JPH04133267U - Developing device with developer supply container - Google Patents

Abstract

(57) [Summary] [Purpose] It is an object of the present invention to provide a developer replenishment container that can be collected and reused, and also to provide a developing device that does not cause background fogging even immediately after toner replenishment. [Configuration] The developer supply container 1 has an opening lid 11 that can be opened and closed.
By opening the opening lid 11 from the closed state, the toner 3 inside can be discharged to the outside. Further, when attached to the developing device 2, the position of the opening lid 11 is fixed near the sleeve 6, and this opening lid 11 serves as a partition within the developing device 2.

Description

[Detailed explanation of the idea]

0001

[Industrial application field]

This invention is an electrophotographic device that visualizes a latent image on an electrostatic latent image carrier using a developer. The present invention relates to a developing device having a developer supply container.

0002

[Conventional technology]

Conventionally, in this type of electrophotographic device, as the number of sheets printed increases, toner inevitably runs out. Processing of used waste toner in replenishment and cleaning means, or parts such as photoreceptors. This required work such as replacement, and was carried out by specialized engineers. However, in recent years, electrophotographic devices such as copiers and laser printers have become smaller. Moreover, the maintenance of these devices has become cheaper and more widespread. It has become necessary for users to be able to perform this process easily. For this purpose, electrophotographic image forming equipment , the charger, developer, cleaning device, etc. are integrated into a process unit. The maintenance of the equipment is now performed by attaching and detaching this process unit. It has been proposed and put into practical use.

0003 However, in the case of an integrated process unit like the one mentioned above, the mechanical Because the lifespans vary, parts that do not need to be replaced may be discarded, resulting in environmental protection and resource savings. It is also a problem from the perspective of the source. For example, the toner container is transported by the unit. There is a limit to the capacity due to nature, etc., and conventional models can print about 4,000 sheets (print area ratio 5%), but the lifespan of the photoreceptor is longer, approximately 10,000 to 20,000 sheets. , in an integrated process unit like the one above, when the toner is consumed, the photoreceptor Even though it has not reached the end of its lifespan, it will be thrown away along with other parts. .

0004 Therefore, in order to compensate for the shortcomings of the integrated process unit as mentioned above, a relatively long The first process unit integrates a photoreceptor with a limited life, a charger, a cleaning device, etc. , a second process unit including a developing device, and a second process unit including a developing device. In other words, only the consumed toner is replenished and the long-life charger and photoreceptor are effectively used. One possible method is to use Therefore, as a means for replenishing toner to the developing device, as shown in FIG. The opening of the filled toner container 52 is sealed with a sealing member 54, and the toner is refilled. Sometimes, a user attaches the toner container 52 to a developing device (not shown) and manually closes the sealing member 54. There is a known method of replenishing toner 3 by pulling it out with the (See Publication No. 5062). In addition, as a means of replenishing toner, cutting the seal member can also be used to supply toner. A method of replenishing toner into the developing device has also been considered (for example, Utility Model Application No. 59-935) No. 4, see Utility Model Application Publication No. 59-181459).

[0005]

[Problem that the idea aims to solve]

However, in the conventional developer supply container mentioned above, the toner container cannot be reused. , problems arose from the viewpoints of resource conservation and environmental protection. In addition, development immediately after toner replenishment Since the toner is not sufficiently charged, a large amount of uncharged toner remains in the developing area. This toner adheres to the non-image areas on the photoconductor and causes background fog. There was a problem with it. The purpose of this invention was to solve the above-mentioned problems. An object of the present invention is to provide a developing device having a toner replenishing device capable of replenishing the toner. Further, another object of the present invention is to prevent underlayer fogging even immediately after toner replenishment. To provide a developing device capable of performing beautiful developing without causing any damage.

[0006]

[Means to solve the problem]

In order to achieve the above object, the present invention has developed a developer supply container that seals the developer; It has a conveying means for conveying the developer supplied from the developer supply container onto the image carrier. In a developing device that develops a latent image on an electrostatic latent image carrier into a visible image, the developer An opening lid provided on the supply container that can be opened and closed when supplying or discharging developer. and a fixing means for fixing the opening lid in the open position, the opening lid being in the open position. is set near the conveyance means.

[0007]

[Effect]

In a developing device having a developer supply container configured as described above, developer is supplied to the developing device. When replenishing the replenishment container, attach the replenishment container to the developing device, open the openable lid, and open the replenishment container. The developer in the container will be dropped, but the opening lid should not be opened with the opening of the supply container open. It is fixed near a conveying means that conveys the image agent onto the image carrier.

