JP2007121471A - Image forming apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image forming apparatus, capable of facilitating replacement of a toner filter, and suppressing generation of toner cloud over a long time. <P>SOLUTION: The image forming apparatus is equipped with a toner bottle 15Y, which contains toner and supplies the toner to a developing unit 14Y, wherein the toner bottle 15Y is equipped with a duct unit 152Y which is connected to an opening part 142Y for exhaustion provided to the developing unit 14Y, to discharges air in the developing unit 14Y; and a toner filter 1523Y arranged in the duct unit 152Y. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an image forming apparatus.

  2. Description of the Related Art Conventionally, as a technique for reducing toner cloud from a developing device, an image forming apparatus is known in which a pressure relief hole is provided in the developing device to release air in the developing device. Since the air escaped from the pressure release hole contains toner, it is necessary to collect the toner in the air with a filter such as cloth, paper, or non-woven fabric. However, when the toner in the air is collected by the filter as described above, the toner may clog the filter due to long-term use, and the air may not easily escape. If the air is difficult to escape, there is a problem that the pressure in the developing device increases and toner cloud generation cannot be suppressed.

  As a technique for solving such a problem, an image forming apparatus is proposed in which a filter unit is detachably attached to the image carrier unit, and the filter unit can be easily attached and detached during maintenance of the image forming apparatus. (See Patent Document 1). By replacing the filter unit, the reduction in toner cloud can be maintained.

JP-A-5-346728

  However, in the above-described image forming apparatus, it is necessary to replace the filter unit by a user or a service person. For this reason, there is a problem that the user's hand is bothered in replacing the filter unit and the service cost is increased.

  In view of the above circumstances, an object of the present invention is to provide an image forming apparatus that can easily replace a toner filter and can suppress the occurrence of toner cloud for a long period of time.

  An object of the present invention is to provide an image forming apparatus including a toner bottle that stores toner and supplies the toner to a developing device, and the toner bottle includes a toner filter that collects toner in the air in the developing device. Can be achieved.

  With this configuration, since the toner filter can be replaced when the toner bottle is replaced, the toner filter can be easily replaced. In addition, when the toner bottle is replaced, the toner filter is also replaced, so that the occurrence of toner cloud can be suppressed for a long time.

  The toner bottle includes a duct portion that is connected to an opening provided in the developing device and draws out air in the developing device to the outside, and the toner filter is disposed in the duct portion. Can be achieved by equipment.

  With this configuration, it is possible to prevent an increase in pressure in the developing device and to suppress the occurrence of toner cloud. Further, the toner can be efficiently collected by the toner filter.

  Further, the toner bottle is formed with a connection hole for connecting the opening provided in the developing device and the duct part, and the toner filter is arranged in a region where the connection hole is not formed. This can also be achieved by an image forming apparatus.

  Since it is not possible to form a large opening or connecting hole for the purpose of preventing toner from entering the duct, the toner filter is arranged in a region where the connecting hole is not formed. Is possible. As a result, the amount of toner collected by the toner filter also increases, so that clogging of the toner filter can be suppressed and the replacement timing of the toner filter can be delayed. Therefore, the toner filter can be prevented from being clogged before the timing for replacing the toner bottle. Further, since the clogging of the toner filter can be suppressed by arranging the toner filter having a large area, the generation of the toner cloud can be suppressed for a long time.

  It can also be achieved by an image forming apparatus provided with an adhesion preventing means for preventing toner in the developing device from adhering to the toner filter.

  With this configuration, the toner filter can be prevented from being clogged due to the toner in the developing device adhering to the toner filter. Thereby, generation | occurrence | production of a toner cloud can be suppressed for a long term.

  It can also be achieved by an image forming apparatus provided with a blowing means for forcibly blowing the air in the developing device to the outside.

  With this configuration, it is possible to prevent an increase in pressure in the developing device and to suppress the generation of toner cloud for a long period of time.

  According to the present invention, it is possible to provide an image forming apparatus capable of facilitating replacement of a toner filter and suppressing generation of a toner cloud for a long period of time.

Hereinafter, embodiments of the present invention will be described.
FIG. 1 is a configuration diagram of an image forming apparatus according to the present invention. The image forming apparatus includes a photosensitive member 1, a charging roller 2, a latent image forming device 3, a developing rotary unit 4, an intermediate transfer member 5, a driving roller 7a, a driven roller 7b, a primary transfer roller 8, a cleaning device 10, and a secondary transfer. And a roller 11.

