In FIG. 4, the high voltage of about -6 KV is applied to the charger 25 by the first high voltage DC power supply 26, and the entire surface of the photosensitive drum 22 is negatively reduced to about -600V by the negative corona. To be charged. Next, when the reflective image (patterned image) of the original irradiated by the halogen lamp or the like is projected on the photosensitive drum 22 which is negatively charged, the portion corresponding to the non-image portion of the original on the photosensitive drum 22 is reflected light. This removes the residual potential near approximately 0V, forming a positive electrostatic latent image. In the meantime, the developer 28 in the hopper 29 is supplied into the furbrush 35 by the rotation of the furbrush 35. Next, the excess developer 28 in the fur brush 35 is scraped with a scraping plate and supplied in an appropriate amount, and is positively charged by friction with the scraping plate 38 or the hopper 29. Moreover, this developer 28 is conveyed to the position which opposes the developing roller 34 by the rotation of the fur brush 35. The developer 28 supplied in an appropriate amount is more uniformly positively charged by the stirring action by the rotation of the fur brush 35 and the friction with the surface of the developing roller 34. Next, a voltage is applied between the developing roller 34 and the perforated 35 with the second direct current high voltage power supply 42 with the furbrush 35 as a positive value, and on the surface of the developing roller 34. The charged developer 28 is coated. The voltage applied by the second DC high voltage power supply 42 is preferably about 30V to about 250V, and 100V is applied in this embodiment. In addition, when the developer 28 is transferred from the fur brush 35 to the developing roller 34 by an electric field by the second DC high voltage power supply 42, for example, uncharged and Even if there was a developer 28 charged with a reverse sign, the developer of the United States war or the developer charged with a sign was difficult to transfer, and only the developer 28 charged regularly was selected to contribute to development.

Therefore, a good image can be obtained. In this developing state, a proper amount of developer 28 is present in the fur brush 35. Therefore, the current value of the detecting means 43 is small because the contact resistance between the fur brush 35 and the developing roller 34 is high. . If the developer 28 is repeated in the hopper 29 and the developer 28 in the fur brush 35 is removed, the above contact resistance is lowered and the current value of the detection means 43 is increased. Therefore, the presence or absence of the developer 28 in the hopper 29 can be detected by the current value of the detection means 43. In addition, the elastic member 33 repeats the development process, and when the amount of the developer 28 in the hopper 29 decreases, the elastic member 33 displaces as shown in FIG. 28) is biased in the direction of the fur brush 35. Therefore, even if the inclination angle of the bottom surface of the hopper 29 is made small, the developer 28 of the hopper 29 can be supplied to the fur brush 35 to the last without trouble. Therefore, the amount of the developer 28 in the hopper 29 can be increased, and the developer 28 can be supplied in a simple and inexpensive configuration.

In this embodiment, the elastic member 33 is mounted on the lid 32. However, as shown in the embodiments of FIGS. 9 and 10, the same effect can be obtained when the elastic member 33 is installed on the bottom surface of the hopper 29. Here, the layer thickness of the developer 28 on the surface of the coated development roller 34 is more than a predetermined thickness, and there is some nonuniformity. Then, by the rotation of the developing roller 34, the charged developer 28 on the surface of the developing roller 34 is positively charged again by the blade 44 as it passes through the blade 44, and at the same time, part of the developer roller is scratched. It is lowered and is regulated to a predetermined layer thickness, that is, about 40 µm (at this time, the layer thickness is preferably about 10-70 µm). At this time, the developer 28 in contact with the blade is moved from both ends to the center by the rotation of the spiral-shaped per brush 35 while moving in the direction of both ends than the center of the developing roller 34. do. Therefore, there is no increase of the developer 28 near the both ends of the developing roller 34 and the fur brush 35, and the height of the developer 28 in the hopper 29 becomes constant. Moreover, since the sealing materials 45 and 46 which contacted both end surfaces of the blade 44 are in contact with the smooth surfaces of the outer peripheral surfaces 34a and 34b of both ends of the developing roller 34, the developing roller 34 The wear is very low even if the machine rotates. Moreover, as for the sealing material 45 and 46, the joining surface which contacts the blade 44 and the developing roller 34 is a smooth surface, and a gap does not arise in the said joining part.

