JP2001201927A - Developing device and image forming device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a developing device and an image forming device for supplying only non-magnetic toner among two-component developer including a non-magnetic toner and magnetic carriers to a toner carrier and developing an electrostatic latent image on an image carrier by using the non-magnetic toner on the toner carrier, in which the toner concentration is controlled by a simple small-sized device and an image of high image quality is obtained. SOLUTION: The device is provided with a developing roller 11 for carrying the non-magnetic toner, a supply roller 12 for carrying the two-component developer including the non-magnetic toner and the magnetic carrier and supplying only the non-magnetic toner among the two-component developer, a developer storing chamber 17 for storing the two-component developer carried by the supply roller, a toner storing part 16 adjacent to the developer storing chamber, and a communication hole 18 for supplying the non-magnetic toner from the toner storing part to the two-component developer stored in the developer storing chamber, and the supply amount of the non-magnetic toner to be supplied to the two-component developer stored in the developer storing chamber through the communication hole 18 is varied in accordance with the bulk fluctuation of the two-component developer caused by a change in toner concentration.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image forming apparatus such as a copying machine, a facsimile, a printer, and the like, and a developing device used for the same.

[0002]

2. Description of the Related Art A developing device used in the above-mentioned image forming apparatus includes a two-component developing device for developing an electrostatic latent image on an image carrier using a two-component developer containing a non-magnetic toner and a magnetic carrier. A one-component developing device for developing an electrostatic latent image on an image carrier using a toner as a one-component developer is known.
The one-component developing device has an advantage that the configuration is simple and the size can be reduced. In addition, since a magnetic carrier is not used, a phenomenon in which a magnetic brush of a magnetic carrier or a two-component developer hits an image carrier is not faithful to an electrostatic latent image and development unevenness occurs to some extent. No brush mark is generated. Therefore, the one-component developing device is excellent in reproducibility of a high-definition image. Above all, those using a non-magnetic one-component developer are excellent in colorization and are suitable as a developing device for obtaining a high-definition color image.

However, in a normal one-component developing device, the charge control of the toner is performed by a contact member (blade or roller) for forming a thin layer. Is difficult. Further, toner filming of the toner carrier due to pressurization of the contact member for forming the thin layer may occur, which may cause deterioration in image quality. In order to solve these problems, only a non-magnetic toner is supplied to a toner carrier from a two-component developer containing a non-magnetic toner and a magnetic carrier, the non-magnetic toner is caused to act on an image carrier, and an electrostatic latent image is formed. Various developing devices have been proposed.

For example, Japanese Patent Application Laid-Open No. 9-325615 discloses that "toner conveyed by a magnetic roll is brought into contact with the outer peripheral surface of a developing roll to attach a toner layer to the outer peripheral surface of the developing roll. In the developing device that develops an electrostatic latent image by acting on the developing roller, the developing roller configured by fitting a metal sleeve to the outer periphery of an elastic roll faces the outer peripheral surface of the magnet roll via a first facing gap. A magnetic brush is formed by adsorbing the toner-mixed magnetic powder obtained by mixing the non-magnetic one-component toner and the magnetic carrier on the outer peripheral surface of the magnetic roll, and rotating the magnetic roll to form a magnetic brush. Forming a stable toner layer on the outer peripheral surface of the developing roll by forming a first toner-mixed magnetic powder reservoir at an upstream portion of the first opposed gap portion. It has proposed a developing device "to the butterflies. Further, the developing device proposes to apply a bias to the magnetic roll so that the toner is attracted to the developing roll.

Japanese Patent Laid-Open Publication No. Hei 10-198161 discloses that “a developer container containing a developer containing a non-magnetic toner and a magnetic carrier, and a magnet rotatably disposed to carry and transport the developer. A developer carrying member, a developer regulating member formed of a non-magnetic member for regulating application of the developer on the developer carrying member and rotatably disposed, and disposed inside the developer regulating member. The developer is regulated by a magnetic field formed in cooperation with the developer carrying member magnetized by the magnetic field generating means and the magnetic field generating means. A developing device characterized in that only a non-magnetic toner is applied to the developer carrier.

In these developing devices, the charge control of the toner is performed at the stage of the two-component developer without using the contact member for forming the thin layer. For this reason, there is a great merit that it is possible to cope with the high speed and high durability of the charge control of the toner, which is a problem of the one-component developer, to the same level as the two-component developer. In addition, there is an advantage that there is no possibility that image quality is deteriorated due to toner filming.

[0007]

By the way, the toner charge of the two-component developer is largely controlled by the toner concentration. Therefore, an appropriate range of the toner concentration of the two-component developer and its control will be described.

