The present invention relates to an accommodating container for accommodating powder and an image forming system for forming images on a recording material using the accommodating container.
Generally, an electrophotographic image forming apparatus forms an image by transferring a toner image formed on a surface of a photosensitive drum to a transfer material as a transfer medium. And as a developer supply system, for example, a process cartridge system and a toner supply system are known. The process cartridge system is a system in which the photosensitive drum and a developer container are integrated as a process cartridge, and when a developer runs out, the process cartridge is replaced with a new one.
On the other hand, the toner supply system is a system in which a toner is supplied newly to the developer container when the toner runs out. Conventionally, in the Japanese Patent Application Laid-Open No. H08-30084, a one-component developing device of the toner supply system to which a toner supply box that can supply the toner to a toner conveyance path conveying the toner is connected is suggested. The toner stored in the toner supply box is conveyed to the toner conveyance path by a conveyance screw.
In recent years, a variety of uses and forms regarding toner supplying containers for image forming apparatus are demanded from users.
An object of the present invention is to provide a new form of an accommodating container capable of accommodating powder and an image forming system with further improved operability.
An accommodating container of the present invention is an accommodating container for accommodating powder, the accommodating container comprising:
In addition, an image forming system of the present invention comprising:
According to the present invention, it is possible to provide a new form of an accommodating container for accommodating powder and an image forming system having further improved operability.
Part(a) of
Part(a) and part(b) of
Part(a) of
Part(a) of
Part(a), part(b) and part(c) of
Part(a) of
Part(a) of
Part(a) of
Hereinafter, exemplary embodiments for implementing the present invention will be described with reference to the drawings.
In the present Embodiment, the image forming apparatus 1 is a monochromatic printer which forms an image on a recording material P based on an image information inputted from an external device. The recording material P may be various sheet materials such as papers such as plain paper and thick paper, plastic films such as sheets for overhead projectors, sheets having a special shape such as envelopes and index papers, or various sheet materials made of different materials such as cloth.
(Overall Structure of Image Forming Apparatus)
As shown in
In addition, the image forming portion 10 includes a scanner unit 11, an electrophotographic process cartridge 20, a transfer roller 12 that transfers the toner image as a developer image formed on a photosensitive drum 21 of the process cartridge 20 to the recording material P. The process cartridge 20 includes the photosensitive drum 21 and a developing device 30 including a charging roller 22, a pre-exposure apparatus 23 and a developing roller 31 disposed around the photosensitive drum 21.
In the present Embodiment, the photosensitive drum 21 is a photosensitive member formed into a cylindrical shape. Incidentally, the photosensitive drum 21 includes a photosensitive layer formed of an organic photosensitive member of negative charge on a drum-shaped substrate formed of aluminum. In addition, the photosensitive drum 21 as an image bearing member is rotationally driven at a predetermined process speed in a predetermined direction (clockwise direction in the drawing) by a motor.
The charging roller 22 contacts the photosensitive drum 21 with a predetermined pressure contact force to form a charging portion. In addition, by applying a desired charging voltage by a charging high voltage power source, a surface of the photosensitive drum 21 is uniformly charged to a predetermined potential.
In the present Embodiment, the photosensitive drum 21 is charged by the charging roller 22 to the negative polarity. The pre-exposure apparatus 23 removes static electricity from a surface potential of the photosensitive drum 21 before entering the charging portion in order to generate a stable discharge in the charging portion.
A scanner unit 11 as an exposure means scans and exposes the surface of the photosensitive drum 21 by irradiating the photosensitive drum 21 with a laser beam corresponding to image information inputted from the external device, using a polygonal mirror. By this, an electrostatic latent image corresponding to the image information is formed on the surface of the photosensitive drum 21. Incidentally, the scanner unit 11 is not limited to a laser scanner device, and, for example, an LED exposure device including an LED array in which a plurality of LEDs are arranged along a longitudinal direction of the photosensitive drum 21 may be employed.
The developing device 30 includes the developing roller 31 for supplying the developer to the developing roller 31 as a developer carrying member for carrying the developer, a developer container 32 which is a frame of the developing device 30, and a supply roller 33 capable of supplying the developer to the developing roller 31. The developing roller 31 and the supply roller 33 are rotatably supported by the developer container 32. In addition, the developing roller 31 is arranged in an opening portion of the developer container 32 so as to face the photosensitive drum 21.
The supply roller 33 is rotatably in contact with the developing roller 31, and the toner as a developer contained in the developer container 32 is supplied to a surface of the developing roller 31 by the supply roller 33. Incidentally, the supply roller 33 is not always required if the toner can be sufficiently supplied to the developing roller 31.
In the present Embodiment, the developing device 30 uses a contact developing method as a developing method. That is, a toner layer carried on the developing roller 31 is in contact with the photosensitive drum 21 in a developing portion (developing region) where the photosensitive drum 21 and the developing roller 31 face each other. A developing voltage is applied to the developing roller 31 by a developing high voltage power source.
Under the developing voltage, the toner carried on the developing roller 31 is transferred from the developing roller 31 to a drum surface in accordance with a potential distribution on the surface of the photosensitive drum 21, so that the electrostatic latent image is developed into the toner image. Incidentally, in the present Embodiment, a reverse development method is employed. That is, the surface of the photosensitive drum is charged in a charging step and then a charge amount is attenuated by the exposure in an exposure step, and the toner adheres to a surface region of the photosensitive drum 21 having the attenuated charge amount, so that the toner image is formed.