Therefore, there is no leakage of the developer 28 due to the component force pushed in the axial direction of the developing roller 34. In addition, since the storage of the developer 28 in the hopper 29 is not formed upstream from the opposite position of the developing roller 34 and the fur brush 35 with respect to the moving direction of the developing roller 34, This eliminates leakage and scattering of the developer 28. That is, the present developing apparatus can uniformly charge the developer 28 on the developing roller 34 and make the layer thickness uniform, and there is no scattering or leakage of the developer 28, High-quality images without dense spots can be obtained. In addition, since the developer 28 coats the developer 28 on the developing roller 34 by applying a voltage by the second DC high-voltage power supply 42, the developer 28 has a predetermined amount of charge. Since the rising time until charging can reach a predetermined amount of charge within 1 second, no extra waiting time is required. Next, when the negatively charged electrostatic latent image on the photosensitive drum 22 faces the positively charged developer 28 on the developing roller 34, the developer 28 causes the positive electrostatic latent image on the photosensitive drum 22 to lie. The latent image can be developed in an emergency by electric power. After the development, the developer 28 adhering on the surface of the developing roller 34 is scraped off by the perbrush 35 to erase the history of the developing roller 34. Therefore, a high quality image without ghost can be obtained. In addition, the developing device can supply the developer to the developing roller with one single brush and scrape off the developer on the developing roller after development, thereby simplifying the construction and miniaturization. And since it is a structure without scattering, the limitation of arrangement | positioning of a developing apparatus can be extended.

Next, a second embodiment of the present invention will be described. 11 is a second embodiment of the present invention, in which members having the same functions as those in the first embodiment of the present invention are denoted by the same reference numerals. 11, the layer thickness regulating member 44 is made of a metal such as stainless steel or a fluorine resin coated thereon, or a hard resin, ceramics, or the like. The elastic force of the pressing spring 47 is shown in FIG. By the developing roller 34. As shown in FIG. 12 and FIG. 13, the fur brush 35 partially implants only the both ends 35a and 36b. In addition, the peripheral speed of the fur brush 35 is slower than the peripheral speed of the developing roller 34. Reference numeral 49 is a sheet-shaped rocking member, which is formed of an elastic member such as a resin, a leaf spring, or rubber. In the present embodiment, polyethylene terephthalate having a thickness of about 70 μm is used, and both ends 49a and 49b of one end portion thereof are partially formed as shown in FIG. 13, and both ends 49a and 49b are perbrushes. The outer peripheral surfaces 35a and 35b of the end 35 are in contact with each other.

The other end 49c is fixed to the inner surface of the hopper 29. The second DC high voltage power supply 42 applies a voltage obtained by superimposing an AC voltage with a DC voltage between the developing roller 34 and the fur brush 35 on the per brush 35 side. The rest of the configuration is the same as in the first embodiment.

