TW201207581A - Powder receptacle, powder conveyance device and image forming device - Google Patents

Abstract

Provided with a deformable powder holder (66) formed from a flexible material with an aperture on one end and internally accommodating a powder (T), the disclosed powder receptacle (61) is configured so as to feed the powder (T) from the aperture by pressing and displacing towards the aperture a feed member (81) outside of the powder holder (66). On the aperture end, an ejection unit (67) is provided which, fixed to a powder conveyance device, ejects into the powder conveyance device the powder (T) fed from the aperture. Furthermore, provided on the edge opposite of the aperture side is a passive engagement unit which is engaged by an engagement unit while being biased in the direction opposite of the displacement direction of the feed member (81) of the powder conveyance device.

Description

201207581 VI. TECHNOLOGICAL FIELD OF THE INVENTION [Technical Field] The present invention relates to a powder container for accommodating powder particles therein, and a powder conveying device for transporting particles contained in a powder container to a discharge portion, and An image forming apparatus composed of these technologies. · [Prior Art] An electrophotographic image forming device towel such as a photocopier, a printer, a facsimile machine, or a composite machine of these types, which is called a toner or a carrier. Powder image ^ image) and money image. In this kind of landscape, the shape of the wire is set to #, while the image is consumed while the toner is consumed, so the carbon nano-carbon powder is usually installed in the image forming device, and when the toner is not in the toner, it is exchanged for new carbon. Add toner to the meal. In addition, in the use of the carbon toner replenishing method using the carbon neon as described above, in order to reduce the cost of operation (r^nmg^ost), the user desires to use the carbon powder in the carbon no-charge as much as possible for the toner. A method of using a container in a cylindrical container, by rotating the container, to point out the point to the discharge portion, and the screw having the screw drill rod is disposed inside the container. Rotating to the direction of the rotation, ==:=: square == setting _ and the weaving part is provided with the screw, there is a problem of increasing the cost of the consumables, and there is an increase in the environmental load due to the secret of the capital/original. Rod, the way to send the bolts, there is no need to set the position of the screw in the inside of the container.) There is a shape of the outlet with the body/body; the side is provided with the shape of the outlet (the lateral or exchange is easy to slip and it is difficult to fix the grip) The purpose of the toner is less than that of the carbon powder. In addition, as the conventional method of transporting the above-mentioned bolts or screw drills, there is the following method of 201207581. (4) Give vibration (reciprocating motion) to (4) Move/discharge the toner by the inertial force of the toner (refer to Patent Document U. This method, in the case of a large amount of toner contained in the state of the toner) "Let's gather and move": It is possible to sufficiently ensure the transport speed of the toner when it is reciprocated every time due to vibration. However, as the volume of the toner is reduced, the pile of carbon powder collapses, and it is thin and wide. Therefore, there is a problem that the transport speed of the toner at the time of recording by the vibration decreases with the height of the stack of the carbon powder, and the profit method = the problem of the transport speed. In addition, there is also a problem in the capacity of the fourth generation. Bringing a sound 'to make the image disorder. In each of the above-described transport methods, the following method is adopted: a method of pressing the contact convex portion from the outside of the container and deforming the shaft, and sending the inner portion is referred to Patent Document 2) According to the transportation method, it is possible to use the force: shadow C: = condensate' and reduce the occurrence of large vibration or blistering. Patent Document 1: Japanese Patent Laid-Open No. 2002_46843 Patent Document 2: Japanese Patent Special Publication No. U.S. Patent No. _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Carbon becomes the appropriate shape possibility. Moreover, the dream is right to 'two 疋, or the gluten can not move in a container, causing __, force to cause integrity. There is no possibility to send the toner of Gu Yizhong to the last possible The invention is proposed in the above-mentioned problem, and the stabilization of the delivery amount and the reduction of the amount of the residual (four) particles are /, and it is sufficient to achieve the image formation device for the powder image, the grain receiving state, the powder conveying device, and the shadow for solving The above issues, the achievement of this issue The present invention is characterized in that it has a particle accommodating portion which is formed by arranging the granule of the invention of the first item and deformably formed of a soft material, and accommodating the powder sputum inside, and 5 is formed therein. The end portion of the opening 201207581 is fixed to the powder conveying device, and is discharged from the opening portion to the powder feeding device; and the needle stopping portion is disposed on the opposite side of the lining mouth material The squeaking and squeezing of the squeaking and squeezing of the yarn is carried out, and the delivery member that moves toward the sweat is slid to the opposite direction of the movement direction; In the opening portion, the powder is sent out from the opening portion. μΪΠ first locks the injection portion to the Mka stop portion, and the irregular deformation of the particle storage portion with the delivery operation of the powder particles Moreover, it is possible to suppress the poor shipping of the particles. The invention of the second item of the scope of the patent application is the scope of the patent application! Among the powders described in the section, there is a venting unit that can perform internal and external ventilation. In order to feed the inside powder to the discharge portion side, the powder granule accommodating portion is pressed inward to be deformed, and the air in the powder displacement portion can be turned from the job portion to the outside. Thereby, it is possible to prevent an increase in the internal pressure accompanying the deformation of the powder accommodating portion, and it is possible to prevent a problem such as an excessive discharge amount of the particles or a scattering of the powder at the destination. Further, after the powder is sent out, the powder containing portion sucks in from the venting portion according to its own restorability or the weight of the particles. In this way, the air is sucked into the granule accommodating portion via the ventilating portion, so that the powder granules are swelled and the original shape is replenished, and the granules are decomposed by the passing air, and the slavishness of the recording is improved. Delivered powder. The invention of claim 3, wherein the venting portion is provided in the powder accommodating portion in the powder granules described in claim 2 of the patent application. At this time, the air can be inhaled at a position close to the contained powder, so that the decomposition effect of the powder can be improved. 