In addition, in the present Embodiment, the toner having a particle size of 6 μm and a negative normal charging polarity is used. As an example, the toner of the present Embodiment employs a polymerized toner produced by a polymerization method.
In addition, the toner of the present Embodiment does not contain a magnetic component, and is a so-called non-magnetic one-component developer in which the toner is supported on the developing roller 31 mainly by an intermolecular force or an electrostatic force (mirror image force). However, a one-component developer containing the magnetic component may be used.
In addition to the toner particles, the one-component developer may contain additives (for example, wax or silica fine particles) for adjusting a fluidity and a charging performance of the toner. In addition, as the developer, a two-component developer comprising a non-magnetic toner and a magnetic carrier may be used. When a magnetic developer is used, for example, a cylindrical developing sleeve in which a magnet is arranged inside is used as the developer carrying member.
The developer container 32 is provided with a toner accommodating chamber 36 accommodating the toner and a stirring member 34 as a stirring means disposed inside the toner accommodating chamber 36. The stirring member 34 is driven by a motor (not shown) to stir the toner in the developer container 32, and at the same time, feed the toner toward the developing roller 31 and the supply roller 33. In addition, the stirring member 34 functions to circulate the toner not used for development but stripped off the developing roller 31 in the developer container, thus making uniform the toner in the developer container.
Incidentally, the stirring member 34 is not limited to a rotating type. For example, a stirring member including a swinging shape may be employed instead.
In addition, a developing blade 35 that restricts an amount of the toner carried on the developing roller 31 is arranged in the opening portion of the developer container 32 in which the developing roller 31 is arranged. The toner supplied to the surface of the developing roller 31 passes through a portion facing the developing blade 35 with the rotation of the developing roller 31, so that the toner is uniformly formed into a thin layer and is charged to the negative polarity by triboelectric charging.
Next, the image forming operation of the image forming apparatus 1 will be described.
When a command for image formation is inputted to the image forming apparatus 1, an image forming process by the image forming portion 10 is started based on the image information inputted from an external computer connected to the image forming apparatus 1. The scanner unit 11 irradiates the photosensitive drum 21 with the laser beam based on the inputted image information.
At this time, the photosensitive drum 21 is precharged by the charging roller 22, and the electrostatic latent image is formed on the photosensitive drum 21 by being irradiated with the laser beam. Thereafter, the electrostatic latent image is developed by the developing roller 31, and the toner image is formed on the photosensitive drum 21.
In parallel with the image forming process described above, the recording material P is fed out by the pickup roller 65 and is fed toward a transfer nip formed by the transfer roller 12 and the photosensitive drum 21.
The transfer roller 12 is supplied with a transfer voltage from a transfer high-voltage power source, so that the toner image carried on the photosensitive drum 21 is transferred onto the recording material P.
When the recording material P now carrying the toner image passes through the fixing portion 70, the toner image is heated and pressed. By this, the toner particles are melted and then fixed, so that the toner image is fixed on the recording material P.
The recording material P which has passed through the fixing portion 70 is discharged to an outside of the image forming apparatus 1 (outside the machine) by the discharging roller pair 80 as a discharging means, on a discharge tray 81 as a stacking portion provided at an upper portion of a printer main body 2. A top cover 82 as a stacking tray is provided at the upper portion of the printer main body 2, and the discharge tray 81 as a stacking surface is formed at an upper surface of the top cover 82.
As shown in
The opening/closing member 83 is movable between a closed position for covering a supply port 32a described below in which a toner pack 100 (accommodating container) cannot be mounted to the developer container 32, and an open position in which the supply port 32a is exposed so that the toner pack 100 can be mounted to the developer container 32. The opening/closing member 83 functions as a part of the discharge tray 81 in the closed position.
In the present Embodiment, the opening/closing member 83 and the opening portion 82a are formed on a left side of the discharge tray 81. In addition, the opening/closing member 83 is opened to a left direction by hooking a finger in a groove portion 82b provided in the top cover 82. The open/close member 83 is formed substantially L-shaped along a shape of the top cover 82.
The opening portion 82a of the discharge tray 81 is open so that the supply port 32a for suppling the toner formed on the upper portion of the developing container 32 (upper side of the image forming apparatus) is exposed, and by opening the opening/closing member 83, a user can access the supply port 32a.
Incidentally, in the present Embodiment, a method (direct supply method) in which the user supplies the toner from the toner pack 100 (see
By this, when the remaining amount of the toner in the process cartridge 20 is low, it is not necessary to take out the process cartridge 20 from the printer main body 2 and replace the process cartridge 20 with a new process cartridge, so that usability can be improved.
In addition, the toner can be supplied to the developer container 32 at a lower cost than replacing the entire process cartridge 20. Incidentally, in the direct supply method, it is not necessary to replace various rollers, gears, etc., and therefore, the cost can be reduced, even as compared with a case where only the developing device 30 of the process cartridge 20 is replaced, as well. Incidentally, the image forming apparatus 1 and the toner pack 100 constitute an image forming system 1000.
(Configuration of Toner Pack)
Next, a configuration of the toner pack 100 (accommodating container) accommodating the toner (powder) of the present Embodiment will be described using
As mentioned above, the toner pack 100 (accommodating container) is mountable to and dismountable from the image forming apparatus 1 and is an accommodating container having flexibility that can accommodate powder such as the toner.