Next, the operation of the second embodiment of the present invention will be described. Since the layer thickness regulating means 44 is made of, for example, a rigid metal, it is possible to obtain a smoother surface than when compared to rubber, etc., and this is brought into contact with the developing roller 34, thereby providing a uniform developer having no streaks or stains. A thin layer of) is formed. Therefore, a high quality image can be obtained. In addition, since the peripheral speed of the fur brush 35 is slower than the peripheral speed of the developing roller 34, the fur brush 35 at the time of developing administration is in one direction at the load of the developer 28 and the contact portion of the scraping plate 38. After being bent, it is then bent in the opposite direction at the contact with the developing roller 34. Therefore, the fur brush 35 is not always bent in one direction. As a result, the fibers of the fur brush 35 are not collapsed, and the stirring action with the developer 28 is ensured, so that a high quality image that is stable for a long time can be obtained. In addition, as the perforation 35 rotates, the swinging member 49 has the one end 49c as a point, and the other ends 49a and 49b are the outer end surfaces 35a and 35b of both ends of the perforation 35. ) And vibrate constantly by its restoring force. Therefore, even if the inclination angle of the bottom surface of the hopper 29 is made small, the developer 28 of the hopper 29 can be supplied to the fur brush 35 to the last without any trouble. Therefore, the amount of the developer 28 in the hopper 29 can be increased, and the developer 28 can be supplied in a simple and inexpensive configuration. In the second DC high-voltage power supply 42, the DC voltage is superimposed on the AC voltage, thereby coating the developer 28 on the surface of the developing roller 34 with a predetermined layer thickness or more, and The developer 28 adhering on the surface of the developing roller 34 is reciprocated between the fur brush 35 and the developing roller 34 by the AC voltage, thereby erasing the history of the developing roller 34. The agglomeration of the developer 28 with each other and the high adhesion of the developer to the developing roller 34 are prevented. Therefore, a high quality image without ghost can be obtained.

Next, a third embodiment of the present invention will be described. 14 is a third embodiment of the present invention, in which parts having the same functions as those in the first embodiment of the present invention are assigned the same numbers. In FIG. 14, the layer thickness regulating member 44 is used as a rigid body, such as stainless steel, coated with fluorocarbon resin, or hard resin, ceramics, or the like. It is attached so as to be separated from the surface of the developing roller 34 precisely by the thickness of. The cylindrical elastic body 35 uses a conductive sponge as the elastic material 37, which is formed by a cylindrical roller around the core 36 of aluminum. In addition, even when a conductive sponge is used as the elastic material 37 of the cylindrical elastic body 35, it can be easily understood that the action of frictional charging, coating, and the like described in the first embodiment is effectively performed. In this embodiment, the developing roller 34 and the cylindrical elastic body 35 are opposed to each other at a proximal position while maintaining a constant interval (this interval is preferably 0.1-0.5 mm).

By this interval, as described in the first embodiment, there is an effect of more reliably selecting the developer 28 charged and the developer 28 charged with an uncharged or reverse code. Reference numeral 48 designates a bias voltage of direct current between the photosensitive drum 22 and the developing roller 34 as a bias voltage applying means.

Next, the operation of the third embodiment of the present invention will be described.

When the charged developer 28 on the cylindrical elastic body 35 rotates and comes to a position opposite to the developing roller 34, the electric field by the second DC high voltage power supply 42 is applied as in the first embodiment. It is coated on the developing roller 34 thicker than a predetermined thickness, and regulated to a predetermined thickness by the layer thickness regulating member 44. Next, when it faces the electrostatic latent image on the photosensitive drum 22, it develops by applying the direct current bias voltage between the photosensitive drum 22 and the developing roller 34 by the bias voltage application means 48. FIG. By applying the bias voltage, the developer 28 emerges due to the synergistic action of the electrostatic force due to the electrostatic latent image and the electric current caused by the DC bias, so that the developer 28 can be developed more effectively. In addition, the developing apparatus of this configuration can cope well even if the bias voltage superimposes an AC voltage or an AC voltage on the DC voltage.

Next, a fourth embodiment of the present invention will be described. 15 is a fourth embodiment of the present invention, in which parts having the same functions as those in the third embodiment of the present invention are assigned the same numbers. In Fig. 15, the layer thickness regulating means 44 is a blade which is a rigid body or an elastic body. In this embodiment, the blade 44 of the elastic body is used, and this material is the same as in the first embodiment. This blade 44 is developed on the downstream side of the developer 28 of the hopper 29 and on the upstream side of the developing roller 22 with respect to the rotational direction of the developing roller 34. To the hopper 29 at a position where the other end acts to dig into the developing roller 34 by the frictional force received at the pressing contact when the other end is rotated by the developing roller 34. It is fixed. Therefore, there exists an effect which prevents aggregation or solidification of the developer 28 comrades. In the present embodiment, the blade 44 has a convex portion in the shape of the press contact portion with the developing roller 34. Therefore, since the opposing distance between the developing roller 34 and the blade 44 after the layer thickness is increased, the charged developer 28 on the developing roller 34 does not fly to the blade 44. Thus, more uniform coating can be achieved.