0 - The invention of the fourth aspect of the patent application is the benefit of the powder contained in the third item of the patent scope. The middle portion is provided on the upper surface of the particle storage portion. By providing the fluorine-passing portion on the upper surface of the powder accommodating portion, it is possible to prevent the vent portion from being blocked by the powder particles. According to a fifth aspect of the invention, in the granule hopper according to the third aspect of the invention, the granule accommodating portion is constituted by a member having air permeability. In this case, it is not necessary to provide a vent hole or a damper in the granule accommodating portion in order to form the vent portion, and the number of the vent holes is reduced, and the same action and effect as described above can be easily achieved. In addition, since it is not easy to block as compared with the case where the filter is not partially placed, it is possible to constantly ensure the deformation or breakage of the ventilating portion of the ventilation 201207581 for a long period of time. Further, defects such as deformation or peeling of the powder accommodating portion do not occur, and reliability is improved. According to a sixth aspect of the invention, the ventilating portion is provided in the discharge portion in the powder container according to the second aspect of the invention. At this time, it is easy to discharge the exhaust gas in the vicinity of the discharge portion, and it is possible to prevent the discharge of the particles from being highly prevented. According to a seventh aspect of the invention, in the powder container according to the sixth aspect of the invention, the liquid container is disposed on the upper surface of the discharge portion and the discharge port provided on the discharge portion. The venting section. By providing the vent portion on the upper surface of the discharge portion, it is possible to prevent the vent portion from being clogged by the particles. Further, by providing the vent portion so as to face the discharge port, it is possible to perform the exhaust gas more efficiently. The hair of the patent application No. 8 is characterized in that the core powder is reduced (four), and has a powder accommodating portion 'the powder accommodating portion is formed at the end portion and has a mouth portion, and contains powder particles therein, and is soft. The material is deformably formed, and the delivery member is pressed from the outside of the particle storage portion and moved toward the opening to send the particles from the opening; the discharge portion is formed in the formation One end portion of the particle accommodating portion of the opening portion is fixed to the powder conveying device, and discharges the powder particles sent from the opening portion to the particle conveying device; The opposite end portion of the opening portion side of the particle accommodating portion is provided in a direction opposite to the moving direction of the delivery member by the locking portion ' of the granule conveying device And stuck. By locking the end portion of the tertiary grain collector by the locking portion, it is possible to suppress irregular deformation of the particle storage portion accompanying the feeding operation of the above-mentioned particles, and it is possible to suppress the conveyance failure of the particles. The invention of claim 9 is the powder according to the eighth aspect of the patent application, wherein the locking portion is movable in a direction opposite to the discharge portion side and the non-turning side, ’,! The elastic member acts in a direction opposite to the discharge portion side of the locking portion. When the "grain granules are being fed out", the granule accommodating portion is moved to the discharge unit by the moving member, and the locking portion of the end portion of the accommodating granule container is also stretched toward the discharge portion side. 2 The force of the elastic member is pulled back in the opposite direction to the discharge side. In this way, it is possible to suppress the irregular deformation of the powder accommodating portion of the powder granules, and it is possible to suppress the invention of the ninth item of the application of the 凊 凊 凊 2012 2012 2012 2012 2012 2012 2012 2012 2012-0781 The transport device has a venting portion that can perform internal and external ventilation. At the time of the feeding operation of the powder particles, when the powder accommodating portion is deformed by being pushed into the inner side by the feeding member, the air in the powder accommodating portion is discharged to the outside through the vent portion. Thereby, it is possible to prevent an increase in the internal pressure accompanying the deformation of the powder accommodating portion, and it is possible to prevent the discharge amount of the powder particles from being excessive, or scattering of the powder at the destination of transportation. In addition, the powder accommodating portion is inflated by the restorability of the powder or the weight of the granules after the feeding operation of the granules, thereby allowing the air absorbing portion to inhale. By sucking air into the granule accommodating portion via the venting portion, the granule accommodating portion can be easily expanded to return to the original shape, and the air can be decomposed by the inhaled air, so that the transportability of the powder can be improved. It can carry out stable powder delivery. w The invention of claim 11 is that the venting portion is provided in the powder accommodating portion in the transport device of the first item of the fourth item. At this time, the age is close to the 彳 grade, and the granules are mixed, so the effect of the powder is improved. In the particle transport device according to the eleventh aspect of the invention, the ventilating portion is provided on the upper surface of the granule accommodating portion. By providing the ventilating portion on the surface of the powder reduction, it is possible to prevent the vent portion from being clogged with the granules. The granules described in the granules are easily vented in the vicinity of the granules, and the discharge of the granules can be prevented. The invention of the 14th item of the application for the purpose of the application is in the 13th of the patent scope, and the discharge port of the second is in the opposite direction... The invention of the pet claiming the special / fine item 15 is that the invention has a patent 1_ 8 _ pull An image forming device of the delivery device. The powder described in the worm has the yarn formed by the miscellaneous transport device as described in the eighth aspect of the patent application device. According to the present invention, it is possible to suppress irregular deformation of the powder accommodating portion. Therefore, it is possible to suppress the conveyance failure of the powder sheet, and it is possible to stabilize the amount of powder transported and reduce the amount of residual powder. effect. [Embodiment] Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the drawings, the same or corresponding portions are denoted by the same reference numerals, and the repeated description is omitted or omitted. (Embodiment 1) In the first and second drawings, the configuration and operation of the entire image forming apparatus will be described. The image of the image portion is a block diagram showing the structure of the printer as the image forming apparatus, and the second diagram is for the image forming apparatus, and the inter-reproduction unit 1G is disposed side by side with the copying belt 11 in the opposite direction.