First, an appropriate range of the toner concentration of a two-component developer in a conventional two-component developing device will be described. The toner concentration of the two-component developer can supply a sufficient amount of toner to obtain an image density, and the toner is sufficiently charged,
An appropriate range is determined so that a high-quality image can be obtained. If the toner concentration is too low, the toner supply amount will be insufficient. Further, there is a problem that the magnetic carrier is developed together with the toner and the carrier adheres to the image carrier. Also, if the toner concentration is too high, toner that cannot be sufficiently charged is generated and adheres to the background of the image carrier,
The problem of background contamination occurs. Therefore, it is necessary to control the toner concentration to an appropriate range that can supply a sufficient amount of toner and does not cause these problems. Specifically, the toner concentration is used in the range of 5 to 10% by weight. Further, in order to control the toner density in such a range, a method of strictly controlling the toner density using a toner density detection sensor and a toner replenishment control system has been generally used.

On the other hand, a two-component developer in a developing device that supplies only a non-magnetic toner to a toner carrier from a two-component developer containing a non-magnetic toner and a magnetic carrier and develops using the non-magnetic toner on the toner carrier The appropriate range of the toner density will be described. In the developing device proposed in JP-A-9-325615, the electric field formed between the magnetic roll and the developing roll is uniform. That is, a high electric field that easily causes carrier adhesion, such as that formed between the image portion of the image carrier and the developing roll, is not formed between the magnetic roll and the developing roll. Further, a low electric field is not formed, which is formed between the background portion of the image carrier and the developing roll and easily attaches the insufficiently charged toner to the image carrier.
For this reason, on the side where the toner concentration is low, carrier adhesion to the developing roll hardly occurs, and on the side where the toner concentration is high,
Insufficiently charged toner hardly adheres to the developing roller. In the developing device proposed in JP-A-10-198161, the magnetic carrier of the two-component developer is regulated by a constant magnetic field formed by a magnetic field generating means. Therefore, depending on the toner concentration, there is no possibility that the magnetic carrier will adhere to the developer carrying member.

[0010] From these facts, in a developing apparatus for supplying only a non-magnetic toner to a toner carrier from a two-component developer containing a non-magnetic toner and a magnetic carrier, and developing using the non-magnetic toner on the toner carrier. The toner concentration of the component developer becomes wider than the proper range of the toner concentration of the conventional two-component developing device. Specifically, it is possible to use the toner in a range of 2 to 15% by weight. Therefore, it is necessary to control the toner concentration in such a relatively wide range.
However, in the developing device disclosed in Japanese Patent Application Laid-Open No. 9-325615, there is no description about toner density control, and it is considered that it is difficult to keep the toner density in a desired range as it is. Further, it is conceivable to use a method of controlling the toner concentration using a general toner concentration detection sensor and a toner replenishment control system. This method can strictly control the toner concentration, but the apparatus becomes complicated and large, There is a disadvantage that it is expensive.

As a toner density detecting means, there has been proposed a method using a less expensive device instead of an expensive toner density sensor. For example, in a developing device that supplies only a toner from a two-component developer containing a toner and a magnetic carrier to a toner carrier, and develops using the toner on the toner carrier, a voltage is applied to the toner supply member and the toner carrier, respectively. And a method of detecting the toner concentration by dynamically measuring the current between the toner supply member and the toner carrier (see Japanese Patent Application Laid-Open No. Hei 9-114227). Although the method proposed in the publication has an improvement in that expensive parts are reduced in cost, the disadvantage that the apparatus is complicated and large remains, and further improvements are also made in terms of cost. desired.

In any case, the method using the toner density detecting means and the toner replenishment control system is excessive for controlling the toner density in a relatively wide range, and is suitable for controlling the toner density in a relatively wide range. Therefore, an easy method is desired.

The present invention has been made in view of the above problems, and has as its object to supply only a non-magnetic toner to a toner carrier from a two-component developer containing a non-magnetic toner and a magnetic carrier. A developing device and an image forming apparatus for developing an electrostatic latent image on an image carrier using a non-magnetic toner on the toner carrier and having excellent reproducibility of a high-definition image, wherein toner density control is simplified. It is an object of the present invention to provide a developing device and an image forming apparatus capable of performing a high-quality image by using a small-sized apparatus.

[0014]

In order to achieve the above object, according to the present invention, there is provided a toner carrier for carrying a non-magnetic toner and transporting the toner to a region opposed to an image carrier, and the toner carrier. And a toner supply member that carries and transports a two-component developer containing a non-magnetic toner and a magnetic carrier, and supplies only the non-magnetic toner to the toner carrier from the two-component developer. A two-component developer accommodating section for accommodating the two-component developer carried by the toner supply member, a toner accommodating section adjacent to the two-component developer accommodating section, for accommodating non-magnetic toner, and the toner A developing device provided with a communication hole for supplying non-magnetic toner from the storage section to the two-component developer in the two-component developer storage section, according to a change in bulk due to a change in toner concentration of the two-component developer. The two-component development through the communication hole. It is characterized in that it has configured to vary the supply amount of the non-magnetic toner to be supplied to the two-component developer in the accommodating portion.

