The present invention relates to a toner supply unit having a toner container loaded detachably on a main body of the unit such that a toner discharging portion faces downward (in the direction of gravitational force), in which when the toner container is loaded on the main body of the unit, an insertion member is inserted into the toner discharging portion so as to supply toner through the insertion member.
Conventionally, it has been well known that in an image forming apparatus such as a printer, copier and the like, a toner container for storing toner such as a toner bottle, a toner cartridge and the like is set up on the main body of the same apparatus and toner is supplied from the container to a developing portion. In this kind of the toner container, a toner discharging port is closed with a cap or seal so that upon replacement of the container, user has to remove that cap or seal. However, this work causes scattering of toner or contamination by toner, therefore user does not like to do such a work. Thus, since before, various devices and proposal have been made for user to carry out the replacement work of the toner container comfortably.
For example, a toner container provided with a self-closing valve at a toner discharging port thereof has been already proposed. Such a toner container can be set up in the apparatus without removing the cap or seal.
Referring to
However, the aforementioned toner container 20 has such a problem that toner leaks from the slits 65 in the sealing valve 22, so that the setting portion 50 is contaminated. Major reasons for such a problem are as follows.
The nozzle 40 is not located in the center of the sealing valve 60. Moreover, when the nozzle 40 is inserted into the sealing valve 60 or removed therefrom, gap is generated between the slits 65 and the nozzle 40. Moreover, the sealing valve 60 creeps thereby lowering sealing effect. In addition, when the nozzle 40 is pulled out, toner deposited on the nozzle 40 upon setting spills out.
It is an object of this invention to provide a developing agent storage container and an image forming apparatus using the same container, capable of reducing toner contamination upon replacement and raising air-tightness of the container.
The toner supply unit according to one aspect of this invention comprises: a toner container that holds a toner, the toner container having a toner discharging portion for discharging the toner; a toner container holder that detachably holds the toner container in such a manner that the toner discharging portion faces in a direction of gravity; an insertion member that is inserted into the toner discharging portion while the toner container is held by the toner container holder, wherein toner is filled into the toner container through the insertion member; and a preventing unit for preventing toner contamination due to toner leakage through the self-closing valve, the preventing unit including a self-closing valve, provided to the toner discharging portion, which is opened or closed by removing or inserting the insertion member from/into the toner discharging portion.
The toner supply unit according to another aspect of this invention comprises: a toner container that holds a toner, the toner container having a toner discharging portion for discharging the toner; a toner container holder that detachably holds the toner container in such a manner that the toner discharging portion faces in a direction of gravity; an insertion member that is inserted into the toner discharging portion while the toner container is held by the toner container holder, wherein toner is filled into the toner container through the insertion member, the insertion member having a top surface and an opening on the top surface; and a self-closing valve, provided to the toner discharging portion, which is opened or closed by removing or inserting the insertion member from/into the toner discharging portion.
The toner supply unit according to still another aspect of this invention comprises: a toner container that holds a toner, the toner container having a toner discharging portion for discharging the toner; a toner container holder that detachably holds the toner container in such a manner that the toner discharging portion faces in a direction of gravity; an insertion member that is inserted into the toner discharging portion while the toner container is held by the toner container holder, wherein toner is filled into the toner container through the insertion member; and a suction unit having an suction port in the vicinity of a toner discharging portion of the toner container held by the toner container holder.
The image forming apparatus according to still another aspect of this invention comprises the toner supply unit according to the present invention.
Other objects and features of this invention will become apparent from the following description with reference to the accompanying drawings.
Embodiment of the present invention will be described in detail with reference to the accompanying drawings.
The developing unit 10 is provided with a uni-axial deflection screw pump, which is a suction type powder pump 11, such that it is disposed in the vicinity or integratedly. The structure of this powder pump 11 is comprised of a rotor 12 formed in the shape of an eccentric screw from material having stiffness such as metal, a stator 13 formed of elastic material such as rubber in the form of a two-row screw and a holder 14 formed of resin material, which wraps these and in which a transportation path for the powder is formed. The aforementioned rotor 12 is rotated by a gear 16 which is connected integratedly to a drive shaft 15 through a pin joint. Meanwhile, reference numeral 17 denotes an electromagnetic clutch, which controls activation of the power pump 11.