= nine If t, deep red, cyan, black) corresponding image forming portions 6Y, (10), 6C, sighing the four image forming portions 6Y, 6M, 6C, 6Bk|^f_ of the apparatus body (10), toner of the steps Since the colors are substantially the same except for the difference in color, the image forming unit 6 is omitted, and in the second drawing, Μ, C, Bk). The letter of the symbol in the body drum 1 and the secondary copying wheel 9 (Y, referring to FIG. 2, the image forming portion 6 is used as a developing body as a developing portion of the charging portion around the drum 1 as a developing portion In the figure, only the developing device 5) is shown. In the photosensitive wheel rim:: constituting (in the step of exposing, exposing step, developing step, copying step 22, step (the desired toner image of the charging step. ~ first step)' is formed on the photoreceptor drum 1 The photoreceptor drums forming the image forming portion 6 can be arranged to be cut relative to the secret wire. 51 Washing portion 2 minutes, when the axe is reached, 'can be exchanged for new products. Unloading. Then' in each single image The device 5 is in the portion 6: photoreceptor drum! 'The charging portion 4, =. can be __ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The structure is as shown in Fig. 2 as a switch ___51 201207581 is disposed under the developing wheel 51. The bamboo s is disposed in the developer accommodating portion 53, 54' | ^ The ink blade of the component (doctor blade) 52, 55, 56, the outer casing 5 containing the developer G, the two components of the two conveying screw rods and the carbon powder which are transported by the carrier, and the toner are used as the developer. G, the concentration of the carbon powder in the carrier G is not used. In addition, in the developing device 5, two types of detection imaging are used, and the imaging agent G is used here. The surface of the developing wheel 51 is a developer of a component which is composed of carbon in the blasting place. It may be roughened in various ranges from j to 35 μΐΏΚζ by using various kinds of spraying other than sand blasting. Further, the depth of the circle is ~1 A plurality of grooves, the groove treatment, or a waveform having a _ direction, or a squat, or a vertical direction to the image wheel 51. «, _ _ image wheel ^: ^; 'Or formed into a 田田 AbiAV 幻幻曲^成槽' or roughen the surface ^^^ The developing wheel 51 slides down, and the I1 If light body drum does not intermittently act on the developing wheel 51 1 by the casting (not shown), clockwise in the second figure === At the position of the charging unit 4, the photosensitive portion 4 is brought into contact with (4) snow ^ (charged engineering). Here, as the charging The charging roller 4a that is in contact with the photoreceptor drum 1 is used as the unit, but a charging unit that is electrically connected to the photoreceptor drum 1 such as a thin (four) and (four) may be used. The surface reaches the irradiation position of the laser light L emitted from the exposure unit (not shown), and the exposure sweep at the position Forming an electrostatic latent image (electr ei i fine e exposure step). ' Thereafter, the surface of the photosensitive ship 1 reaches the relative position of the developing wheel 51 of the developing device 5, at which the electrostatic latent image is formed _ The desired toner image (development step). Thereafter, the surface of the photoreceptor wheel 1 reaches the position opposite to the intermediate copy belt n and the first copy biasing wheel 9 'the toner on the photoreceptor drum! The image is copied on the intermediate copy tape u (--copy step). At this time, 'unreproduced toner on the drum drum i is small. In addition, the first copy bias wheel 9 is used here. The contact of the photoreceptor drum rim is in contact with the wheel, but it is also possible to adopt a belt contact method in which the photoreceptor drum 1 contacts the belt, or a non-contact method such as a transfer charging member. Thereafter, the surface of the photoreceptor drum 1 reaches a position opposed to the cleaning unit 2, and at this position, the uncleaned toner remaining on the photoreceptor drum rim is recovered by the cleaning blade 2a (cleaning step). Further, as the cleaning method, an electrostatic discharge method in which the brush and the roller to which the cleaning bias is applied are brought into contact with the photoreceptor drum 1 to recover the unreproduced toner can be applied. Finally, the surface of the photoreceptor drum 1 reaches a position opposite to the neutralization portion 4 (not shown), and the residual potential on the photoreceptor drum 1 is removed at this position. Further, the static eliminating portion may be a method of forcibly reducing the residual potential by corona charging, or may be irradiated with light on the mechanical drum rim to expose the material having a residual potential. Further, according to the charging method of the drum rim _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Further, the above-described imaging procedures are performed on the four image forming portions 6Y, 6M, 6C, and 6Bk, respectively. In other words, according to the image information read by the reading unit 32 shown in Fig. 1, the photoreceptor of each of the image forming units 6Y, 6M, and 6C and the ship is disposed from an exposure unit (not shown) disposed under the image forming unit. The drum L is irradiated with laser light L (refer to Fig. 2). Specifically, the laser light L is emitted from the light source, and the laser light 1 is scanned by the rotary driving facet mirror and is irradiated onto the photoreceptor drum by a plurality of optical elements. Thereafter, the toner images of the respective colors formed on the photoreceptor drum 1 are repeatedly reproduced on the intermediate tape 11 through the developing step. In this way, a silky image is formed on the belt u. The four-copy crowns 9Y, 9M, and 9C respectively sandwich the intermediate copy belt u between the photoreceptor drums 1Y, 1M, ic, and 1Bk to form a secondary copy nip. The filaments are applied with a reverse polarity bias opposite to the polarity of the toner on the primary biasing biasing wheels 9Y, 9M, 9C, 9Bk. Weaving, (4) «(4) _ Qi Cai Cai scan, in turn through the respective - inner pressure roller 9Y, 9M, 9C, copy the nip point. Thus, toner images of various colors are formed on the photosensitive drum rim γ: offsets 1C and 1Bk, and _copy is repeated on the intermediate copying belt u. Thereafter, the position of the wheel (four) placed between the tissues of the matte images of the respective faces is overlapped and reproduced. In this position, the secondary copy support wheel is added between the towel (four): Na fine. Final Na = pulley ^ Copy at the position transported to the secondary copy nip point, paper making, etc. / ΐ intermediate copy tape 11 remains unreplicated on the quilt ρ. In this way, the end of the intermediate copy belt „ one of the battles of the complex n in this 'transport two: domain system « inspection 鄕 (four) Ρ is the ship is installed under the 201207581 100 paper feed 26 through the paper feed wheel 27 and hinder The material to be transported by the wheel pair 28, etc., in detail, the copy material p such as copy paper is stacked and stored on the paper feed unit 26. Then, when the paper feed roller 27 is rotationally driven in the counterclockwise direction in Fig. 1, The uppermost material to be copied p is supplied between the wheels of the barrier wheel pair 28. The material P to be transported to the barrier wheel pair 28 is temporarily stopped at the wheel nip point of the barrier wheel pair 28 that stops the rotational motion. The color image matching timing on the intermediate copy belt u will hinder the wheel pair 28 from rotating and driving 'transporting the copied material j^ to the secondary copy nip point, and copying the desired color image on the copied material P. Thereafter, The copied material p on which the color image is copied at the position where the nip point is copied twice is transported to the fixing portion 2G. _, at this position, the heat and pressure generated by the fixing wheel and the pressure wheel are fixed on the surface of the color image. In the material P to be copied Thereafter, the copied material P passes between the wheels of the paper discharge roller pair 29 and is discharged to the outside of the apparatus. The paper is discharged to the piled material 30 of the copying material p which is discharged to the outside of the apparatus body by the paper discharge roller pair 29. Thus, the image is stacked. The image forming pile of the apparatus is formed. In the figure, a toner replenishment is disposed above the intermediate copying unit 10. The powder replenishing section 31 has four toners filled with toner of various colors. Replenishing device (developer replenishing device) 60Y, 60M, 60C, 60Bk. Extending from each toner replenishing device 6〇γ, 6_, 6〇c, 6〇Bk to the corresponding developing device 5Y, 5M, 5C, ship The toner conveyance path passes through the toner transportation path 'from the toner replenishing device 60Y, the view, the 6〇c, the 6〇Bk to the developing device $γ, says, and supplies the toner. The developing device 5γ, 5m, 5c and the carbon consumption of the image are re-supplied to the toner, and the developing device can be constantly used for a long period of time. The above four complementary devices 6〇Υ, 嶋, 6〇c, and fiber are accommodated. The stone powder of non-color has the same structure. Therefore, the following describes the structure of a carbon powder. Figure 3 is a three-dimensional circle showing the structure of the toner replenishing device. In addition, the letters (Y, M, C, and batch) of the symbols in the third set are shown in Fig. 3.