  The photoreceptor 1 is rotationally driven in the direction of the arrow, and the surface thereof is uniformly charged by the charging roller 2. Next, exposure by the laser beam 3a is performed from the latent image forming apparatus 3, and a first electrostatic latent image is formed. The electrostatic latent image formed in this way is developed and visualized by the developing rotary unit 4.

  The developing rotary unit 4 includes a plurality of developing units 100Y, 100M, 100C, and 100K having different toner colors. Each of the developing units 100Y, 100M, 100C, and 100K includes a developing sleeve, a first developing unit 100Y that includes yellow toner, a second developing unit 100M that includes magenta toner, and cyan toner. The third developing unit 100C and the fourth developing unit 100K containing black toner are integrated. Each of the developing units 100Y, 100M, 100C, and 100K includes developing units (developing devices) 14Y, 14M, 14C, and 14K, and toner bottles 15Y, 15M, 15C, and 15K. First, the electrostatic latent image is developed and visualized by the first developing unit 100Y containing yellow toner as the first color toner.

  The visualized yellow toner image on the photosensitive member 1 is rotated in the direction of the arrow and electrostatically transferred (1) to the surface of the intermediate transfer member 5 at the primary transfer position facing the intermediate transfer member 5 forming a belt shape. Next transfer). The intermediate transfer member 5 is supported by the driving roller 7a and the driven roller 7b, and is pressed against the photosensitive member 1 with a predetermined pressing force by the primary transfer roller 8, and the peripheral speed of the photosensitive member 1 is increased. The photosensitive member 1 is driven to rotate in the forward direction with respect to the rotational direction of the photosensitive member 1 at a substantially constant peripheral speed. The toner image formed on the surface of the photoreceptor 1 as described above is applied to the primary transfer roller 8 by a high voltage power supply (not shown) having a voltage (1 By applying a (next transfer bias), electrostatic transfer (primary transfer) is performed on the surface of the intermediate transfer member 5. The primary transfer residual toner remaining on the surface of the photoconductor 1 after the primary transfer is removed by the cleaning device 10 is removed.

  The above process is repeated three times, each time a magenta toner image developed with magenta toner, a cyan toner image developed with cyan toner, and a black toner image developed with black toner image are sequentially transferred onto the surface of the intermediate transfer member 5; Laminated. Thereafter, the secondary transfer roller 11 that has been separated from the surface of the intermediate transfer member 5 is pressed against the driven roller 7c via the intermediate transfer member 5 with a predetermined pressing force and is rotationally driven. The secondary transfer roller 11 is applied to a secondary transfer position by applying a voltage (secondary transfer bias) having a polarity opposite to the normal charging polarity of the toner from a high voltage power source (not shown). The toner images formed by being sequentially laminated on the surface of the intermediate transfer member 5 are transferred collectively (secondary transfer) onto the surface of the transfer material P conveyed at a predetermined timing, and this transfer material P is transferred to a fixing device (not shown). ), And after being fixed as a permanent image, it is discharged outside the apparatus.

Next, the toner bottle provided in each developing unit will be described. The developing unit 100Y will be described as an example.
FIG. 2 is a configuration diagram illustrating an outline of the toner bottle 15Y.
The toner bottle 15Y includes a toner storage portion 151Y and a duct portion 152Y. The toner storage portion 151Y and the duct portion 152Y are separated by a partition plate 150Y provided inside the toner bottle 15Y. The toner storage unit 151Y stores yellow toner. The toner storage portion 151Y has a replenishment opening 1511Y for replenishing yellow toner to the developing portion 14Y described later.
A first opening (connection hole) 1521Y and a second opening 1522Y are formed in the duct portion 152Y. The first opening 1521Y and the second opening 1522Y are formed at positions facing each other. The second opening 1522Y is formed larger than the first opening 1521Y. The supply opening 1511Y and the first opening 1521Y are formed on substantially the same side surface of the toner bottle 15Y.
Further, the duct portion 152Y is connected to the exhaust opening 1421Y and draws the air in the developing portion 14Y to the outside. Details will be described later. A toner filter 1523Y is disposed in the duct portion 152Y. Specifically, the toner filter 1523Y is disposed so as to cover the first opening 1521Y.