A toner suction portion 18 is provided on a front end of the aforementioned holder 14 or on the right end in
On the other hand, a setting portion 50 provided on the main body 1 of an image forming apparatus, on which the toner container 20 is to be set up, is composed as a separate unit from the developing unit 10. A nozzle 40 having a circular cross section, which is to be inserted into the toner container 20, is erected and the toner container 20 is set up in the setting portion 50 of the main body of the image forming apparatus from above. A sharp end member 44 formed to have a conical cross section is provided on a top of the nozzle 40 provided in the setting portion 50 by integral forming or fixing. An aisle 41, which serves as an air supply path as well as a toner supply path, is provided following this sharp end member 44. An interior of the nozzle 40 is of a single pipe structure and the aisle 41 is bent to the left in the same Figure at a bottom of the nozzle 40 and a toner connecting portion 42, to which the toner transfer tube 19 is connected, is provided at a front end thereof. Further, air connecting port 43 is provided on the aisle 41 and bent to the right above the toner connecting port 42.
According to this embodiment, the air connecting port 43 is connected to an air pump 30 which acts as an air supply unit through an air transfer pipe 31. If this air pump 30 is actuated, air is injected into the toner container 20 through the air transfer pipe 31 and the aisle 41. Then, the air injected into the toner container 20 passes through toner layer so as to fluidize the toner by diffusion.
The aforementioned toner container 20 is constructed in bag-in-box type comprised of a toner bag 21 which is deformable containing toner and an external box 22 having a higher stiffness than that bag for accommodating the toner bag. The toner bag 21 is formed of resin sheet of polyethylene, nylon or the like or paper sheet of, for example, 80-toner container 20·mu·m in the form of a single layer or plural layers. The toner bag 21 is formed according to blow formation method and a mouth ring 23 made of resin or the like having a toner discharge mouth is fixed. The mouth ring member 23 is comprised of a circular extended plate 24 provided on an external periphery substantially in the center in vertical direction, a cylindrical portion 25 provided under the extended portion 24 containing a sealing valve 26 inside and a ship-shaped portion 27 provided above the extended portion 24, on which the toner bag 21 is fixed. The cylindrical portion 25 passes through to the ship-shaped portion 27 so as to form an opening. The sealing valve 60 is provided as a self-closing valve in the opening on the side of the cylindrical portion 25. The sealing valve 60 is formed of elastic body composed of, for example, non air-permeable foamed sponge or the like.
The sealing valve 60 has cross-shaped slits 65, which intersect each other substantially in the center as shown in
If the sealing valve 60 made of elastic body such as non air-permeable foamed sponge is used, the nozzle 40 is not located in the center of the sealing valve 60. If the nozzle 40 is inserted into the sealing valve 60 or pulled out, a gap is generated between the slits 65 and the nozzle 40, so that the sealing valve 60 creeps thereby reducing sealing effect. Or toner deposited on the nozzle 40 at the time of setting drops out when the nozzle 40 is pulled out, so that toner leaks from the slits 65 in the sealing valve 60, thereby contaminating the setting portion 50. Thus, this toner supply unit is provided with a preventing unit for protecting from toner contamination.
In
In the toner supply unit having such a structure, by engaging the nozzle guide 51 with the guide hole 26 when setting the toner container 20, the toner container 20 is guided to a proper setting position so that the nozzle 40 is inserted into the center of the sealing valve 60. Thus, it is possible to prevent toner leakage which may be generated unless the nozzle 40 is located in the center of the sealing valve 60. In this case, by forming the nozzle guide 51 higher than the nozzle 40, the length L1 from the nozzle guide 51 to the guide hole 26 in
If two or more kinds of toners are used like the aforementioned color image forming apparatus, this toner supply unit can use this system for color non-compatibility. That is, because as shown in
When the toner container 20 is set in the setting portion 50, the sealing valve 60, which is a sponge, is pressed by the compression portion 46, so that the nozzle 40 having such a structure 40 is compressed in a vertical direction and consequently, the insertion portion 45 is jumped into the container above the sealing valve 60. That is, if the diameter of the sealing valve is set larger than that of the compression portion 46 and the compression length is set shorter than the length of the insertion portion 45, when the sealing valve 60 is compressed, the insertion portion 45 can be jumped above the sealing valve 60.