i as the toner E of the toner container (powder container) filled with the carbon powder, the pull-out wire 62 of the holding member of the carbon ship 61, the carbon-filled portion 63, and the carbon discharged from the carbon ship 61 are retained. Powder off Lai & et al. In addition H ^ on the connection to hide in the _ reserved toner transport to the imaging device paste Fu toner transport + 201207581 pull out the bracket 62 is installed + head X1 direction to move out of the bracket = with ^ side belly bracket 65 level The direction of movement. When the arrow X2 of the arrow in the figure is sufficient to take out the pull-out bracket 62 t from the squatting body, the pull-out bracket 62 can be accommodated in the apparatus. The fourth figure is the toner cartridge 61. Fig., (4) is a bottom view, (d) rH° In the figure, '(a) is a plan view, and (b) is a carbon powder of the toner as a side view of the powder:;:: as indicated by a =4 circle' The toner E has a discharge portion 67 & a portion 66 for discharging the discharged toner to the outside, and is used to discharge the toner in the toner accommodating portion 66 (the powder input port portion 66 has an opening at one end side) The material of the toner accommodating portion 66 of the opening portion is formed by using a deformed rectangular bag member. The carbon 卩=frj shown in the above-mentioned X-ray is a film material produced by paste PET, etc. The structure i = 1 or 4 pieces of material, but it can also be composed of an X "+. In addition, in the toner storage unit 661, bribe Jim, machine 683〇

X 丨仵 》, in the present embodiment, in the toner accommodation (four) accommodates ρ « 5, μιη) 〇 ^, ^ 66 ^ ζ γ = ___x_mm tear, her outline 66 difficult to * ^ quality of carbon in addition, as The material of the toner accommodating portion 66 is made of (4) which is a flexible material having flexibility, and _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Ethylene), pc (polycarbonate resin), pp (polypropylene), PS (polystyrene), pan (polyacrylonitrile), PET (polyester resin), _ (polyethylene), PVDC (poly) A material of a film of various resins such as a vinylidene chloride resin. In the present embodiment, t: a PP, a PET, a PA, and an LDPE (low density polyethylene) resin film are bonded.

As a method of forming a film, a film forming method such as PVD (Physical Vapor Deposition) or CVD (Chemical Vapor Deposition) can be applied. Further, when the film is bonded by heat fusion, the adhesion is improved by using LDPE on the innermost film layer. An inlet 67a for introducing toner and a discharge port 67b for discharging toner are formed in the discharge portion 67. In the present embodiment, the discharge port 67b is disposed so as to be adjacent to the lower side. As a result, the toner can be sent to the auxiliary funnel 64 by the gravity drop from the discharge port 67b, and the structure for discharging the carbon powder 12 201207581 can be simplified. Further, in the discharge portion 67, an inclined surface 67c which is inclined downward from the introduction port 67a toward the discharge portion milk is provided, and the toner can be smoothly conveyed to the discharge port 67b. Preferably, the inclination angle of the inclined surface 67c with respect to the horizontal plane is set to 1 Torr. the above. Further, a sliding shutter 67d for the discharge port 67b is provided at the discharge port ^ = (below) so as to be slidable in the direction of the arrow γ of Fig. 4(b). Further, as shown in the fourth (4) and (4), the vent portion 67i that can be ventilated outside is provided on the upper surface of the tumbling portion 67. The vent portion 67i has an opening formed in the upper surface of the discharge portion 67. The vent hole 671 and a filter 67k attached to the vent hole for preventing the toner from being exposed. In addition, 67b is opposed to the way, via the toner introduced from the inlet 67a

曰 2 is placed on the opposite side. Further, although described later, the symbol W is a large portion, and the symbol 67h is a tab portion. π X* s No. 5, is the score of 匣61. In the figure, (4) is a perspective view of the discharge portion ,, a perspective view of the accommodating core, (c) shows that the opening holding member 68 is provided in the toner (Fig. 5), and the opening holding member 68 is formed by a short cylindrical shape. The 68a and the flange-like connecting portion are integrally formed. For example, the 5th round (4) a can be inserted into the toner accommodating portion 66 of the toner input port. In the present embodiment, the mouth member 68 such as a bonding agent may be formed into a substantially hexagonal shape from the upper shape as shown in Fig. 5 (4) when the adhesive is adhered, so that the connecting portion 68b of the heat holding member 68 is connected to the sample 67a. The side is provided with the opening retainer 68 inserted into the toner accommodating portion 66. As described above, the opening holding portion is integrally connected to the opening holding member discharge portion 67 at the discharge portion 67. In addition, leaks from the joint. The connection port is provided with a thin coffin 69 so that the toner is not in the sixth figure (a) is a top view showing the drawn toner, and Fig. 6 (b) is a state before the body is pulled out of the bracket 62. Top view. Further, although the symbol 61 in the state before the pull-out of the cymbal 62 is described as hereinafter, the symbol is arbitrarily transferred, and the symbol is placed as a symbol (4), which is a concave portion, as shown in Fig. 6(b), flat/foot. The side faces of the portion 67 are respectively provided with recesses 67f. On the other hand, in the case of the pull-out bracket 62 corresponding to each of the recessed portions 67f, a convex portion is provided, and each convex portion 62a can be inserted into the corresponding concave portion 67f. Further, at the end portion on the opposite side of the discharge portion π side of the toner accommodating portion, a hole that is locked to the locked portion of the opposite locking portion is formed == shape: :: 62 in b and The portion of the bracket 62 corresponding to the hole portion 66b is provided as a lock, and then the buckle portion 62b is inserted into the hole portion 66b to be locked, and the convex portion 62a is inserted into the recess portion 67f, and the toner g 61 becomes and pulls out the bracket state. Further, in the state in which the carbon ship 61 is mounted in this manner, the convex portion is usually in a non-contact state. However, when the pull-out bracket 62 is moved in the vertical axis direction with respect to the carbon-filled button 61, the over-protrusion portion must move in the direction of the longitudinal axis of the recess portion 61. When the toner E 61 is taken out from the pull-out bracket 62, the hook portion 62b can be detached from the hole portion 6 when the toner E 61 is taken out. In the present embodiment, each of the convex portions 卩2 7 = 2 axes has the same shape as each other, but it can be made to