Next, the developing unit provided in each developing unit will be described.
FIG. 3 is a configuration diagram illustrating an outline of the developing unit 14Y.
The developing unit 14Y has a supply opening 1411Y for taking in yellow toner supplied from the replenishment opening 1511Y, and an exhaust opening 1421Y connected to the duct 152Y.

FIG. 4 is a perspective view illustrating the configuration of the developing unit and the toner bottle.
The developing unit 14Y and the toner bottle 15Y are connected to the exhaust opening 1421Y formed in the developing unit 14Y and the first opening 1521Y formed in the duct unit 152Y, and are formed in the developing unit 14Y. The supply opening 1411Y and the supply opening 1511Y formed in the toner storage portion 151Y are installed so as to be connected.

FIG. 5 is a cross-sectional view showing the configuration of the developing unit.
The developing unit 14Y includes a developing roll 141Y, a housing 143Y, and a mixing auger 144Y and 145Y. Two mixing augers 144Y and 145Y are housed in a housing 143Y in which a developer composed of toner and a magnetic carrier is accommodated. It is arranged. The rotation directions of the mixing augers 144Y and 145Y are determined so as to convey the developer in opposite directions. Thus, by uniformly mixing the toner and the magnetic carrier, the toner concentration of the developer, that is, The charge amount of the toner is kept constant.

As shown in FIG. 5, the air in the developing unit 14Y flows in the direction indicated by the arrow C. Therefore, by releasing the air in the developing unit 14Y to the outside, it is possible to prevent the pressure in the developing unit 14Y from increasing and reduce the toner cloud.
Further, since the toner bottle 15Y includes the toner filter 1523Y, the toner filter 1523Y can be replaced when the toner bottle 15Y is replaced. Therefore, the replacement of the toner filter 1523Y can be facilitated. Further, when the toner bottle 15Y is replaced, the toner filter 1523Y is also replaced, so that the occurrence of toner cloud can be suppressed for a long time.
Other developing units may be configured in the same manner as described above, or the above-described configuration may be employed only for some of the developing units.

  Next, Modification 1 of the above-described developing unit 100Y will be described below. The basic configuration of the developing unit is the same as that of the developing unit 100Y described above. Therefore, the same parts as those of the developing unit 100Y are denoted by the same reference numerals, and redundant description is omitted. FIG. 6 is a cross-sectional view illustrating a configuration of a developing unit and a duct unit according to Modification 1 of the developing unit 100Y. FIG. 6 corresponds to FIG.

As shown in FIG. 6, the toner filter 1523Yb is disposed so as to cover the second opening 1522Y. In the first modification of the developing unit 100Y, unlike the toner bottle shown in FIG. 5, the first opening 1521Y does not cover the toner filter. Since the toner filter 1523Yb is covered with the second opening 1522Y formed larger than the first opening 1521Y, the area of the toner filter 1523Yb is larger than that of the toner filter 1523Y shown in FIG.
This is because the exhaust opening 1421Y and the first opening 1521Y cannot be formed large for the purpose of preventing toner from entering the duct 15Y from the exhaust opening 1421Y formed in the developing unit 14Y. This is because, when the toner filter is installed so as to cover the first opening 1521Y, the area of the toner filter used for collecting the toner is limited to the size of the first opening 1521Y.
However, as shown in FIG. 6, the toner filter 1523Yb is disposed so as to cover the area where the first opening 1521Y is not formed, specifically, the second opening 1522Y. Can be arranged. As a result, the amount of toner collected by the toner filter also increases, so that clogging of the toner filter can be suppressed and the replacement timing of the toner filter can be delayed. Therefore, the toner filter can be prevented from being clogged before the timing for replacing the toner bottle. Further, since the clogging of the toner filter can be suppressed by arranging the toner filter having a large area, the generation of the toner cloud can be suppressed for a long time.
In this modification, the toner filter is disposed so as to cover the second opening 1522Y. However, the present invention is not limited to such a configuration, and the toner is not formed in the area where the first opening 1521Y in the duct 152Y is not formed. A filter may be arranged.

  Further, the toner bottle shown in FIG. 6 includes a duct portion 152Y that is connected to an exhaust opening 1421Y provided in the developing portion 14Y and draws the air from the developing portion 14Y to the outside, and the toner filter 1523Yb includes the duct portion 14Y. Is arranged. In this way, it is possible to prevent the pressure in the developing unit from increasing and to suppress the occurrence of toner cloud. Further, the toner can be efficiently collected by the toner filter.