As shown in
And the toner pack 100 is further provided with a shutter member 110, a seal member 104, and a base member 101. Incidentally, as shown in
(Pouch)
As shown in
The side portion SB of the pouch 103 is constituted as extending from a side of the bottom portion 103s to a side of the opening 103k so as the opening 103k disposed on an opposite side of the bottom portion 103s to be formed. In addition, inside of the side portion SB (103a) disposed on the side of the opening 103k, an “opening inner surface 103a” is disposed as described below.
In the present Embodiment, the side portion SB of the pouch 103 is provided with a (first) fold forming portion 75b forming a (first) folding shape 75. Incidentally, the fold forming portion 75b is formed along an edge portion 102f of a top surface 102t of the coupling member 102, which will be described below.
In addition, in the present Embodiment, as shown in
Specifically, in the present Embodiment, since the first part K101 of the side portion SB is welded to an outer circumferential surface 102b of the coupling member 102, the first part K101 of the side portion SB is stronger than the second part K102 of the side portion SB. When the side portion SB is pressed, the side portion SB tends to deform along the boundary portion K1. In the present Embodiment, by disposing the fold forming portion 75b at the boundary portion K1 between the first part K101 and the second part K102, when the side portion SB is pressed, the side portion SB tends to deform further at a location of the boundary portion K1, and it becomes easier for a crease (folding shape) to be formed.
And at least a part 75b0 of the fold forming portion 75b is formed at side of the bottom portion 103s from the top surface 102t of the coupling member 102. For example, as shown in
Specifically, when the fold forming portion 75b is disposed at the boundary portion K1, by disposing at a position moved more to the side of the bottom portion 103s than a position of the top portion 102t, a width (deformation width) of the fold forming portion 75b becomes slightly wider, and thereby making it easier for the user to press the side portion SB. As a result, it becomes easier for the toner to be discharged from the toner pack.
For example, the part 75b0 of the fold forming portion 75b may be disposed on the side portion SB in a range from a position of the top surface 102t of the coupling member 102 to a position separated by 30 mm from the top surface 102t toward the side of the bottom portion 103s. By disposing the fold forming portion 75b in this range, it becomes easier for the user to press the side portion SB and the toner can be discharged more efficiently. Incidentally, more preferably, the fold forming portion 75b is disposed in a range from the position of the top surface 102t to a position separated by 15 mm from the top surface toward the side of the bottom portion 103s.
As shown in
By disposing the second fold forming portion, the toner can be discharged from the toner pack more efficiently.
For example, the side portion SB can be provided with a third part K103, a fourth part K104, and a fifth part K105, in order from the side of the opening with respect to the height direction Z0 (axial direction Z). The fourth part K104 connects the third part K103 and the fifth part K105, and is configured to have smaller strength than the third part and the fifth part. The second fold forming portion 76b may be formed in the fourth part K104.
By making the strength of the fourth part lower than that of the third part and the fifth part, when deformation occurs around the folding shape 75 due to the pressure, the fourth part K104 is deformed first (easily deformed). Therefore, by disposing the second fold forming portion in the fourth part, when the folding shape 75 is formed by the fold forming portion 75b, it becomes easier for the second folding shape 76 to be formed along the second fold forming portion 76b. As a result, it becomes easier for the toner in the toner pack to be discharged.
In other words, by disposing the fold forming portion 75b and the second fold forming portion 76b, when the side portion SB is pressed, the third part K103 of the side portion SB will be closer to the top surface 102t, and the fifth part K105 will be closer to an opposite side of the side portion SB. Thus, it becomes easier for the toner in the toner pack to be discharged.
Incidentally, in the present Embodiment, the fold forming portion 75b and the second fold forming portion 76b are disposed in the side portion SB so as to be substantially parallel to each other, but they do not necessarily be parallel.
As shown in
By disposing the third fold forming portion, it is possible for the side portion SB to deform more smoothly (following) when deformation occurs around the folding shape 75 and the second folding shape 76. As a result, the toner can be more efficiently discharged from the toner pack.
Incidentally, as shown in
As a processing method for the fold forming portions (75b-78b), a pressing method may be employed for the side portion SB of the pouch 103. Other than the pressing method, a bending method, a thermal processing method or a half-cutting method, or any combination of these methods may be employed for the pouch (103).
(Fold Forming Portion)
Next, a configuration of the “fold forming portion 75b” and the “second fold forming portion 76b” of the present Embodiment, the processing methods (processing conditions) thereof, and a cross-sectional shape after processing will be described using
The fold forming portion 75b of the present Embodiment is formed by the “pressing method” as described above.
Specifically, as shown in
That is, the “fold forming portion 75b” formed by the pressing method from a surface (side) that is to be the inside 103a of the pouch 103 includes a protruding portion SBP2 protruding to the “outside 103b” of the pouch from the flat portion SBP1 that is a flat portion (surface) of the outside 103b of the side portion SB.
In addition, a protruding direction of the protruding portion SPB2 may be opposite between inside and outside. Furthermore, the same can be applied to a protruding portion SPB4.
In addition, as shown in
In addition, in the present Embodiment, a thickness (T2) of the protruding portion SBP2 is substantially the same as a thickness (T1) of the flat portion SBP1. Incidentally, in order to make it easier to form the fold forming portion, the thickness (T2) of the protruding portion SBP2 may be configured to be smaller than the thickness (T1) of the flat portion SBP1.