prevent the carbon cage 61 from being pulled out, such as the ten-= shown in the pull-out dry frame 62. The above-described hooking portion 62b is attached movably in the direction of the arrow Q. That is, the latching portion 62b is moved to the side opposite to the discharge (four) side by the toner in the state shown in Fig. 2 (the state shown in Fig. 8), and the buckle portion 62b as shown in Fig. 6(a) is used as the buckle portion 62b. The elastic member ^ is used on the right side of the figure. Thereby, when the hooking portion 62b is inserted into the toner accommodating portion === the buckle state, the latching portion 62b is rotated by the twisted loop spring 6 = 67 (four), and the toner W 66 is held at a predetermined position. Further, the force is a spiral torsion coil spring for stretching the elastic member of the hook portion 62b = used to make the stretch buckle portion miniaturized by using the spiral torsion coil spring 62k. It is an enlarged view of the above-described fixing portion 63. In this case, the sputum 61 is in a state of ignorance, and (b) is the y portion 63 shown in Fig. 7. The solid material 63 has a fixed arm 71 connected to the upper portion of the main body portion 70 of the upper portion of the auxiliary hopper 64, via the fixed arm. 72. Ann: The homestay, the spring member π, and the coffee-receiving portion (4) are respectively formed on the _ touch-side and the inner-side, respectively. 201207581 f is formed in a substantially c-shape having the concave portion 71a at f. Further, the horizontal direction of the support shaft m of the fixed arm 71 (four) 71 B $ is centered on the main body portion 7G so as to be rotatable and rotated about the support shaft 71b, so that the fixed arm 71 is at the first. The fixed position is fixed and the fixed position shown in Fig. 7(b) is switched to switch the first. The spring member 72 of the U-shaped member shown in Fig. U) is attached to the fixed arm at one end thereof. ! One is mounted on the body portion 70. As shown in Fig. 7 (a) and (b), when the fixed arm-end portion is at the position of the movement, the y 7 of the spring member 72 and the pivot point (the support shaft 71 b ) of the fixed '71 are moved. . Thus, the y solid 1 71 Ρ exceeds the rotation fulcrum beyond the fixing member 72, and the spring member 72 can act in the direction in which the solid spring portion is rotated. Protrusion 678. In the row 67: the fixed portion to be fixed by the upper fixed arm 71 is closed. The closed portion of the closed plate == 70. Further, the intermediate plate opening member 73 has a concave portion 7 such as toner which is rotatably attached to the convex portion 670d of the body portion by the core. The sliding shutter 67d of the discharge portion 67 is provided in the main body portion 7 of the fixing portion 63, and the _ surface of the outlet portion 67 is protruded to form a notched portion. On the other hand, in the row 67h. The L-shaped projection which is in contact with the upper portion of the handle portion 7A is: 碳 The toner E 61 is fixed to the fixing portion 63. The bracket 62 is attached with the toner g 61. Then, the ^^6th order will be explained, in the pull-out direction (relative to the practice of the body, the sequel, the movement of the body, the movement of the body, as shown in the seventh circle (a), when the broken powder = 3 Figure arrow direction). When the discharge portion 67 of the projection portion 67g to the discharge portion 67 is close to the fixing portion 63, the contact is made 7 7 against the urging force of the spring member 72 = the end portion of the arm 2 (the lower end portion in the drawing) Thereby, the fixed arm 71 is turned from the seventh (4) middle arm 71 to the counterclockwise direction of the figure. The fixed position shown in . As a result, as shown in Fig. 7, the fixed release position is switched into the recess 71a of the arm 7 of Fig. 7(b), and by the fixing, the projection 67g is accommodated at the edge of the fixing and body portion 70 and is clamped. solid~. The other end portion (the end portion on the left side of the cymbal). The spring member 72 exceeds the rotation of the fixed arm yoke. Further, when the rotation of the fixed arm 7] is accompanied, the spring acts in the direction of the position after the switching. spring. The cymbal 72 holds the fixed arm 7ι 15 201207581 two on the object 67 _ (4) ❿ circle (b)). Further, the toner cartridge 61 is fixed to the movable portion of the discharge portion 67 when the fixed portion 63 of the fixed portion 63 and the shutter opening member 73 P 2 =1. Then, when the shutter opening member cow 73 is rotated to the position indicated by the clockwise opening member 73 of the figure, the limit is pressed to the rear of the discharge portion 67, and is moved by: 6, 6 The second = plate opening member 73 can be opened from the discharge portion 67 to the auxiliary funnel at the plate 6^d (discharge port), at the position of the seventh figure (b), and is slid out. Further, the shutter opening member 73 is moved. It is carried by the recess 73a of 73. = The convex portion (10) of the interplate _ is inserted into the closed part of the closing plate. And being kept. Through the above steps, the fixing of the carbon cage 61 to the fixing portion 63 is completed. When the direction in which the body of the toner cartridge 61 is released is pulled out (the pulling bracket 62 is moved to the left in the seventh figure (8) with respect to the device: Head X1 direction). By this take-out operation, the toner _ moves toward the other end of 71. The protrusion 67d provided in the discharge portion 67 is fixed in the fixed arm; the position shown in Fig. (b) is 7th. In the case of (a), the discharge portion % is detached from the fixed arm 71. In addition, the toner sliding shutter (4) is detached from the slit portion 7Ga, and receives a biasing force of a spring (not shown) or the like, and slides in the direction of closing the discharge port to prevent the discharge from the discharge port. Toluene of toner. (7) Month Support carbon!: 6f = bracket 6 2 perspective view. As shown in Fig. 8, the pull-out bracket 62 has a pair of side walls 62c which are supported on both sides, and a toner E 61 resting surface 62d. In the case where the front side of the main figure is attached to the main body side bracket 65, the main reference powder is transported. In the present embodiment, the main reference shaft 62e is used as a carbon to be described later. The driving force conveys the fulcrum of the gear 74. Further, at the end portion of the side wall of each of the side walls, the sub-reference axis in which the wire is shunted as the sub-reference is provided. FIG. 9 is a perspective view showing a state in which the pull-out bracket 62 is attached to the main body side bracket 65. As shown in Fig. 9 201207581, the main body side bracket 65 has a pair of guide rails 65a extending in the take-out direction X1 and the accommodating direction X2 of the pull-out bracket 62. Further, the upper end edges of the