FIG. 7 is a graph comparing the cloud amounts of the image forming apparatus using the first modification of the developing unit 100Y and the conventional image forming apparatus. In this graph, the vertical axis indicates the cloud amount, and the horizontal axis indicates the number of traveling sheets. The toner bottle is replaced every time the running number exceeds 20,000. As shown in FIG. 7, the cloud amount of the conventional image forming apparatus is 13 to 16 (g / m ³ ), whereas the cloud amount of the image forming apparatus using the modification 1 of the developing unit 100Y is 3 to 3. It is reduced to 5 (g / m ³ ). Further, the image forming apparatus using the first modification of the developing unit 100Y does not increase the cloud amount significantly even when the number of running sheets increases, and shows that the generation of toner cloud is suppressed for a long time. Yes.

  Next, Modification 2 of the above-described developing unit 100Y will be described below. The basic configuration of the developing unit is the same as that of the developing unit 100Y described above. Therefore, the same parts as those of the developing unit 100Y are denoted by the same reference numerals, and redundant description is omitted. FIG. 8 is a cross-sectional view illustrating the configuration of the developing unit and the duct unit according to Modification 2 of the developing unit 100Y. FIG. 8 corresponds to FIG.

  As shown in FIG. 8, the developing unit 14Y is provided with an opening / closing member (adhesion prevention means) 146Y for opening and closing the exhaust opening 1421Y. The opening / closing member 146Y is fixed to the inner wall of the housing 143Y near the exhaust opening 1421Y, and is configured to be able to open and close the exhaust opening 1421Y with the fixed position as a fulcrum. By the rotation of the developing rotary unit 4 shown in FIG. 1, the developing unit 14Y rotates in the direction of the arrow D (counterclockwise) shown in FIG.

9 and 10 are diagrams illustrating a state where the developing unit according to the second modification of the developing unit rotates. FIG. 9A is a diagram illustrating a state when the developing unit 14Y is rotated 45 ° counterclockwise from the state illustrated in FIG. As shown in FIG. 9A, the opening / closing member 146Y points vertically downward by its own weight, and the exhaust opening 1421Y is not closed by the opening / closing member 146Y. Therefore, in the state shown in FIG. 9A, the air in the developing unit 14Y can be extracted to the outside.
FIG. 9B is a view showing a state when the developing portion 14Y is further rotated counterclockwise by 45 ° from the state shown in FIG. 9A. As shown in FIG. 9A, the opening / closing member 146Y points vertically downward by its own weight, and the exhaust opening 1421Y is closed by the opening / closing member 146Y. FIG. 9 (c) shows a state when it is further rotated 45 ° counterclockwise from the state shown in FIG. 9 (b). Similarly, FIG. 9 (d) and FIG. 10 (a). FIGS. 10B and 10C show the state of the developing unit 14Y when rotated 45 ° counterclockwise in this order.

From FIG. 9B to FIG. 10B, the exhaust opening 1421Y is closed by the opening / closing member 146Y. As described above, the opening / closing member 146Y closes the exhaust opening 1421Y, so that the toner in the developing unit 14Y can be prevented from adhering to the toner filter 1523Y disposed in the duct unit 152Y. In particular, when the developing portion 14Y is in the state shown in FIG. 9D to FIG. 10B, if the exhaust opening 1421Y is opened, the toner flows from the duct portion 152Y. And may adhere to the toner filter 1523Y. By closing the exhaust opening 1421Y by the opening / closing member 146Y, the toner filter 1523Y can be prevented from being clogged when the toner in the developing unit 14Y adheres to the toner filter 1523Y. Thereby, generation | occurrence | production of a toner cloud can be suppressed for a long term.
When the developing unit 14Y is in the state shown in FIG. 10C, the opening / closing member 146Y opens the exhaust opening 1421Y, so that the air in the developing unit 14Y can be extracted to the outside. it can.

  As described above, the opening / closing member 146Y closes the exhaust opening 1421Y when the toner in the developing unit 14Y may adhere to the toner filter 1523Y. As described above, the opening / closing member 146Y closes the exhaust opening 1421Y in accordance with the state of the developing unit 14Y, thereby preventing the toner in the developing unit 14Y from adhering to the toner filter 1523Y, and also in the developing unit 14Y. Air can be extracted to the outside, and generation of toner cloud can be suppressed for a long time.