In addition, in the present Embodiment, a height H1 of the protruding portion SBP2 can be set smaller than the thickness T1 of the flat portion SBP1. By this, it is possible to form the fold forming portion on the pouch more easily and to stabilize a shape of the pouch upon accommodating the toner.
In addition, in the present Embodiment, a width (W1) of the protruding portion SPB2 is larger than the height H1 of the protruding portion SBP2. By this, it is possible to stabilize the shape of the pouch upon accommodating the toner.
In addition, the protruding portion SPB2 has a cross-sectional shape of a smooth circular arc. By this, it is possible to keep a strength of the fold forming portion high.
On the other hand, as shown in
Specifically, the second fold forming portion 76b is formed by the pressing method from the outside 103b so as to be protruded inside from the surface that is to be the inside 103a (a flat portion SBP3) with respect to the side portion SB of the pouch 103.
That is, the “second fold forming portion 76b” formed by the pressing method from the surface (side) that is to be the outside 103b of the pouch 103 includes the protruding portion SBP4 protruding to the “inside 103a” of the pouch from the flat portion SBP3 that is the flat portion (surface) of the inside 103a of the side portion SB.
In addition, with respect to the thickness T2 and the height H1 of the protruding portion SBP4 of the second fold forming portion 76b, it is possible to configure in the same manner as the fold forming portion 75b.
Incidentally, with respect to other fold forming portions (e.g., the third fold forming portions 77b and 78b), conditions of the pressing method (e.g., a pressing direction) can be altered depending on the “mountain fold” or the “valley fold”, as the fold forming portion 75b (mountain fold) or the second fold forming portion 76b (valley fold).
In addition, the fold forming portion 75b (or the second fold forming portion 76b) may have a cross-sectional shape (modification example), for example, as shown in
Specifically, a cross-sectional shape of the fold forming portion 75b shown in
In addition, a cross-sectional shape of the fold forming portion 75b shown in
In addition, the same can be applied to the other fold forming portions (e.g., the second fold forming portion and the third fold forming portions).
(Coupling Member)
As shown in
The outer circumferential surface 102a of the coupling member 102 is a surface of the side portion SB of the pouch 103 that is welded in order to couple with the opening inner surface 103a. On the other hand, the inner circumferential surface 102b constitutes the “hole portion” into which the base member 101, described below, is inserted.
Incidentally, the base member 101 has a “discharge path 101h (communicating portion)” that communicates inside and outside of the pouch 103, as described below. The base member 101 and the coupling member 102 constitute the “communicating member” of the present invention.
In the coupling member 102, a “recessed portion 102c” as described below is also formed.
In the present Embodiment, the coupling member 102 and the pouch 103 are constituted by resin of the same material, and the coupling member 102 is attached to the inside the pouch 103 on the side of the opening (opening inner surface 103a) by welding. Incidentally, after the coupling member 102 is attached to the pouch 103, the toner is filled in the pouch 103. Then, the base member 101 described below is attached further to the coupling member 102.
In addition, in the present Embodiment, the outer circumferential surface 102a of the coupling member 102 is provided with a welded portion 1021, and the coupling member is attached to the inside the pouch on the side of the opening by welding the welded portion 1021 inside the side portion SB (opening inner surface 103a).
In the present Embodiment, the welded portion 1021 is provided with a first welded portion 102g (welded rib) and a second welded portion 102h (welded rib) in a direction L50 along a first direction L5 in which the crease (line) 751 of the folding shape 75 (see
Incidentally, in the present Embodiment, the direction L50 is illustrated as extending in the “same” direction as the direction L5, but the direction L50 need not necessarily be the “same” direction as the direction L5, as long as the direction L50 is along the direction in which the direction L5 extends. In addition, in the present Embodiment, the direction L5 is illustrated as being “orthogonal” to the height direction Z0, but it need not necessarily be “orthogonal” and the direction L5 may be configured to be crossed with the height direction Z0.
The first welded portion 102g and the second welded portion 102h both extend further outside from the edge portion 102f and are disposed on different sides of the coupling member 102 with respect to the first direction L5 (direction L50). By disposing the first welded portion 102g and the second welded portion 102h, it is possible for the coupling member to be more easily and securely attached to the pouch upon welding the coupling member to the pouch 100.
In addition, the edge portion 102f of the top surface 102t is provided with a linear portion SL having a linear shape extending in a direction L51 along the first direction L5. Incidentally, in the present Embodiment, the direction L51 is illustrated as extending in the “same” direction as the direction L5, but the direction L51 need not necessarily be the “same” direction as the direction L5, as long as the direction L51 is along the direction in which the direction L5 extends.
The linear portion SL is disposed so as to be positioned between the first welded portion 102g and the second welded portion 102h with respect to the first direction L5 (direction L51) when viewed along a direction crossed with the height direction Z0 and the first direction L5. Incidentally, as shown in
By disposing the first linear portion SL1 and the second linear portion SL2 extending in the direction L51 between the first welded portion 102g and the second welded portion 102h, it is possible for the coupling member to be easily welded to the pouch and for the folding shape (fold forming portion) to be easily formed on the side portion SB of the pouch.
When the coupling member 102 is viewed along the height direction Z0 (axial direction Z) connecting the side of the opening 103k and the side of the bottom portion 103s, the top surface 102t of the coupling member has a substantially hexagonal shape. The first welded portion 102g and the second welded portion 102h are disposed at a pair of opposite corner portions AN1 and AN2 of the hexagon.