respective guide rails 653 are inserted into the grooves 62g formed in the both side walls 62c of the pull-out bracket 62. Thereby, the pull-out bracket 62 can be moved in the take-out direction χ and the accommodating direction χ2 along the guide rail 65a. Further, at the end portion on the front side of the figure of the main body side bracket 65, a first positioning concave portion 65b that can be fitted to the main reference shaft 62e of the pull-out bracket 62 is formed (refer to the first drawing), and the bracket side of the main body side is illusory. The inner end portion of the figure is formed with a second positioning recess that can be fitted to the reference shaft 62f. Thus, when the pull-out bracket 62 is moved in the housing direction χ2, the main reference axis and the sub-reference axis Π are inserted into the first and second positioning recesses 65b and 65c to be fitted to each other, thereby pulling out the bracket 62 relative to each other. The body side bracket 65 is positioned at a predetermined position. As shown in Fig. 9, the front end of the figure of the main body side bracket & is provided with a drive drive gear 75. The drive record 75 is positioned to be coupled to the transfer gear 74 in a state in which the pull-out carriage is detached from the body and positioned in the body-side bracket 65. Pull out the Π ^ cut, through the inspection of the material and pay attention to the % of the component. When the X2 crane is used, the two controllifiers are arranged to pull out the convex portion 62h of the lower portion, and the first positioning recesses 65b and 65c are pressed and fixed. Π 以及 以及 碳 碳 碳 碳 碳 7 ^ ^ ^ ^ 62 62 62 62 62 62 62 62 62 62 62 62 62 62 62 62 62 62 62 62 62 62 62 62 62 62 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳8. In Fig. 12, the roots 19th roller 'symbol 81' is a delivery member, and the symbol 83 is a conveyor belt member. The structure of the toner conveying device 8 will be described in detail, for example, from Fig. 15 to Fig. 15. (4) The delivery I: ^ carbon feeding device 8 is composed of a base member 8〇, a conveyor material 83 mounted on the conveyor unit, ... as a movement of the 8G axis of the wire material. Figure 2: Drinking transmission 2 = ^ The = portion is constituted by the endless shape of the conveyor belt through the upper coffee and lower members 83, and the seat member 80. The belt portion % (refer to Fig. 12) is attached to the two rollers 77 which are placed on the pull-out bracket 62, and the figure is worn. The conveyor member 83 is conveyed in the forward and reverse directions by the conveyor member 74 from the above-mentioned transmission gear 74 (refer to Fig. 8). The base member 8 is rotated in the opposite direction by the feed of the member, and the base member 8 is attached to the base portion. The foot member 82 can be slid in the direction of the discharge toward the discharge portion 67. The return direction in the opposite direction Ζ2 moves back and forth. The two sides of the component 80 are respectively provided with two rollers rotating on the guide rail 84. Two rolleres 85 are provided through the seat member 80. The base member 80 can be used to ride the crane. In addition, - on the _4 view to record the bracket magic. As shown in Fig. 13, the Qiu Dusi can be attached to the eight-cutting member & Axis said that the "feeding material 81" and the leg material 82 are rotated independently of each other by the pivoting member shaft %, and the feeding member 81 or the branch member Uf/Ϊΐ is rotated about the center, and the feeding member 81 and the leg member 82 can be made 21 . The scooping member 81 and the leg member 82 act as an acting portion (not shown) and act in a direction in which they are opened to each other. Further, when the delivery member 81 is formed, the leg member 82 is accommodated in the recessed portion 81a. The two switches 87 and 88 shown in Fig. 1 perform the rotation of the above-described belt member 83. _, _ _ erna _87, 88 shirts are set to send: send the square white zi. Specifically, the one switch 87 is disposed on the ti of the pull-out bracket 62 (the end on the left side of the figure), and the other switch 88 is disposed on the pull-out bracket to move back to the Z2. End (end of the right side of the figure). Further, the delivery member 81 reaches the shift. In the case of one of the two knives, the base member 80 is connected to the switch 87 or 88 disposed at its position, and the ox 80 is used as an input unit that is in contact with each of the switches π and 88 to be transported by the sample base member. 80 is in contact with each of the switches 87 and 88, and the moving direction of the feeding member 8i is changed to the=out direction Zi or the returning direction Z2, so that the toner feeding operation can be continuously performed. The contact switch of the piece 8^ is provided with a non-contact type sensor 'located in the first wheel-in unit) to approach the non-contact type sensor to turn on the sensor. However, the figure 疋 shows a side view of the member 81 and the leg member 82. As shown in Fig. 15, the legs are placed in contact with the mounting surface 62d of the pull-out bracket 62, and can be reciprocated along the mounting surface 62d at the feed = t Z2. In other words, the mounting surface 62d functions as a butterfly guide leg rotating spring, but is placed in contact with the mounting surface 62d to be disposed in the water 18 201207581. The young paste is limited to the side force _ stand up two; ===: ^^ load to send _==:=^—8 second degree = open angle production. For example, when the spiral torsion spring is in a natural state, the opening of the (10) 嶋 relay is less than the range of Xiao. Attachment 81 becomes the opening angle α of the upright state of the gauge, and

Further, as shown in Fig. 6(a), the two portions of the leg member moving direction (the sending direction Z1 and the returning direction Z2) are concave portions 62i and 62j into which the member 82 can enter. In the present embodiment, a leg is recognized. P, the delivery member 81 can be switched to stand up with respect to the mounting surface 62d and the two-two state mm- ΐ: =:= one === Then, as shown in the eighth (8), when the delivery member 81 is turned toward the member 82 to When the position is necessary, the position of the coffee is at the foot: the square is opened, the leg member 82 is inserted into the recess 62i... the force of the scale is downward and the distance between the downwards is _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ When the position of the concave portion is reached, the direction of movement of the feeding member 81 in contact with the switch 87 described in the first step is switched. " As shown in Fig. 14, as shown in the figure (the pull-out bracket), when the moving direction is switched, the sending member 81 moves to the edge (near the opening) of the 19 201207581 i 62i, and when the leg rotates in the opening direction, The opening angle is large; 82 ^ liters ' and the leg member 82 is biased