According to the first aspect of the present invention, the supply amount of the non-magnetic toner supplied to the two-component developer through the communication hole is increased or decreased according to a change in the bulk due to a change in the toner concentration of the two-component developer. Control. Specifically, when the toner concentration of the two-component developer decreases and the bulk decreases, the non-magnetic toner in the toner storage unit is supplied to the two-component developer in the two-component developer storage unit through the communication hole. The non-magnetic toner supplied to the two-component developer through the communication hole is moved by the movement of the two-component developer.
Stir and mix with two-component developer. Thereby, the two-component developer takes in the non-magnetic toner and charges the non-magnetic toner. On the other hand, when the toner concentration of the two-component developer increases and the bulk increases, the two-component developer closes the communication hole, and the supply of the non-magnetic toner in the toner container stops. In this way, the toner concentration of the two-component developer is self-controlled by a small and simple device without using the toner concentration detecting means and the toner replenishment control system. Further, the charging control of the non-magnetic toner is performed at the stage of the two-component developer having an appropriate toner concentration, so that it can be surely performed. The toner supply member carries and conveys such a two-component developer, and a non-magnetic toner, which has a sufficient amount of toner and is reliably charged controlled, is supplied to the toner carrier at a portion facing the toner supply member and the toner carrier. To supply.

According to a second aspect of the present invention, in the developing device of the first aspect, the toner supply member is a rotatable non-magnetic sleeve having a magnetic field generating means fixed inside. is there.

In the developing device according to the second aspect, the non-magnetic toner supplied to the two-component developer in the two-component developer accommodating portion through the communication hole is separated from the two-component developer by the movement of the two-component developer. Stir and mix. Here, when a rotatable non-magnetic sleeve having a magnetic field generating means fixed inside is used as the toner supply member, the magnetic force of the internal fixed magnetic field generating means is stronger than when a multi-pole magnet roller is used. By doing so, the magnetic force of the toner supply member can be easily increased, and the magnetic force can be applied to a wide area in the two-component developer accommodating portion. Due to the magnetic force over a wide range and the rotation of the sleeve carrying the two-component developer, the movement of the two-component developer can be activated and the non-magnetic toner and the two-component developer can be stirred and mixed. Thereby, the toner concentration of the two-component developer can be made uniform, and the charging control of the non-magnetic toner can be reliably performed. Also,
The non-magnetic toner and the two-component developer can be stirred and mixed by vigorous movement of the two-component developer without separately providing a stirring member for stirring the two-component developer in the two-component developer storage section. In addition, the developing device can be made small and simple.

According to a third aspect of the present invention, in the developing device of the first aspect, the first regulating member regulates an amount of the two-component developer carried and conveyed by the toner supply member; A second regulating member disposed upstream of the regulating member in the conveying direction of the two-component developer on the toner supply member, wherein the two-component developer accommodating portion is scraped off by the first regulating member. Disposed to accommodate the two-component developer,
When the toner concentration of the two-component developer on the toner supply member increases and the bulk increases, the gap between the second regulating member and the toner supply member is increased by the amount of increase in the bulk of the two-component developer. It is characterized in that it is set to regulate.

According to the third aspect of the present invention, when the toner concentration of the two-component developer on the toner supply member is reduced and the bulk is reduced, the non-magnetic toner in the toner container is transferred to the toner supply member through the communication hole. Is supplied to the two-component developer. The two-component developer on the toner supply member takes in the supplied non-magnetic toner and conveys it into the two-component developer storage. In the two-component developer accommodating portion, the rotation of the non-magnetic sleeve and the circulating motion of the two-component developer caused by the magnetic force of the magnetic field generating means fixed therein cause the two-component developer and the non-magnetic toner to be stirred. Then, the toner is supplied to the two-component developer in the developer accommodating portion, the toner concentration is made uniform, and the non-magnetic toner is charged. On the other hand, when the toner concentration of the two-component developer on the toner supply member increases and the bulk increases, the second regulating member regulates the passage of the increased bulk of the two-component developer on the toner supply member. Then, the increased amount of the two-component developer regulated by the second regulating member accumulates in the communication hole. The increased amount of the two-component developer accumulated in the communication hole prevents the non-magnetic toner from being supplied to the two-component developer on the toner supply member through the communication hole. Therefore, the supply of the non-magnetic toner to the two-component developer in the two-component developer accommodating section also stops. In this way, the toner concentration of the two-component developer is self-controlled by a small and simple device without using the toner concentration detecting means and the toner replenishment control system. Also, due to the circulation movement of the two-component developer in the two-component developer storage section,
Since the non-magnetic toner can be sufficiently stirred with the two-component developer, the toner concentration can be further uniformed, and the charging control of the non-magnetic toner can be reliably performed. In this way, it is possible to prevent the bias of the toner concentration of the two-component developer and the partial charging failure, so that a sufficient amount of toner from the two-component developer to the toner carrier is reliably controlled in the non-magnetic state. Toner can be supplied.