Upon coupling the opening inner surface 103a of the pouch 103 and the outer circumferential surface 102a of the coupling member 102, a space between a first corner portion 103x and a second corner portion 103y of the opening 103k is filled with the first welded portion 102g and the second welded portion 102h. By this, it is possible to weld areas that are difficult to couple upon welding more easily.
Incidentally, the coupling method may be any methods known to a person having ordinally skill in the art, for example, a method using various adhesives such as hot melt, a method coupling the pouch 103 to the outer circumference of the coupling member 102 by heat welding, etc.
Incidentally, when the pouch 103 and the coupling member 102 are constituted by resin of the same material and coupled by heat welding, a combined unit does not contain a part made of different materials, and thereby making it easier to recycle, etc., and it is possible to contribute to a reduction in environmental impact.
(Base Member)
Next, the base member 101 will be described using
As shown in
Specifically, as shown in
Incidentally, the top surface 101s (opposite surface) is opposing the bottom portion 103s of the pouch 103. The toner outlet 101r is formed in the outer circumferential surface 101b. The shaft portion 101a engages with the inner circumferential surface 102b (hole portion) of the coupling member 102.
The base member 101 is provided with the “discharge path 101h” as a discharge hole for discharging the toner inside the toner pack 100. The discharge path 101h communicates from the side of the top surface 102t (opposite surface) and the top surface 101s (opposite surface) to a side of the discharge port 101r, and communicates between inside and outside of the toner pack 100.
By this, it is possible for the toner accommodated in the pouch 103 to be discharged outside the toner pack 100 through the toner outlet 101r.
In addition, as it can be understood from
By this, it becomes possible for the discharge of the toner to be realized more efficiently. That is, it makes possible for the pouch 103 to be deformed more toward a side of the discharge path 101h along the top surface 101s (inclined surface) connected to the discharge path 101h. As a result, a volume in the pouch 103 can be more reliably reduced, and it makes a supplying operation of the toner easier and thereby improving usability.
As shown in
It is possible to regulate a relative movement of both components except in a rotational direction by engaging the inner circumferential surface 102b (hole portion) with the shaft portion 101a. In addition, it is also possible to further regulate a relative movement of both components in the rotational direction by engaging the recessed portions 102c with the protruding portion 101x and the protruding portion 101y. By this, the base member 101 is held by the coupling member 102 without the relative movement.
The seal member 104 is constituted by a material such as an elastically deformable urethane foam, a non-woven fabric, etc. The seal member 104 is fixed to a surface 110f of the shutter member 110 with a double-sided tape, etc. By this, it is possible to suppress a toner leakage at an interface between the seal member 104 and the shutter member 110.
In addition, as shown in
For example, the toner pack 100 will be in an “open state” as shown in
In the “open state” shown in
(Coupling of the Toner Pack and the Supply Port)
Next, a preparatory operation for the user to supply the toner in the toner pack 100 to the developer container 32 of the image forming apparatus 1 by coupling the toner pack 100 and the supply port 32a of the image forming apparatus 1 will be described using
In the present Embodiment, the image forming apparatus 1 is provided with the supply port 32a (mounting portion) and a supplying operation can be performed by setting the toner pack 100 on the supply port.
Incidentally, as mentioned above, in an attitude in use, the supply port 32a is disposed on the upper side of the image forming apparatus 1 (see
As shown in
Incidentally, in the present Embodiment, the toner pack 100 is mounted on and dismounted from the supply port 32a along a direction G0 which is along the gravity direction G.
More specifically, the user aligns the height direction Z0 (axial direction Z) of the toner pack with the direction G0 and mounts the toner pack 100 on the supply port 32a along the direction G0.
After mounting, the user grips a gripping portion 310a of an operating lever 310 and rotates the operating lever 310 in the Z1 direction with the axial direction Z as the rotational center. Then, the shutter member 110 of the toner pack 100 rotates to be the “open state” (see
Conversely, when the user turns the toner pack 100 from the “open state” to the “shuttered state” (see
Incidentally, in the present Embodiment, the toner pack 100 is constituted to be mounted on the supply port 32a and supplies a developer to the image forming apparatus 1 during non-image formation when the image forming operation is not performed, and dismounted from the supply port 32a before starting the image forming operation.
(Toner Supply Operation with the Toner Pack)
Next, a supply operation for supplying the toner from the toner pack 100 mounted on the image forming apparatus 1 (supply port 32a) and its relationship to the “folding shape” will be described using
As mentioned above, upon supplying the toner to the image forming apparatus 1, the toner pack 100 is mounted on the supply port 32a of the image forming apparatus 1. While the toner pack 100 is mounted, the toner accommodated in the toner pack 100 is discharged from the toner pack 100 and supplied into the developer container 32 via the supply port 32a.
First, a method for discharging the toner accommodated in the toner pack 100 is described.
As shown in
The pouch 103 has flexibility so that the user can deform, and a material and a shape of the pouch 103 may be what is known to a person having ordinal skill in the art as well. In addition, with respect to the method for discharging the toner from the pouch 103, it is preferable for the user to squeeze the pouch 103 with fingers, when the pouch 103 has flexibility.
As mentioned above, the fold forming portion 75b is disposed along the edge portion 102f of the top surface 102t on the side portion of the pouch 103. By this, it becomes easier for the side portion SB to deform along the fold forming portion 75b when the user presses the side portion SB of the pouch with fingers to discharge the toner.