[0008]

【Example】

An embodiment embodying the present invention will be described below with reference to the drawings. In this example, The toner is placed in a reversal development type development device that uses a mixed developer of magnetic toner and magnetic carrier. This relates to a developer replenishment container for replenishing the developer. In addition, in this example In this section, we will discuss the case where the initial charge polarity of the photoreceptor and the charge polarity of the toner are negative. . FIG. 1 is a general view of a developing device 2 in which a developer supply container 1 of the present invention is used. child The developing device 2 contains a developer 5 containing a mixture of magnetic toner 3 and magnetic carrier 4. It is stored. The magnetic toner 3 used here is made of styrene acrylic resin. The fat contains 10 to 65% magnetic powder such as ferrite, and is used as a coloring agent. It is a powder with an average particle size of about 10 μm mixed with carbon black, and was used in this example. Negatively charged toner contains azo metal-containing dyes, chlorinated paraffin, and chlorinated polyester. An electron-accepting substance such as tel is added internally. Magnetic carrier 4 is a ferrite ball shaped particles, and the average particle size is about 50 μm. Also, mixing toner and carrier The ratio does not need to be as strict as the two-component magnetic brush development method, and the weight ratio is between 50 and 90. % is maintained.

[0009] The developing device 2 includes a developing sleeve 6 that holds the developer 5 on its surface and transports it to a developing area. and a magnet supported within the developing sleeve 6 so as to be coaxial with the developing sleeve 6. It is equipped with stone roll 7. This developing sleeve 6 is electrically conductive so that voltage can be applied. It is formed of a material such as an aluminum cylinder, and its surface allows the toner 3 to be applied to a predetermined amount. It may be coated with a substance that charges it polarity, in this case negative polarity; The material selected is, for example, silicone resin. The magnet roll 7 is placed on the developing sleeve 6. This is to attach the developer 5 by magnetic force to the surface and transport it. They are mutually magnetized with eight poles and are rotatably supported relative to the developing sleeve 6.

0010 The developer 5 attached to the developing sleeve 6 is separated from the developing sleeve 6 by a predetermined distance (20 A regulating blade 8 provided with a diameter of 0 to 400 μm) passes through the gap. After the developer layer thickness has been regulated, the photoreceptor 9 carrying the electrostatic latent image and the developing sleeve The toner 3 is conveyed to the development area A where the toner 3 faces the electrostatic latent image. to develop the latent image into a visible image. The developer 5 attached to the developing sleeve 6 is Standing ears are formed by the magnetic force of the magnet roll 7. Then, the rotation of the magnet roll 7 Therefore, the spikes repeat rolling, and as a result, the toner 3 is mixed with each other or with each other. is negatively charged due to mutual friction with the surfaces of the carrier 4, sleeve 6, etc. like this As a large number of sheets are printed, the toner 3 in the developing device 2 is gradually consumed. . Therefore, it is necessary to replenish toner 3 after printing a certain number of pages. be.

[0011] Next, the operation of replenishing the toner 3 to the developing device 2 will be explained. A developer supply container 1 according to an embodiment of the present invention is attached on the developing device 2. . The supply container 1 has a hollow semi-cylindrical shape, and has a flat surface as shown in FIG. A rotary lid 11 is provided. This rotary lid 11 is attached to the side of the supply container 1. By turning the rotary knob 12 that It opens so that it can be filled or the toner 3 inside can be discharged. To replenish the toner 3 to the developing device 2, it is performed as follows. That is, this supplement Attach the supply container 1 to the developing device 2 with the rotary lid 11 facing down, and turn the rotary knob 12 in the direction of the arrow. By rotating the toner in the direction, the toner 3 filled in the supply container 1 is transferred to the developing device 2. Fall.

0012 In order to prevent the fallen toner 3 from adhering to the developing sleeve 6 all at once, The rotating lid 11 was rotated approximately 90 degrees clockwise from the state in which the opening of the supply container 1 was closed. By the way, the developing device 2 is equipped with a rotary knob 12 so that it is fixed and becomes a partition inside the developing device 2. A fixing claw 13 is provided for fixing. This fixing claw 13 is shown in FIG. It has the shape and structure shown in Figure 4 (cross-sectional view seen from the direction of the thick arrow in Figure 3). Ru. Attach the supply container 1 to the developer 2, and turn the rotary knob 12 from a horizontal position to the clock position. As the rotating knob 12 is rotated in the direction, the rotating knob 12 passes the position of the fixed claw 13. At this time, the fixed claw 13 is pressed and the internal spring 14 is compressed, pushing it into the developing device 2. be caught. Furthermore, when the rotary knob 12 rotates and exceeds the position of the fixed claw 13, the inside The fixing claw 13 pops out again due to the restoring force of the spring 14 and rotates between it and the fixing plate 15. The movement of the rotating knob 12 is fixed.