toward the _ square β' so that the prosthetic twist spring is produced on the (10) dI _. Wire, _piece 81 to _ tree to force, ΐ: ΖΖΤΓ 82 621 1 ^ Because the material can be held in the horizontal state of the placement. In detail, II:::;:;; :i:r# 82 -〇〇, cross-correlation_square_side force, the rotation of the m-shaped 82-wheel micro-revolution spring is restricted, so the sending part is sent out. The member 81 and the leg portion (4) ^ ^ π ΓΛ 81 82 ° the end i_out member 81 reaches the return direction - the opening angle formed is the above-mentioned 16th figure ^) °; ^ shape and leg member 82 ^, send _ one at == = The effect of the spiral twisted ring-shaped elastic cyanine = 2, the face support == the support is concave of the above-mentioned outer portion 'the delivery member 81 and the leg member 82 at this time. Within W2J. Since the angles of the angles P' and t of the springs in the natural state are the spiral turns recesses 62i, the delivery member 81 is configured to be inaccessible by the recesses 61j, and the delivery member 81 reaches the recess 62j. The illustrated switch 88 is in contact with the 'moving member'''''''''''''''' Thus, when the two pieces are rotated, the part 82 is rotated in the closing direction, the opening angle is longer than the above, and the leg portion is twisted and twisted, and the f (four) is turned to 201207581 to stand up to receive the force. Thereafter, as shown in Fig. 17(d), when the leg member is phantom, the member 81 is kept in a raised state at a predetermined opening angle α. When the recess is called detachment, the following is sent out according to Fig. 18, and the actual operation is explained. In addition, in the drawings (a), (b), and (4) (the movement is carried out, and the fourth (4) is used to make the (four) bracket 62 accommodated in the state in which the device is mounted on the pull-out tray. The driving device on the main body side is in a state in which the feeding member 81 is reciprocated. The exclusive medium power, Fig. 18(a) shows the inside of the toner accommodating portion 66: ii ::::6 == rr In the state in which the carbon valley is pushed inwardly, the toner T is pressed by the feeding member 81 and moved to the side of the discharge portion 67. The rear portion is moved to the side of the discharge portion 67. The toner τ on the side of the discharge portion 67 is discharged from the discharge portion π to the lower side by the inertial force and the gravity. Further, as described above, since the inclined surface price is provided in the discharge portion 67 (see Fig. 4 (4)), the toner Τ In the present embodiment, the discharge unit 67 is provided with a vibration imparting unit (not shown) that imparts a slight vibration. The vibration applying unit pairs the discharge unit 67. Minor vibration, thereby facilitating the discharge of the toner cartridge from the discharge portion 67, and recording the discharge In the present embodiment, the discharge portion 67 is vibrated with a vibration number of 30 Hz and an amplitude of 〇3 mm. The number of vibrations and the amplitude differ depending on the type of the toner to be used, but the number of vibrations is good. And the range of the amplitude 疋 the number of vibrations is 10 to 100 Hz. The amplitude is 0.1 to 1 mm. When the number of vibrations is less than 1 Hz or the amplitude is less than 1 mm, the effect of promoting the discharge of the toner and the prevention of the discharge portion 67 are obtained. On the other hand, when the number of vibrations is larger than 1 Hz or the amplitude is larger than 1.0 mm, the vibration is too large, and the image forming apparatus body vibrates, which may cause image formation. Therefore, by setting the number of vibrations and the amplitude within the above range, the influence on the image formation can be suppressed, and the effect of promoting the discharge of the toner and the adhesion of the toner can be satisfactorily exhibited. b) shows a state in which a large amount of the toner τ is filled in the 66. As a result, in a portion where the amount of the toner T in the toner accommodating portion 66 is large, the toner accommodating portion 21 201207581 66 becomes hard due to the clogging of the toner τ. In addition, the weight of the toner T becomes heavy. Therefore, the movement of the 81 66 is moved. After that, the toner τ that has reached the vicinity of the discharge portion 67 of the delivery member 81 is relatively small = the same as that shown in Fig. 18 (4), the delivery member 81 is in a standing state. In this case, the delivery member 81 is erected in the vicinity of the discharge portion 67, and the amount of press-fitting is increased, so that the toner τ of the easy crane near the discharge portion 67 can be sequentially discharged. Since the configuration of the embodiment changes the amount of the toner to be fed from the member 81, the amount of the toner constituting the toner accommodating portion 66 can be adjusted to be stable. The structure is capable of transporting carbon with a small stress to suppress aggregation or deterioration of the toner. Further, since no large vibration or impact is generated in the hair, there is no possibility that the screen is abnormal due to the vibration. In addition, by the material f (greenness) of the toner accommodating portion 66, the torsion = amount = #81 0 , h0f , = the torsion of the torsion, and the profit of the (four) The delivery member 81 is held in a predetermined standing position. Further, in the present embodiment, the movement direction of the delivery member 81 is switched to the delivery direction 通过 or the toner can be continuously ejected by the susceptor π or the contact with the switch π or the contact. In addition, when the delivery member 81 is returned to the original position, the delivery member is achieved by moving the feed stop member 81 in the return direction Z2 to cause the toner to return to a concave (four) or concave (four) configuration. In the state, _change _ ' so that the simplification of the structure can be achieved. Further, the hole portion is also passed through instead of the recess portion 62i and the recess portion 62j. The carbon powder E 61 is placed in the one turn (four) of the gorge, and the hole portion 66b is used in the opposite direction to the discharge portion 67 side by the hook portion 62b, and is locked to the weave which is given the tension of the appropriate When the toner accommodating portion 66 is pressed by the delivery member 81, the toner accommodating portion 66 can be held in a predetermined position at a predetermined position 22 201207581. Thereby, it is possible to prevent the field toner accommodating portion 66 from being deformed into an appropriate shape; the carbon toner accommodating portion 66 as a whole is moved by the feeding operation of the ox 81, or the carbon inside the press-in force generated by the two "81" is sent. When the powder is completely delivered to the last case r, the toner accommodating portion = the carbon _4_ object of the accommodating