That is, as shown in
Specifically, in the present Embodiment, the edge portion 102f of the top surface 102t includes six sides SL1-SL6 of the hexagon. With respect to the first direction L5, a middle side SL1 and a middle side SL2 are disposed between the first welded portion 102g and the second welded portion 102h, and both of the middle side SL1 and the middle side SL2 are substantially parallel to the first direction L5.
On both sides of one of the middle side SL1, a lower side SL3 and an upper side SL4 are disposed so as to be adjacent to the middle side SL1, and also on both sides of the other of the middle side SL2, a lower side SL5 and an upper side SL6 are disposed so as to be adjacent to the middle side SL2. An outer shape of the edge portion 102f of the coupling member 102 is “line symmetrical” with respect to a straight line (the first direction L5) passing through the first welded portion 102g and the second welded portion 102h. That is, the top surface 102t of the coupling member 102 is “substantially hexagon” when viewed from the axial direction Z.
A folding shape 75a is formed in the mountain fold along one of the middle side SL1 of the edge portion 102f, and folding shapes 75a1 and 75a2 are formed in the valley fold along the lower side SL3 and the upper side SL4.
Similarly, the folding shape 75a is formed along the other of the middle side SL2, and folding shapes (not shown) are formed along the lower side SL5 and the upper side SL6.
In the present Embodiment, the (first) folding shape 75 should include at least the folding shape 75a, and it is more preferable to include all of the folding shapes 75a, 75al, and 75a2. That is, it is sufficient to provide the fold forming portion 75b corresponding to the folding shape 75a, and it is more preferable to provide the fold forming portion 75b corresponding to all of the folding shapes 75a, 75al, and 75a2.
Here, in the present Embodiment, the middle side SL1 (SL2) is a “straight (straight line) shape”. By this, it becomes easier for the (mountain) folding shape 75a to be formed.
Thus, by disposing the fold forming portion 75b forming the folding shape 75 near the edge portion 102f of the coupling member 102 (communicating member), it becomes possible to actively guide a position where the flexible side portion SB is deformed. By this, it becomes possible for the toner in the toner pack to be discharged more efficiently.
As mentioned above, the second fold forming portion 76b is disposed on the side portion of the pouch 103 at a predetermined interval (distance L8) from the fold forming portion 75b toward the side of the bottom portion 103. By this, it becomes easier for the second fold forming portion 76 to be formed as the folding shape 75 is formed by the fold forming portion 75b. Thus, it makes the deformation of the side portion SB more smoothly and the toner can be discharged more efficiently.
That is, as shown in
As mentioned above, the side portion SB of the pouch 103 is disposed to be crossed with the fold forming portion 75b and the third fold forming portions 77b and 78b are disposed on the side portion SB. By this, it becomes easier for the third folding shapes 77 and 78 to be formed as the folding shape 75 and the second folding shape 76 are formed, thereby making the deformation of the side portion SB more smoothly and it becomes possible for the toner to be discharged more efficiently.
Specifically, the third folding shapes 77 and 78 are formed so as to be crossed with the first folding shape 75 and the second folding shape 76 and form “mountain folds” in a widening direction toward the bottom portion 103s.
That is, the third folding shapes 77 and 78 are formed from both ends SL1a and SL1b of the middle side SL1 toward both ends 76a and 76b of the second folding shape 76.
By disposing the fold forming portion, it becomes easier for an inner surfaces of one side of the side portion SB1 and the other side of the side portion SB2 of the pouch 103 to be deformed so as to be in contact with the top surface 102t of the coupling member. And it becomes easier for the volume inside the pouch 103 to be reduced as the inner surfaces of the side portion SB1 and the side portion SB2 of the pouch 103 are in contact with each other.
Thus, as the “folding shape” is formed by disposing the first fold forming portion, the second fold forming portion and the third fold forming portion, it becomes easier for the side portion SB of the pouch to be deformed more smoothly, and it becomes possible for the toner in the toner pack 100 to be discharged more efficiently.
That is, it becomes possible for the pouch 103 of the toner pack 100 to be easily deformed and folded so as the volume of the pouch 103 to be as close to minimum as possible. In other words, when the user supplies the toner to the image forming apparatus 1 using the toner pack 100, it is easier for the user to deform the pouch 103 and to supply the toner, and thereby improving usability.
Incidentally, in the present Embodiment, a configuration provided with the first fold forming portion, the second fold forming portion and the third fold forming portion is described, however, it is sufficient to include at least the first fold forming portion.
In addition, as shown in
L8≥L9/2
That is, the interval between the “first fold forming portion 75b” and the “second fold forming portion 76b” with respect to the height direction Z0 can be set as the “distance L8”. On the other hand, the “distance L8” can be set larger than the shortest distance (L9/2) from a position where the first fold forming portion 75b is formed in the edge portion 102f of the top surface 102t of the coupling member 102 (the first middle side SL1 or the second middle side SL2) to a center position S01 of the top surface 102t.
By this, it becomes possible for the inner surfaces of the side portion SB1 and the side portion SB2 to be deformed so as to be in contact with the top surface 102t of the coupling member with little space or slack. And the inner surfaces of the side portion SB1 and the side portion SB2 of the pouch 103 are in contact with each other, and the volume in the pouch 103 is more likely to be reduced.
Incidentally, in the present Embodiment, the opening of the discharge path 101h is formed near the center position SOI of the top surface 102t of the coupling member 102. In addition, a center of the top surface 102t and a center of the opening of the discharge path 101h are disposed so as to overlap.