According to a fourth aspect of the present invention, in the developing device of the first aspect, the toner supply member is a multi-pole magnet roller.

In the developing device according to the fourth aspect, the multipolar magnet roller used as the toner supply member is cheaper and easier to reduce in size than a rotatable non-magnetic sleeve having a magnetic field generating means fixed inside. Therefore, the developing device can be made small and inexpensive.

According to a fifth aspect of the present invention, in the developing device of the second, third or fourth aspect, a two-component developer stirring member is provided in the two-component developer storage section.

In the developing device according to the present invention, since the two-component developer stirring member for stirring the two-component developer in the two-component developer accommodating portion is provided, the non-magnetic toner is removed in the two-component developer accommodating chamber. The component developer can be sufficiently stirred.
Further, the toner density in the axial direction in the two-component developer accommodating portion can be made uniform, and the charging control of the non-magnetic toner can be more reliably performed. In this way, it is possible to prevent the bias of the toner concentration of the two-component developer and the partial charging failure, so that a sufficient amount of toner from the two-component developer to the toner carrier is reliably controlled in the non-magnetic state. Toner can be supplied.

According to a sixth aspect of the present invention, there is provided an image forming apparatus comprising: an image carrier for carrying an electrostatic latent image; and a developing device for developing the electrostatic latent image on the image carrier with a non-magnetic toner. , Wherein the developing device according to claim 1, 2, 3, 4 or 5 is used as the developing device.

According to the image forming apparatus of the present invention, the toner concentration of the two-component developer containing the non-magnetic toner and the magnetic carrier is controlled to an appropriate range by a small and simple means, so that the non-magnetic toner can be reliably formed. Can be controlled.
Then, a sufficient amount of non-magnetic toner whose charge is reliably controlled is supplied to the toner carrier, and the electrostatic latent image on the image carrier is developed using the non-magnetic toner. With the device, a high-definition, high-quality image without magnetic brush marks can be obtained.

[0026]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A first embodiment in which the present invention is applied to an image forming apparatus such as a copying machine, a facsimile, a printer and the like will be described below. FIG. 1 is a schematic configuration diagram of a main part of the image forming apparatus according to the first embodiment. The image forming apparatus shown in FIG.
A charging device 2 for charging the surface of the photoconductor 1; an exposure device 3 as a latent image forming means for irradiating the photoconductor 1 with a laser beam or the like to form an electrostatic latent image; an electrostatic latent image formed on the photoconductor 1 A developing device 4 for forming a toner image by adhering charged toner, a transfer device 5 for transferring the toner image formed on the photoreceptor 1 to transfer paper as a transfer member, and a transfer device 5 on the photoreceptor 1 after the transfer. A cleaning device 6 for removing the remaining toner and a charge removing device 7 for removing the residual potential on the photoconductor 1 are sequentially provided. Further, a paper feeder (not shown) that feeds the transfer paper from a paper feed tray (not shown), and a fixing device (not shown) that fixes the toner to the transfer paper after the transfer paper on which the toner image has been transferred is separated from the photoconductor 1. And are provided.

In the image forming apparatus constructed as described above, the surface of the photosensitive member 1 rotating in the direction of arrow a is
After that, the laser beam of the exposure device 3 is irradiated based on the image information to form a latent image on the photoreceptor 1. A toner image is formed by attaching toner charged by the developing device 4 to the electrostatic latent image formed on the photoconductor 1. On the other hand, the transfer paper is fed from a paper feed tray by a paper feeder (not shown), and is then transported to a transfer unit where the photoconductor 1 and the transfer device 5 face each other. Then, the transfer device 5 applies a charge having a polarity opposite to that of the toner image on the photoconductor 1 to the transfer paper, thereby transferring the toner image formed on the photoconductor 1 to the transfer paper. Next, the transfer paper is separated from the photoreceptor 1, sent to a fixing device (not shown), and an image is obtained by fixing the toner to the transfer paper.

Next, the developing device 4 employed in the image forming apparatus will be described in detail. FIG. 2 is a schematic configuration diagram of the developing device. Developing roller 11 as toner carrier
A supply roller 12 serving as a toner supply member that carries and transports a two-component developer composed of a non-magnetic toner and a magnetic carrier, and supplies only the non-magnetic toner to the developing roller 11 from the two-component developer; A developer accommodating chamber 17 as a developer accommodating section; a doctor blade 14 for regulating the layer thickness of the two-component developer on the supply roller 12;
, A toner storage chamber 16 for storing non-magnetic toner, a developing housing 19 and the like. Further, the developing roller 11
And a power source 22 for applying a predetermined bias Vs to the supply roller 12.