Next, a fifth embodiment of the present invention will be described. 16 shows a fifth embodiment of the present invention, in which parts having the same functions as those in the third embodiment of the present invention are assigned the same numbers.

In FIG. 16, the layer thickness regulating means 44 is a blade which is a rigid body or an elastic body. In this embodiment, the blade 44 of the elastic body is used, and this material is the same as in the first embodiment. This blade 44 is developed on the downstream side of the developer 28 of the hopper 29 and on the upstream side of the developing roller 22 with respect to the rotational direction of the developing roller 34. To the hopper 29 at a position where the other end acts to escape from the surface of the developing roller 34 by the frictional force received at the press-contacting portion when the other end is rotated by the developing roller 34. In this embodiment, the blade 44 has a convex portion in the shape of the developing roller 34 and the press contact portion. For this reason, the developer 28 partially scraped off from the blade 44 changes the flow in the direction of arrow A along the convex wall of the blade 44 by the force of the following developer 28 to form a cylindrical elastic body ( Drop to 35). As a result, the developer 28 is refluxed at the opposing portion between the developing roller 34 and the blade 44 near the pressure contact portion. Thus, more uniform coating can be achieved.

It goes without saying that the present invention is not only capable of the five embodiments described above, but also a plurality of configurations are possible depending on the charging of the developer, the coating to the developing roller, the layer thickness regulation, and the combination of the elements. In addition, the present invention is suitable for a nonmagnetic one-component developer, and has a configuration of non-contact with the latent image retainer, so that there is no blackening of the image, and the nonmagnetic one-component developer can be emergency developed by a direct current electric field. The practical effect is great, such as being advantageous in forming a color image in which a plurality of colors of developer are superimposed on the latent image retainer.

As described above, the present invention has a simple configuration, which makes it possible to broaden the constraint on the arrangement of the developing apparatus and to uniformly charge the developer on the developer carrier, and to form a uniform layer thickness thereon. It is possible to prevent contamination of the device by scattering of the toner and to obtain a high quality image without blackening and density spots.

Claims (23)