  The opening / closing member 146Y is not limited to the above mechanism, and may be a valve, a shutter, or the like that allows the exhaust opening 1421Y to be opened and closed. In addition, a control unit (not shown) that is realized by hardware such as CPU (Central Processing Unit), ROM (Read Only Memory), RAM (Random Access Memory), and necessary software, and controls the entire image forming apparatus, It is determined whether or not the toner in the developing unit is likely to adhere to the toner filter. If it is determined that the toner is likely to adhere, the opening / closing member 146Y is driven to close the exhaust opening 1421Y and adhere. If it is determined that the situation is not likely to occur, the exhaust opening 1421Y may be opened.

  Next, Modification 3 of the above-described developing unit 100Y will be described below. The basic configuration of the developing unit is the same as that of the developing unit 100Y described above. Therefore, the same parts as those of the developing unit 100Y are denoted by the same reference numerals, and redundant description is omitted. FIG. 11 is a cross-sectional view illustrating a configuration of a developing unit and a duct unit according to Modification 3 of the developing unit 100Y.

As shown in FIG. 11, a blower fan (blower unit) 16Y is disposed in the duct portion 152Y. By rotating the blower fan 16Y, the air in the developing unit 14Y can be forcibly blown to the outside. As a result, an increase in pressure in the developing device can be prevented and toner cloud generation can be suppressed for a long period of time.
In the above example, the blower fan 16Y is disposed in the duct portion 152Y, but may be disposed in other locations.

Although the preferred embodiments of the present invention have been described in detail above, the present invention is not limited to the specific embodiments, and various modifications, within the scope of the gist of the present invention described in the claims, It can be changed.
For example, the toner bottle may be provided with a carrier recovery region, and the carrier recovery region may be provided in the duct portion.

1 is a configuration diagram of an image forming apparatus according to the present invention. FIG. 3 is a configuration diagram illustrating an outline of a toner bottle 15Y. It is a block diagram which shows the outline of the image development part 14Y. FIG. 5 is a perspective view illustrating a configuration of a developing unit and a toner bottle. It is sectional drawing which showed the structure of the image development unit. It is sectional drawing which showed the structure of the image development part and duct part which concern on the modification 1 of image development unit 100Y. 10 is a graph comparing the cloud amount between an image forming apparatus using Modification Example 1 of the developing unit 100Y and a conventional image forming apparatus. It is sectional drawing which showed the structure of the image development part and duct part which concern on the modification 2 of the image development unit 100Y. It is the figure which showed the state when the image development part which concerns on the modification 2 of a image development unit rotated. It is the figure which showed the state when the image development part which concerns on the modification 2 of a image development unit rotated. It is sectional drawing which showed the structure of the image development part and duct part which concern on the modification 3 of the image development unit 100Y.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Photoconductor 2 Charging roller 3 Latent image forming device 4 Development rotary unit 5 Intermediate transfer body 7a Drive roller 7b Driven roller 8 Primary transfer roller 10 Cleaning device 11 Secondary transfer rollers 14Y, 14M, 14C, 14K Developing unit (Developing device) )
141Y Developing roll 143Y Housing 144Y, 145Y Mixing auger 146Y Opening / closing member (adhesion prevention means)
1411Y Supply opening 1421Y Exhaust openings 15Y, 15M, 15C, 15K Toner bottle 150Y Partition plate 151Y Toner storage portion 1511Y Replenishment opening 152Y Duct portion 1521Y First opening (connection hole)
1522Y Second opening 1523Y, 1523Yb Toner filter 16Y Blower fan 100Y, 100M, 100C, 100K Developing unit

Claims (5)

In an image forming apparatus comprising a toner bottle for storing toner and supplying the toner to a developing device,
The image forming apparatus, wherein the toner bottle includes a toner filter that collects toner in the air in the developing device. The toner bottle includes a duct portion that is connected to an opening provided in the developing device and draws air in the developing device to the outside.
The image forming apparatus according to claim 1, wherein the toner filter is disposed in the duct portion. The toner bottle is formed with a connection hole for connecting the opening provided in the developing device and the duct part,
The image forming apparatus according to claim 2, wherein the toner filter is disposed in a region where the connection hole is not formed. The image forming apparatus according to claim 1, further comprising an adhesion preventing unit that prevents toner in the developing device from adhering to the toner filter. The image forming apparatus according to claim 1, further comprising a blowing unit that forcibly blows the air in the developing device to the outside.

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