The developing roller 11 has a hardness of 10 to 6 on a cored bar.
It has an elastic layer of 0 degree (JISA), and the outermost layer is an elastic roller made of a material having higher hardness. The surface roughness of the developing roller 11 is preferably a smooth abrasion-resistant layer having a surface roughness Ra of 5% or less of the toner volume average particle diameter.
For example, when a toner having a volume average particle diameter of 10 μm is used, the surface roughness Ra of the developing roller 11 is set to about 0.5 μm. A supply roller 12 that carries and conveys a two-component developer composed of a non-magnetic toner and a magnetic carrier is provided so as to face the development roller 11 and supplies the non-magnetic toner in the two-component developer to the development roller 11. Have been. The supply roller 12 includes a fixed magnet 13 as a magnetic field generating means,
It comprises a non-magnetic sleeve rotatably supported around the fixed magnet 13. Further, the doctor blade 14 is disposed with a constant gap from the supply roller 12 in order to regulate the thickness of the two-component developer on the supply roller 12. Further, on the upstream side of the doctor blade 14 in the rotation direction of the supply roller 12, the developer accommodating chamber 1 for accommodating the two-component developer blocked by the doctor blade 14 is provided.
7 are formed. At the lower end of the developer storage chamber 17,
A pre-doctor 15 is formed near the supply roller 12. The pre-doctor 15 is arranged so as to maintain a constant gap with the supply roller 12 so as to regulate the increase of the two-component developer when the toner concentration of the two-component developer increases and the layer thickness of the two-component developer increases. Have been. Further, adjacent to the developer accommodating chamber 17, a toner accommodating section 16 for accommodating non-magnetic toner is provided. Then, the developer accommodating chamber 17
The space between the lower end of the case and the developing case 19 facing the lower end forms a communication hole 18 for supplying the non-magnetic toner in the toner storage section 16 to the two-component developer in the developer storage chamber 17. ing. An agitator 20 as a toner conveying member for feeding the non-magnetic toner toward the communication hole 18 while stirring the toner is provided in the toner container 12.

Next, the behavior of the developer in the developing device 4 will be described. The layer thickness of the two-component developer carried on the supply roller 12 is regulated by the doctor blade 14, and is conveyed to a portion facing the developing roller 11 in an appropriate layer thickness. Then, the power supply 22 is supplied to the supply roller 12.
When a more predetermined bias Vs is applied, the supply roller 12
Only the non-magnetic toner in the two-component developer carried on
It is supplied to the developing roller 11. The non-magnetic toner supplied onto the developing roller 11 is rotated by the rotation 11 of the developing roller.
The photoconductor 1 is transported to a development area facing the photoconductor 1. And
By applying a predetermined bias Vd to the developing roller 11 from the power supply 21, non-magnetic toner is supplied to the electrostatic latent image formed on the photoreceptor 1 to form a toner image.

The supply amount of the non-magnetic toner from the supply roller 12 to the developing roller 11 is determined by the supply roller 12 and the developing roller 11.
, The electric field strength, the electric resistance value of the two-component developer of the supply roller 12, the toner concentration, and the like. Therefore, by selecting these conditions to appropriate values,
An appropriate toner supply amount can be obtained.

Here, the appropriate range of the toner concentration of the two-component developer will be described. In a conventional two-component developing device, an appropriate range of toner density is determined so that a sufficient amount of toner can be supplied to obtain an image density, and the toner is sufficiently charged to obtain a high-quality image. I have. If the toner concentration is too low, there is a problem that the amount of supplied toner is insufficient and that the carrier adheres to the photoconductor. On the other hand, if the toner concentration is too high, toner that cannot be sufficiently charged is generated and adheres to the background portion of the photoreceptor, causing a background contamination problem. Therefore, it is necessary to control the toner concentration to an appropriate range that can supply a sufficient amount of toner and does not cause these problems. Specifically, the toner concentration is 5
It is used in the range of 10% by weight. Further, in order to control the toner density in such a range, a method of strictly controlling the toner density using a toner density detection sensor and a toner replenishment control system has been generally used. On the other hand, in the developing device 4 of the first embodiment, the electric field formed between the supply roller 12 and the developing roller 11 is a uniform electric field. In other words, between the supply roll 12 and the developing roll 11, an image is formed between the image portion of the photoconductor 1 and the developing roll 11.
A high electric field that easily causes carrier adhesion is not formed. Further, a low electric field is not formed, which is formed between the background portion of the photoreceptor 1 and the developing roll 11 and easily attaches the toner that cannot be sufficiently charged to the image carrier. For this reason, the magnetic carrier hardly adheres to the developing roll 11 on the side where the toner concentration is low. Further, even on the side where the toner concentration is high, the toner that has not been sufficiently charged hardly adheres to the developing roller 11. For these reasons, the toner concentration of the two-component developer on the supply roller 12 becomes wider than the proper range of the toner concentration of the conventional two-component developing device. Specifically, the toner concentration is 2 to 15% by weight.
It can be extended to use.