[0013] In this way, when the rotary knob 12 is fixed, compensation is performed inside the developing device 2. The rotary lid 11 of the supply container 1 serves as a partition inside the developing device 2, as shown in FIG. It has the function of preventing the toner 3 from coming into contact with the developing sleeve 6 all at once. the result , enough toner 3 to develop the latent image is mixed with carrier 4 and rolled onto the carrier. The toner 3 is charged by friction with the sleeve 6 or the blade 8. Since sufficient charging can be performed, a large amount of uncharged toner 3 is transported to the development area A. To obtain beautiful images with no background fog even immediately after replenishing Toner 3. I can do it.

[0014] The rotating lid 11 rotates while rubbing against the inner wall of the supply container 1, but the edge of the rotating lid 11 The part in contact with the inner wall is made of a material such as Teflon felt, and the inside is made of a material such as Teflon felt. The toner inside can be dropped into the developing device 2 while being rubbed gently. Also, this By making the edge of the rotary lid 11 of a material such as Teflon felt, the inside It also has a toner sealing effect that prevents the toner 3 stored in the container from spilling outside. be able to. After supplying the toner 3, the replenishment container 1 is placed in the lid of the developing device 2. However, when it becomes necessary to replenish toner 3 again, it is removed. This take The removed replenishment container 1 can be recovered and used again, so it can be used as a conventional disposable toner. - Unlike containers, they are resource-saving and environmentally friendly.

[0015] The present invention is not limited to the configuration of the above-mentioned embodiments, but is intended to the extent that it does not deviate from the spirit thereof. Various modifications are possible. In the above embodiment, the semi-cylindrical toner supply container 1 The device is equipped with a rotatable opening lid 11, for example, for toner replenishment. The container 1 has a lid 11 that can be opened and closed, and the supply container 1 is attached to the developing device 2 and the lid 11 is opened. When the lid 11 is opened, the lid 11 becomes a partition inside the developing device 2, and the toner 3 is once poured into the sleeve 6. The developing device 2 including the supply container 1 is configured to prevent the That's fine. In addition, in the above, an example of a development method using negatively charged magnetic toner is used. However, positively charged toner may be used, and toner 3 may be a magnetic toner. The toner is not limited to either magnetic toner or non-magnetic toner.

[0016]

[Effect of the idea]

As described above, according to the present invention, an opening lid that can be opened and closed is installed on the developer supply container. This allows you to replenish toner by opening the lid. This allows the developer to It is now possible to reuse supply containers, contributing to resource conservation and environmental protection. Sara In this case, the rotary lid of the developer replenishment container acts as a partition inside the developing device, and the refilled toner is This prevents the toner from adhering to the sleeve at the same time, so even immediately after replenishing the toner, there is no background fogging. You can perform beautiful development.

[Brief explanation of drawings]

FIG. 1 is a sectional view of a developing device having a developer supply container according to an embodiment of the present invention.

FIG. 2 is an enlarged view of the developer supply container.

FIG. 3 is an enlarged view of the developing device having the same developer supply container.

FIG. 4 is a diagram showing the structure of a fixing claw that fixes the rotary knob in this embodiment.

FIG. 5 is a schematic diagram of a conventional developer supply container.

[Explanation of symbols]

1 Supply container 2 Developing device 11 Rotating lid 12 Rotary knob 13 Fixed claw 15 Fixed plate

──────────────────────────────────────────────── ─── Continuation of front page (72) Creator Shusaku Tsusaka 15-1 Naashiro-cho, Mizuho-ku, Nagoya Brother Inside Kogyo Co., Ltd.

Claims (1)

[Scope of utility model registration request] 1. A developer replenishment container that seals the developer, and a conveyance means that transports the developer supplied from the developer replenishment container onto the image carrier, A developing device for developing a latent image into a visible image, comprising: an opening lid provided on the developer supply container and configured to be openable and closable when supplying or discharging developer; and a fixing means for fixing the opening lid in the open position. A developing device having a developer replenishing container, characterized in that the opening position of the opening lid is set near the conveying means.