With this structure, only the insertion portion 45 is inserted into the slits 65 in the sealing valve 60 and even if toner drops out of the slits 65 due to a gap which is generated between the insertion portion 45 and the slits 65 when the toner container 20 is pulled out of the setting portion 50, that leaking toner drops on the compression portion 46 so that it enters the toner aisle 41. Therefore, toner contamination due to toner leakage from the slits 65 can be reduced remarkably.
In the toner supply unit having such a structure, when with the toner container 20 set up, the nozzle 40 invades into the container, the external sealing valve 60 and the internal sealing valve 60A are provided with such a freedom that they follow motions of the nozzle 40 as shown in
Referring to
The aforementioned spring 73 is a coil spring mounted between a machine frame 52 of the setting portion 50 and the supporting frame 72 so as to press the jaw portion 75 of the supporting frame 72. When the toner container 20 is not set up, the spring 73 holds the aforementioned supporting frame 72 at the highest position shown in
In the toner supply unit having such a structure, when the toner container 20 is set in the setting portion 50, as shown in
Because the spring 73 applies an action for raising the toner container 20, the toner container 20 can be brought up by a specific amount by using the spring force. That is, because the toner container 20 is held at the setting position such that the engaging pawl or the like engages as described above, when taking out the toner container 20, this container is brought up by means of the spring 73 by releasing this engaging pawl or the like. Thus, the operability upon taking out the toner container 20 can be improved by constructing this toner container 20 to be popped up. Further, because the mouth ring23 of the toner container 20 is pressed against the jaw portion 75 of the supporting frame 72, it receives a stabilized upward pushing action.
Referring to
In the toner supply unit having such a structure, if the toner container 20 is set up in the setting portion 50, the slits 65 in the sealing valve 60 are pushed wide in the axial directions by the nozzle 40 and further, the nozzle 40 passes through the valve seat 82, so that it raises the valve body 81 resisting an action of the elastic rubber 83, and then, the nozzle 40 is inserted until the opening portion 40a invades into the container. If the toner container 20 is taken out, the valve body 81 rests on the valve seat 82 due to a restoration force of the elastic rubber 83, so as to shut down between inside and outside of the container thereby ensuring air tightness. In the same way, the sealing valve 60 is restored to its own original state due to the self-restoration force. At this time, if viewed from the side of the nozzle 40, the sealing valve 60 moves upward with the nozzle 40 in firm contact therewith, so that the slits 65 close gradually. As a result, this not only prevents toner from dropping from the nozzle but also provided an effect of cleaning the nozzle 40.
If only the sealing valve 60 is provided, the toner container 20 can be provided with some extent of air tightness and however, when it is loaded or unloaded, toner leaks through a gap between the nozzle 40 and the valve seat 82. Thus, in this case, it is difficult to prevent toner scattering. Even if this leakage is intended to be suppressed by controlling an engagement tolerance in dimension between the nozzle 40 and the hole 84 of the valve seat 82 strictly in order to suppress the leakage, toner which is fine powder penetrates into the gap, adheres due to electrostatic force by friction or van del Waals force, unlike liquid. Thus, there is a possibility that the nozzle 40 and the valve seat 82 may be locked so that they do not move. Further, if the tolerance is set strictly, a setting force of the container increases. Therefore, because if such elastic body as rubber, fine cell sponge is used for the valve seat 82, a force in the diameter direction is released by that elasticity, air-tightness can be obtained without increasing the setting force.
Further, if only the sealing valve 60 is employed, there is a possibility that the elastic body may undergo creep deformation due to leaving for a long period, so that an excellent air-tightness in the container cannot be secured. Therefore, by providing the opening/closing valve 80 with a function for securing air-tightness of the container like the above described embodiment and further providing the sealing valve 60 with cleaning function for reducing toner scattering, the toner leakage from the toner container 20 and the toner scattering upon loading/unloading can be reduced at the same time.
Although as described above, toner contamination, which is generated by toner leakage from the sealing valve 60 can be prevented according to the present invention, it is difficult to eliminate the leakage of toner which is fine powder completely. Particularly, even if the toner leakage can be reduced in such an unfavorable situation where the toner container 20 is inserted or removed repeatedly or left for a long period, this cannot be reduced to zero.
According to the embodiment shown in
With such a structure, it is possible to reduce the possibility that toner cleaned by the sealing valve 60 or toner leaking from the slits 65 may be scattered so as to contaminate the setting portion 50 and the toner container 20.