A developing apparatus for visualizing an electrostatic latent image formed on a latent image retainer, said means for coating a developer onto said developer carry member 34 along a moving direction of the developer carry member 34 moving in an endless shape. (35) and the developer carrier (34) of the coating means (35), which are disposed to face the layer thickness regulating means (44) for regulating the developer on the developer carrier to a predetermined thickness. And a partitioning means (39) of the developer disposed at a position different from the position opposite to the face, and a means for charging the developer. A developing apparatus according to claim 1, wherein the developer on the developer carrying member (34) and the latent image retaining member (22) are noncontact. The developing apparatus according to claim 2, further comprising means for applying a direct current electric field between the developing carrier (34) and the latent image retainer (22). 2. The hopper 29 according to claim 1, wherein the hopper 29, which has the outlet portion 30 at one end, accommodates the developer 28, the developer carrying member 34 mounted at the outlet portion, and one end thereof in the hopper. And a sheet-shaped elastic member (33) for fixing the part and urging the developer in the direction of the developer carrying member by restoring force of its other end. 2. A hopper 29 according to claim 1, wherein a hopper 29 having an outlet portion 30 at one end thereof contains a developer, a developer carrying member 34 mounted on the outlet portion, and a developer carrying member in the hopper. The elastic member 35 mounted to face the cylindrical elastic member 35 and its one end 49c is fixed in the hopper and the other end is brought into contact with the outer circumferential surface of the cylindrical elastic body so as to cooperate with rotation of the cylindrical elastic body, thereby restoring its own restoring force. And a rocking member (49) made of a sheet-shaped elastic material which vibrates by means of a developing device. The developing apparatus according to claim 1, wherein the layer thickness regulating means (44) is a blade of an elastic body. The developing apparatus according to claim 1, wherein the layer thickness regulating means (44) is a rigid bled. 7. The frictional force according to claim 6, wherein one end of the blade (44) is pointed and the other end is pressed against the surface of the developer carrying member (34), and the support point is brought about by frictional force received at the pressing contact during movement of the developer carrying member. A developing apparatus characterized in that it is installed at a position acting to dig into a developer carrying member, and at the same time, the shape of the pressure contact portion of the other end is convex. 8. The frictional force according to claim 7, wherein one end of the blade (44) is pointed and the other end is pressed against the surface of the developer carrying member (34), and the support point is brought about by frictional force received at the pressing contact during movement of the developer carrying member. A developing apparatus characterized in that it is installed at a position acting to dig into a developer carrying member, and at the same time, the shape of the pressure contact portion of the other end is convex. 7. The frictional force according to claim 6, wherein one end of the blade (44) is pointed and the other end is pressed against the surface of the developer carrying member (34), and the support point is brought about by frictional force received at the pressing contact during movement of the developer carrying member. A developing apparatus characterized in that it is installed at a position acting to escape from a surface of a developer carrying member, and the shape of the pressure contact portion of the other end is convex. A developer according to claim 1, wherein the means for charging the developer rotates the cylindrical elastic body (35) to cause relative movement between the developer (28) and the developing device component, A developing device, characterized in that the developer is triboelectrically charged by the frictional force between them. 12. The non-development developer according to claim 11, wherein the undeveloped developer reaches the counter portion by contacting the cylindrical elastic body downstream from the opposing portion between the cylindrical elastic body 35 and the developer carrying member 34 relative to the direction of rotation of the elastic body. A developing device, characterized in that the diaphragm 39 is installed so as not to. 12. The developing apparatus according to claim 11, wherein a scraping plate (38) which contacts the cylindrical elastic body (35), scrapes off the excess developer on the elastic body, and makes the developer on the elastic body uniform. . 12. The developing apparatus according to claim 11, wherein the electric field, which is a means for transferring the charged developer, is a voltage applying means for applying a voltage between the developer carrying member (34) and the cylindrical elastic member (35). The developing apparatus according to claim 14, wherein the voltage applying means (42) is a voltage obtained by superimposing a DC voltage on an AC voltage. 12. The cylindrical carrier according to claim 11, wherein the developer carrying member (34) is brought into contact with the cylindrical elastic body (35), and at the contacting position, the developer carrier and the cylindrical elastic body are moved in the forward direction and at the same time, A developing apparatus characterized by faster speed than the peripheral speed of the developer carrying member. 12. The developer carrier according to claim 11, wherein the developer carrier 34 is brought into contact with the cylindrical elastic body 35, and at the contact position, the developer carrier and the cylindrical elastic body are moved in the forward direction, and at the same time the peripheral speed of the developer carrier is increased. A developing apparatus characterized by faster speed than a cylindrical elastic body circumferential speed. 12. The developing apparatus according to claim 11, wherein the developer carrying member (34) and the cylindrical elastic member (35) face each other with a gap therebetween. 12. The developing apparatus according to claim 11, wherein the cylindrical elastic body (35) is a fur brush. 12. The developing apparatus according to claim 11, wherein the cylindrical elastic body (35) is a roller made of a sponge. 20. The developing apparatus according to claim 19, wherein the fur brush is conductive. The developing apparatus according to claim 20, wherein the roller made of sponge is conductive. The detecting means according to claim 11, wherein the developer carrying member 34 and the cylindrical elastic member 35 are formed of a conductive material, and the both of them are brought into contact with each other to detect the current value of the voltage application means placed therebetween ( 43) A developing apparatus characterized in that it is installed.

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