Therefore, in the developing device 4, the supply roller 12
The toner concentration of the two-component developer is controlled so as to be within the above-mentioned appropriate range. The details will be described below. The non-magnetic toner in the toner container 16 is sent out toward the communication hole 18 by the agitator 20. In the vicinity of the pre-doctor 15 in the communication hole 18, a contact portion is formed in which the non-magnetic toner sent out from the inside of the toner container 16 and the two-component developer on the supply sleeve 12 come into contact. The non-magnetic toner in the communication hole 18 is supplied to the two-component developer on the supply roller 12 from this contact portion. The supplied toner is conveyed into the developer accommodating chamber 17 by the rotation of the supply roller. In the developer accommodating chamber 17, the rotation of the supply roller 12 and the fixed magnet 1
The circulating movement of the two-component developer occurs due to the magnetic force of No. 3. By the circulating motion of the two-component developer, the non-magnetic toner and the magnetic carrier of the two-component developer are agitated to make the toner concentration uniform and the toner is charged by the magnetic carrier. As described above, the non-magnetic toner can be sufficiently stirred with the two-component developer by the circulating motion of the two-component developer in the developer accommodating chamber 17, so that the toner concentration can be made uniform and the partial In addition, it is possible to prevent a bias in the toner concentration, and to surely control the charging of the non-magnetic toner.

Further, as shown in FIG. 3, a two-component developer stirring member 23 for stirring the two-component developer in the two-component developer storage chamber 17 is provided, and the non-magnetic toner and the magnetic carrier of the two-component developer are provided. May be activated. Further, by providing the two-component developer stirring member 23, the toner concentration in the axial direction of the supply roller 12 can be further uniformed, and the charge control of the non-magnetic toner can be reliably performed. As a specific shape of the two-component developer stirring member 23, a plurality of thin linear members are rotated by rotating the two-component developer stirring member 23 so that the fluctuation of the bulk of the developer near the predoctor 16 is reduced. Are preferred.

In the developing device 4, the proper range of the toner density is wider than that of the conventional two-component developing device. Therefore, without using a method for strictly controlling the toner concentration using the toner concentration detecting means and the toner replenishment control system, the above-described simple and compact developing device can be used.
By controlling the toner concentration of the two-component developer within an appropriate range, it is possible to satisfactorily charge the non-magnetic toner.

The supply roller 12 and the developing roller 11
In the opposite portion of the non-magnetic toner, the charge control of the non-magnetic toner from the two-component developer having the toner concentration in an appropriate range
It is supplied to the developing roller 11. Further, in order to stabilize the toner supply amount from the supply roller 12 to the developing roller 11, for example, the electric field intensity between the supply roller 12 and the developing roller 11 is sufficiently increased, or an AC electric field is superimposed. Thereby, most of the non-magnetic toner in the two-component developer carried on the supply roller 3 can be stably supplied to the developing roller 11.

When the electrostatic latent image formed on the photosensitive member 1 is developed with the non-magnetic toner on the developing roller 11, the latent image portion of the high-density image on the photosensitive member 1 An image can be stabilized by selecting the bias Vd at which a developing electric field in which most of the magnetic toner is transferred is formed. In this way, a sufficient amount of the non-magnetic toner whose charge is reliably controlled is supplied to the developing roller 1, and only the non-magnetic toner is applied to the photoconductor 1 to develop the electrostatic latent image on the photoconductor 1. Therefore, a high-definition, high-quality image without a magnetic brush mark can be obtained.

Further, as a modified example of the developing device 4, a removing means such as a blade, a brush, a roller, or the like for removing the residual toner not consumed on the developing roller 11 after passing through the developing area may be provided. By supplying the new non-magnetic toner from the supply roller 12 after the developing roller 11 is initialized by the residual toner removing unit, the amount of toner on the developing roller 11 and the chargeability of the toner can be further stabilized. it can.

Further, the developing roller 11 is made of two-component developer.
After supplying the non-magnetic toner to the developing roller 11, a thin layer shaping / uniformizing member facing the toner layer on the developing roller 11 and a toner charge increasing means (blade, voltage applying roller, etc.) contacting the toner layer are provided to increase the speed. You may respond.

As described above, in the first embodiment,
Only the non-magnetic toner is supplied to the developing roller 11 from the two-component developer containing the non-magnetic toner and the magnetic carrier, and the electrostatic latent image on the photoconductor 1 is developed using the non-magnetic toner on the developing roller 11. A simple and small image forming apparatus can be provided.