According to the embodiment shown in
With such a structure, even if toner leaks from the sealing valve 60 in the toner container 20, the toner can be sucked and cleaned by an activation of the air pump 30. Thus, contamination of the setting portion 50 and the toner container 20 by leaking toner is reduced to a large extent.
The toner container 20 described in the above embodiment is comprised of the flexible toner bag 21 and the external box 22 having stiffness for covering it. Then, the toner bag 21 is formed such that its sectional area decreases as it goes to the mouth ring 23 having a toner discharging portion.
However, under such a structure, if the toner container 20 receives any impact, the toner bag 21 may be sometimes buckled at that squeezing portion. Particularly, because the toner bag 21 is softened under high temperatures, it is likely to be buckled.
As shown in
Further, to prevent the aforementioned buckling, a top plate 91 is fixed on top of the toner bag 21 and then, this top plate is loaded in a slide guide portion 92 formed in the external box 22 by sliding as shown in
Embodiments of the present invention have been described above. However, the present invention is not restricted to the above described embodiments, however may be modified in various ways.
For example, the insertion member is preferred to be a nozzle having a circular cross section, and however, the shape of the nozzle is not restricted to circular, but may be elliptic, polygon or the like. However, if it is polygon, it is preferred to be of regular polygon with its corners rounded.
As explained above, according to the present invention, when the self-closing valve made of foamed elastic body facilitating removal or insertion of the insertion member of the toner container is provided, leakage of toner from the self-closing valve can be reduced to a large extent.
Furthermore, the insertion member can be inserted into the center of the slits in the self-closing valve, so that toner leakage which is generated when the insertion position of the insertion member deflects can be prevented.
Moreover, the insertion member can be inserted securely into the center of the slits in the self-closing valve.
Furthermore, the unit for guiding the insertion member to be inserted into the center of the slits in the self-closing valve can be provided with color non-compatible function.
Moreover, toner leakage from the self-closing valve of the toner container can be reduced to a large extent.
Furthermore, toner leaking from the self-closing valve can be introduced into the toner aisle.
Moreover, air-tightness between the insertion member and the self-closing valve is intensified, so that toner leakage from the self-closing valve can be reduced to a large extent.
Furthermore, toner leakage from the self-closing valve can be reduced and further, even if toner leaks, scattering thereof can be prevented securely.
Moreover, because the toner container is pushed by the jaw portion having a width, the container can be raised upward stably.
Furthermore, the opening/closing valve can be provided with a function for securing air-tightness of the container and further, the sealing valve of foamed elastic body can be provided with a cleaning function for reducing scattering of toner.
Moreover, the air-tightness of the toner container can be intensified by improving the closing state of the opening/closing valve.
Furthermore, such deterioration in setting operability that a large force is required when setting the toner container can be prevented.
Moreover, even if toner leaks from the self-closing valve of the toner container, most of the toner can be introduced to the toner aisle in the insertion member.
Furthermore, even if toner leaks from the self-closing valve of the toner container, that toner can be cleaned.
Moreover, the aforementioned cleaning action can be obtained from an air pump for supplying air to the toner container.
The present document incorporates by reference the entire contents of Japanese priority document, 2000-297354 filed in Japan on Sep. 28, 2000.
Although the invention has been described with respect to a specific embodiment for a complete and clear disclosure, the appended claims are not to be thus limited but are to be construed as embodying all modifications and alternative constructions that may occur to one skilled in the art which fairly fall within the basic teaching herein set forth.
Number | Date | Country | Kind |
---|---|---|---|
2000-297354 | Sep 2000 | JP | national |
This patent application is a division of U.S. patent application Ser. No. 10/609,616 filed Jul. 1, 2003 now U.S. Pat. No. 7,209,689, which is a continuation of U.S. patent application Ser. No. 09/963,644 filed Sep. 27, 2001 now U.S. Pat. No. 6,628,908, and claims priority to Japanese Patent Applications No. 2000-297354 filed in the Japanese Patent Office on Sep. 28, 2000. The entire contents of these documents are incorporated herein by reference.
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Number | Date | Country | |
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Parent | 10609616 | Jul 2003 | US |
Child | 11616395 | US |
Number | Date | Country | |
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Parent | 09963644 | Sep 2001 | US |
Child | 10609616 | US |