As mentioned above, the outer circumferential surface 102a of the coupling member 102 and the inner surface 103a of the opening of the pouch 103 are coupled by means of “heat welding”, etc. That is, with respect to the axial direction Z, a coupled portion of which a range of a region W is coupled (welded) constitutes the first part K101.
Here, the first part (coupled portion) is an integral constitution by the coupling member 102 made of resin or metal material and the pouch 103 (side portion SB), and a strength of the first part as rigidity with respect to a bending direction is higher than that of the second part K102. As mentioned above, it becomes easier for the (first) folding shape 75 to be formed by disposing the (first) fold forming portion 75b at the boundary portion K1 between the first part K101 and the second part K102.
Therefore, it becomes easier for the pouch 103 to be deformed and for the toner to be supplied, and thereby improving usability. Incidentally, a means for differentiating the strength of the side portion SB is not limited to the aforementioned configuration. For example, a thickness of the side portion SB itself of the pouch 103 may be partially varied, and a supporting (reinforcing) member may be attached to a portion of the pouch.
Incidentally, in the Embodiment 1 described above, the “fold forming portion” for the user to easily form the “folding shape” during supplying the toner is described, but it is also possible to make a certain degree of the “folding shape” be formed on the side portion of the pouch in advance. In addition, in this configuration, the same effect as described above can also be achieved.
For example, the toner pack 100 may include the flexible pouch 103 and the coupling member 102, and, on the side portion SB, the folding shape 75 may be formed along the edge portion 102f of the top surface 102t of the coupling member 102.
In addition, similarly, on the side portion SB, the second fold forming portion 76 may be formed at a predetermined distance L8 from a position of the folding shape 75 toward the side of the bottom portion 103s. Then, on the side portion SB, the third folding shapes 77, 78 may be formed connecting the folding shape 75 and the second folding shape 76.
Thus, by disposing the “folding shape” or the “fold forming portion” on the side portion of the pouch, it becomes easier for the pouch 103 to be deformed, and it makes possible for the toner to be supplied more efficiently and smoothly, and thereby improving usability.
Incidentally, the “folding shape” or the “fold forming portion” may be disposed on both sides of the side portion SB (the first side portion SB1 and the second side portion SB2), or only on one side. Incidentally, it is preferable to dispose the “folding shape” or the “fold forming portion” on both sides than only on one side, since it becomes easier for the toner (powder) to be discharged when it is disposed on both sides.
The Embodiment 2 will be described below using
Incidentally, the Embodiment 2 has basically the same configuration as the toner pack 100 according to the Embodiment 1, therefore, differences will be described below.
As shown in
Specifically, the top surface 102t (deformed shape) of the Embodiment 2 is constituted by a first curved portion CL1, a second curved portion CL2, a first linear portion SL3, a second linear portion SL5, a third linear portion SL4, and a fourth linear portion SL6.
One end of the second linear portion SL5 is connected to one end of the first linear portion SL3 so as to form a first interior angle A1 therebetween.
In addition, one end of the fourth linear portion SL6 is connected to one end of the third linear portion SL4 so as to form a second interior angle A2 therebetween.
On the other hand, the first curved portion CL1 connects the other end of the first linear portion SL3 and the other end of the third linear portion SL4, and the second curved portion CL2 connects the other end of the second linear portion SL5 and the other end of the fourth linear portion SL6.
In other words, in the present Embodiment, the curved portion CL1 of an edge portion 602f of the coupling member 102 is formed as a circular arc shape tangent to the middle side SL1 (imaginary line), the lower side SL3 (imaginary line), and the upper side SL4 (imaginary line) of the Embodiment 1. That is, the imaginary lines SL1, SL3, and SL4 are tangent lines of the “circular arc” of the curved portion CL1. Therefore, the edge portion 602f of the Embodiment 2 does not have inflection points P1 and P2 as in the Embodiment 1.
In other words, the first curved portion CL1 is constituted by a first circular arc portion CL1s and the second curved portion CL2 is constituted by a second circular arc portion CL2s. The first circular arc portion and the second circular arc portion have the same radius of curvature.
In addition, the first interior angle A1 and the second interior angle A2 are the same obtuse angle.
And, in the present Embodiment, similar to the Embodiment 1, a welded portion 1021 is provided with a first welded portion 102g and a second welded portion 102h. The first welded portion 102g extends outside from a position corresponding to a vertex TP1 of the first interior angle A1. The second welded portion 102h extends outside from a position corresponding to a vertex TP2 of the second interior angle A2.
In addition, similar to the Embodiment 1, also in the Embodiment 2, a relationship between a distance L8 (see
L8≥L9/2
That is, an interval between a “first fold forming portion 75b” and a “second fold forming portion 76b” with respect to the height direction Z0 can be set as the “distance L8”. On the other hand, the “distance L8” can be set larger than the shortest distance (L9/2) from a position where the first fold forming portion 75b is formed in an edge portion 102f of the top surface 102t of the coupling member 102 (the first middle side SL1 shown with the imaginary line) to a center position S01 of the top surface 102t.
The Embodiment 2 has the same effects as the Embodiment 1. That is, it becomes easier for the pouch 103 of the toner pack 100 to be deformed and for the toner to be supplied, and thereby improving usability. Furthermore, in the Embodiment 2, by the inflection points P1 and P2 being eliminated, it becomes possible to suppress a local concentration of stress acting on the pouch 103 when the pouch 103 is deformed during the supplying operation, and it also becomes possible to suppress breakage, etc. of the pouch.