Next, a second embodiment according to the present invention will be described. The image forming apparatus according to the second embodiment differs from the first embodiment only in the developing device employed, and the other parts are the same as in the first embodiment.
Hereinafter, the developing device employed in the second embodiment will be described in detail. FIG. 4 is a schematic configuration diagram of the developing device 4 employed in the second embodiment. A developing roller 11 as a toner carrier, and a toner supply member that carries and transports a two-component developer composed of a non-magnetic toner and a magnetic carrier, and supplies only the non-magnetic toner to the developing roller 11 from the two-component developer. Supply roller 24, developer storage chamber 17 as a two-component developer storage section, doctor blade 14 for regulating the layer thickness of two-component developer on supply roller 12, and toner storage chamber for storing non-magnetic toner 16 and the developing case 19
And so on. Further, a power supply 21 for applying a predetermined bias Vd to the developing roller 11 and a power supply 22 for applying a predetermined bias Vs to the supply roller 12 are provided.

The developing roller 11 is the same as in the first embodiment. A supply roller 24 that carries and transports a two-component developer composed of a non-magnetic toner and a magnetic carrier and that supplies the non-magnetic toner in the two-component developer to the developing roller 11 is provided so as to face the developing roller 11. Have been. The supply roller 24 is a multi-pole magnet type roller. Also,
The doctor blade 14 is arranged with a constant gap from the supply roller 12 in order to regulate the thickness of the two-component developer on the supply roller 24. And, on the upstream side in the rotation direction of the supply roller 24 of the doctor blade 14,
A developer accommodating chamber 17 for accommodating the two-component developer blocked by the doctor blade 14 is formed. A two-component developer stirring member 23 for stirring the two-component developer in the developer storage chamber 17 is provided in the developer storage chamber 17. Further, a toner storage section 16 for storing non-magnetic toner is disposed adjacent to and above the developer storage chamber 17. In addition, a communication hole 18 that communicates the developer storage chamber 17 with the toner storage unit 16 is provided. An agitator 20 as a toner conveying member for feeding the toner toward the communication hole 18 while stirring the toner is provided in the toner container 12.

Next, the behavior of the developer in the developing device 4 will be described. Only the non-magnetic toner is supplied to the developing roller 11 from the two-component developer carried and conveyed by the supply roller 12, and the toner supplied on the developing roller 11 is applied to the photoreceptor 1. The process of developing the electrostatic latent image formed thereon is the same as in the first embodiment. . Control of the toner concentration of the two-component developer in the developing device 4 employed in the second embodiment will be described. The non-magnetic toner in the toner container 16 is sent out toward the communication hole 18 by the agitator 20. The non-magnetic toner sent out of the toner storage section 16 through the communication hole 18 is supplied into the developer storage chamber 17. The supplied non-magnetic toner is mixed and stirred by the two-component developer stirring member 23 that stirs the two-component developer in the two-component developer accommodating chamber 17 to make the toner concentration uniform. At the same time, the toner is charged by the magnetic carrier. On the other hand, when the toner concentration of the two-component developer in the developer storage chamber 17 increases and the bulk of the two-component developer increases, the communication hole 18 is blocked by the two-component developer. For this reason, the supply of the non-magnetic toner into the two-component developer storage chamber is stopped, and the rise in the toner concentration stops. In this way, the toner concentration of the two-component developer in the two-component developer storage chamber is self-controlled. Therefore, the supply roller 12 is used to
7, a two-component developer whose toner concentration is controlled in an appropriate range is carried and conveyed, and the non-magnetic toner whose charge is reliably controlled is supplied to the developing roller 11 at a portion facing the developing roller 11. .

In the developing device 4, the proper range of the toner density is wider than that of the conventional two-component developing device. Therefore, without using a method for strictly controlling the toner concentration using the toner concentration detecting means and the toner replenishment control system, the above-described simple and compact developing device can be used.
By controlling the toner concentration of the two-component developer within an appropriate range, it is possible to satisfactorily charge the non-magnetic toner.

In the developing device 4, the supply roller 2
4 uses a multi-pole magnet roller. Multi-pole magnet rollers are cheaper and easier to miniaturize than rotatable non-magnetic sleeves having magnetic field generating means fixed inside. Therefore, the developing device can be made small and inexpensive.

Further, as shown in FIG. 5, the toner storage section 16 may be arranged beside the developer storage chamber 17. In this case, the magnetic carrier in the developer accommodating chamber 17 does not leak to the toner accommodating section 16, and the non-magnetic toner can be moved from the toner accommodating section 16 to the developer accommodating chamber 17. A mesh filter 25 having an opening is provided.

As described above, in the second embodiment,
Only the non-magnetic toner is supplied to the developing roller 11 from the two-component developer containing the non-magnetic toner and the magnetic carrier, and the electrostatic latent image on the photoconductor 1 is developed using the non-magnetic toner on the developing roller 11. Thus, a simple and small image forming apparatus can be provided.

[0048]

According to the present invention, only the non-magnetic toner is supplied to the toner carrier from the two-component developer containing the non-magnetic toner and the magnetic carrier, and the non-magnetic toner on the toner carrier is provided. A developing device and an image forming device that use a toner to develop an electrostatic latent image on an image carrier and have excellent reproducibility of a high-definition image. There is an excellent effect that it is possible to provide a developing device and an image forming device capable of obtaining a high-quality image.

In particular, according to the second aspect of the present invention, since the toner concentration of the two-component developer can be made uniform and the charging control of the non-magnetic toner can be reliably performed, a high quality image can be obtained. There is an excellent effect that it can be. . Further, since there is no need to separately provide a two-component developer stirring member in the two-component developer accommodating portion, there is an excellent effect that the developing device can be made small and simple.

In particular, according to the third aspect of the present invention, an excellent effect that partial unevenness in the amount of non-magnetic toner supplied to the toner carrier and partial charging failure can be prevented. is there.

In particular, according to the fourth aspect of the invention, there is an excellent effect that the developing device can be realized as a smaller and less expensive developing device.

In particular, according to the invention of claim 5, there is an excellent effect that partial unevenness in the amount of non-magnetic toner supplied to the toner carrier and partial charging failure can be prevented. is there.

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram of an image forming apparatus according to a first embodiment.

FIG. 2 is a schematic configuration diagram of a developing device employed in the image forming apparatus according to the first embodiment.

FIG. 3 is a modified example of a developing device employed in the image forming apparatus according to the first embodiment.

FIG. 4 is a schematic configuration diagram of a developing device employed in an image forming apparatus according to a second embodiment.

FIG. 5 is a modified example of the developing device employed in the image forming apparatus according to the second embodiment.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Photoconductor 2 Charging device 3 Exposure device 4 Developing device 5 Transfer device 6 Cleaning device 7 Static elimination device 11 Developing roller 12 Supply roller 13 Fixed magnet 14 Doctor blade 15 Predoctor 16 Toner storage part 17 Developer storage chamber 18 Communication hole 19 Developing case Body 20 Agitator 21 Power supply 22 Power supply 23 Two-component developer stirring member 24 Multipolar magnet roller 25 Filter 30 Two-component development 31 Non-magnetic toner

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Takashi Hojima 1-3-6 Nakamagome, Ota-ku, Tokyo Inside Ricoh Company (72) Inventor Junichi Matsumoto 1-3-6 Nakamagome, Ota-ku, Tokyo Stock F-term in Ricoh Company (reference) 2H077 AB04 AB13 AC04 AC12 AD06 AD13 AD18 AD35 AE06 AE10 BA08 EA03 FA01 FA22

Claims (6)

[Claims] A two-component toner carrier that carries a non-magnetic toner and conveys the toner carrier to an area facing the image carrier; and a non-magnetic toner and a magnetic carrier that are disposed to face the toner carrier. A toner supply member that carries and transports the developer and supplies only the non-magnetic toner to the toner carrier from the two-component developer, and a two-component housing the two-component developer supported by the toner supply member A developer container, a toner container adjacent to the two-component developer container for storing non-magnetic toner, and a non-magnetic toner from the toner container to the two-component developer in the two-component developer container. And a communication hole for supplying the two-component developer. The two-component developer in the two-component developer accommodating portion through the communication hole according to the increase or decrease of the bulk due to the change in the toner concentration of the two-component developer. The amount of non-magnetic toner supplied to the developer A developing device characterized in that the developing device is configured to change. 2. The developing device according to claim 1, wherein said toner supply member is a rotatable non-magnetic sleeve having a magnetic field generating means fixed inside. 3. The developing device according to claim 1, wherein the first regulating member regulates an amount of the two-component developer carried and conveyed by the toner supply member, and the toner supply member is more than the first regulating member. A second regulating member disposed on the upstream side in the conveying direction of the two-component developer on the member, wherein the two-component developer accommodating portion receives the two-component developer scraped off by the first regulating member. The two-component developer is disposed so as to house the gap between the second regulating member and the toner supply member when the toner concentration of the two-component developer on the toner supply member increases and the bulk increases. A developing device characterized in that an increase in the bulk of the developer is set to be restricted. 4. The developing device according to claim 1, wherein said toner supply member is a multi-pole magnet roller. 5. The developing device according to claim 2, wherein a two-component developer stirring member is provided in said two-component developer accommodating portion. 6. An image forming apparatus comprising: an image carrier for carrying an electrostatic latent image; and a developing device for developing the electrostatic latent image on the image carrier with a non-magnetic toner. An image forming apparatus using the developing device according to claim 1, 2, 3, 4, or 5.