According to the present invention, an accommodating container capable of accommodating powder and an image forming system are provided.
The present invention is not limited to the above embodiments, and various changes and variations are possible without departing from the spirit and scope of the present invention. Therefore, the following claims are attached to publicly disclose the scope of the present invention.
This application claims priority on the basis of Japanese Patent Application 2020-207264 filed on Dec. 15, 2020, and Japanese Patent Application 2021-172315 filed on Oct. 21, 2021, which are hereby incorporated by reference herein in its entirety.
Number | Date | Country | Kind |
---|---|---|---|
2020-207264 | Dec 2020 | JP | national |
2021-172315 | Oct 2021 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
4232721 | Martin | Nov 1980 | A |
4308904 | Martin et al. | Jan 1982 | A |
7248824 | Takami | Jul 2007 | B2 |
7426362 | Takami | Sep 2008 | B2 |
7590374 | Takami | Sep 2009 | B2 |
7734230 | Takami | Jun 2010 | B2 |
20050117936 | Takami | Mar 2005 | A1 |
20070242984 | Takami | Oct 2007 | A1 |
20080063435 | Takami | Mar 2008 | A1 |
20090016777 | Miyamoto | Jan 2009 | A1 |
20090074471 | Takami | Mar 2009 | A1 |
20090290903 | Horikawa et al. | Nov 2009 | A1 |
20090290904 | Kawai et al. | Nov 2009 | A1 |
20090297202 | Takarada | Dec 2009 | A1 |
20090297214 | Chadani et al. | Dec 2009 | A1 |
20090297215 | Munetsugu et al. | Dec 2009 | A1 |
20110280621 | Suzuki et al. | Nov 2011 | A1 |
20130022368 | Takarada et al. | Jan 2013 | A1 |
20130039678 | Yoshida et al. | Feb 2013 | A1 |
20130114972 | Takarada et al. | May 2013 | A1 |
20130121720 | Hoshi et al. | May 2013 | A1 |
20130170851 | Takarada et al. | Jul 2013 | A1 |
20150037065 | Takarada et al. | Feb 2015 | A1 |
20150139684 | Nakazawa et al. | May 2015 | A1 |
20150253723 | Morioka et al. | Sep 2015 | A1 |
20150284145 | Arimoto | Oct 2015 | A1 |
20150367614 | Sasaki | Dec 2015 | A1 |
20160257041 | Takarada et al. | Sep 2016 | A1 |
20170261926 | Kashiide et al. | Sep 2017 | A1 |
20170261927 | Sato et al. | Sep 2017 | A1 |
20180039206 | Hoshi et al. | Feb 2018 | A1 |
20180253057 | Koishi et al. | Sep 2018 | A1 |
20180321637 | Sato et al. | Nov 2018 | A1 |
20190009950 | Farstad | Jan 2019 | A1 |
20190179258 | Kashiide et al. | Jun 2019 | A1 |
20190258202 | Kamoshida et al. | Aug 2019 | A1 |
20200142353 | Sato et al. | May 2020 | A1 |
20200249623 | Sato et al. | Aug 2020 | A1 |
20200409304 | Kashiide et al. | Dec 2020 | A1 |
20210263467 | Sato et al. | Aug 2021 | A1 |
20210311431 | Kashiide et al. | Oct 2021 | A1 |
20220035307 | Munetsugu et al. | Feb 2022 | A1 |
20220155708 | Sato et al. | May 2022 | A1 |
20220155722 | Kashiide et al. | May 2022 | A1 |
20220197211 | Sato et al. | Jun 2022 | A1 |
20220404738 | Toba et al. | Dec 2022 | A1 |
20220413414 | Ozaki et al. | Dec 2022 | A1 |
20230017354 | Ozaki et al. | Jan 2023 | A1 |
20230031856 | Munetsugu et al. | Feb 2023 | A1 |
20230096202 | Sato et al. | Mar 2023 | A1 |
20230176503 | Fukui et al. | Jun 2023 | A1 |
20230185234 | Kashiide et al. | Jun 2023 | A1 |
20230205114 | Ozaki et al. | Jun 2023 | A1 |
20230205129 | Suetsugu et al. | Jun 2023 | A1 |
20230244157 | Kubo et al. | Aug 2023 | A1 |
Number | Date | Country |
---|---|---|
S55-143166 | Nov 1980 | JP |
H08-30084 | Feb 1996 | JP |
2005-070449 | Mar 2005 | JP |
2006-184918 | Jul 2006 | JP |
2012-053423 | Mar 2012 | JP |
2012-163808 | Aug 2012 | JP |
2014-174443 | Sep 2014 | JP |
Entry |
---|
International Search Report and Written Opinion for International Patent Application No. PCT/JP2021/046399. |
Co-pending U.S. Appl. No. 18/201,828, filed May 25, 2023. |
Co-pending U.S. Appl. No. 18/207,819, filed Jun. 9, 2023. |
Co-pending U.S. Appl. No. 18/228,032, filed Jul. 31, 2023. |
Number | Date | Country | |
---|---|---|---|
20230266695 A1 | Aug 2023 | US |
Number | Date | Country | |
---|---|---|---|
Parent | PCT/JP2021/046399 | Dec 2021 | WO |
Child | 18142175 | US |