portion 66 is engraved into the inner portion. Further, as described above, the toner 匣 61 is provided and pressed into the inner side. In the toner storage unit 66, the replenishment amount (discharge amount) of the m/s production delivery unit 81^ is excessive, or the toner of the developing device of the delivery destination is as follows: [Fig. 19] In the toner discharging operation, the toner E 61 is inked on the side of the discharge portion 67, whereby the member 81 that has been locked to the carbon powder 6 is also stretched toward the discharge portion 67. Thereafter, as the second ( ) The buckle portion 62b of the 匣 61 匣 匣 通过 安装 安装 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 671 Inhaling air to the inside, and accommodating the toner strip by the sucked empty carbon powder, and after the toner is sent out, it is easy to suck back through the venting portion 67 The original shape, through the suction of the air: carbon =, after the movement of the 运 运 , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , In this way, the amount of inhalation in the 62b accommodating portion 66 can improve the decomposition effect of the toner. The spring 62 just buckles, and the thief sends the coffee _=^ laps to the toner (10). In addition, it is possible to suppress the secret of the carbon seam 61. In addition, the end portion of the toner g 6] must be fixed at substantially the same position by the hook portion, and the weight of 23 201207581 can be exceeded. Spiral twist _ shape (four) move fixed in == i part == receive = ground can tear t - "suppressed toner transport: not L =: irregular deformation of the part 66" from the (four) part without the installation of the buckle In the case of the portion 62b, the end of the toner accommodating portion 66 is pulled back by the force of the toner accommodating portion 66. However, since the toner accommodating portion 66 itself is restored, the venting portion 671 can be inhaled to some extent. Powder collection - 66 jobs (four) to the original miscellaneous, and the financial powder, can achieve the improvement or stabilization of the transportability of the toner. In the present embodiment, since the outlet portion 67 is provided with the through-milk, it is easy to evacuate the exhaust portion 67, and the toner discharge direction of the toner discharge member 81 can be prevented to a high degree. The ventilating part milk is provided on the downstream side of the toner input port, and it is effective to discharge the toner and the extruded air, thereby suppressing the shot: scattering. 'Because the vent portion 67 is provided on the discharge port Μ Therefore, it is possible to prevent clogging. In addition, the lion 671 set fiber is set in the lion's 卩 6 == opposite, but (4) is effective. _ & mouth 67 toner 匣 In addition, as shown in Figure 21, you can also The ventilating portion 66c is provided in the toner accommodating portion. At this time, since it is possible to inhale near the contained toner, the decomposition effect of the toner can be improved. Further, in order to prevent the filter provided in the vent portion 60C from being clogged with toner, it is preferable to pass the upper surface of the powder accommodating portion 66. In addition, you can also give a part of the thief carbon pure capacity 66 with a through. In this case, since it is not necessary to separately provide a vent hole or a damper in order to form the vent portion, the number of components is reduced, and it is easy to achieve the effect and effect of the cockroach. Further, since the clogging is less likely to occur than in the case where the filter is partially provided, the trajectory can be ensured for a long period of time and constant, and deformation or breakage of the vent portion due to deformation of the accommodating portion 66 does not occur, and the damper is broken. In the present embodiment, the hole portion 66b is locked by the hook portion 62b, and the toner transportability is lowered due to the locking position. For example, as shown in Fig. 26(a), when the container 24 201207581, which is locked by the locking portion 15 of the target member, is disposed below the lower end of the opening 400, the internal portion is When the amount of toner of Φ 'Valley n 200 t decreases', the container 200 is deformed into the opening of the square of Fig. 26 (8). In other words, the 'locked portion 300 is fixed to the lower 6 of the lower end of the opening 400, and is set to 'set'. Therefore, when the amount of toner is reduced, the bottom φ210 of the container is laterally closed from the side of the opening 400. Tilt down. Thereby, in particular, the state in which the toner is reduced in the container is θ. The body is inclined at the bottom surface 210. Therefore, the toner that has been transported to the opening portion is returned by the influence of gravity. Second, the amount of toner sent is reduced by the conveyance speed (discharge speed) and the amount of toner remaining in the container is increased. & The structure of the powder container which can stabilize the amount of the granules and reduce the amount of granules remaining, using the 23rd to 25th sheets. , the valley Ρ _66 with the delivery of internal toner to reduce capacity. Specifically, the state shown in (9) is changed from the state shown in Fig. 23(a) to the state shown in (9), so that the toner accommodating portion 66 and the lower portion 661 are deformed to each other to be reduced in volume. In this way, the amount of dust in the toner accommodating portion is reduced, and the capacity is automatically reduced. Therefore, it is possible to grasp the toner residue in the appearance, and the volume is automatically reduced by the toner accommodating portion 66, and the used toner is discarded. 'The time required to crush the toner accommodating portion 66 is not wasted, so the convenience is improved. Further, in the conventional formula, the entire toner accommodating portion 66 is formed of a deformable member, so that the toner toner accommodating portion 66 can be folded into a small size. Thereby, it is possible to reduce the environmental load of recovery, transportation, and reuse. Further, if the toner accommodating portion 66 can be depleted by the discharge of the toner, then only the portion thereof can be constituted by the deformable member. Further, when the toner accommodating portion 66 is reduced in volume, the lower surface (bottom surface) 6 61 of the toner accommodating portion 66 is disposed so as to be sideways from the side of the hole portion 66b as the locked portion, from the horizontal The shape gradually turned to the photo. This is because the hole portion 66b of the toner accommodating portion 66 is provided at the lower end of the opening portion 66a by the SIT L when the toner accommodating portion 66 is used as shown in Fig. 24 (Fig. 24). Strong. In other words, even if the toner accommodating portion 66 is reduced in volume, the position of the fixed hole portion 66b does not change. Therefore, the lower hole portion 66b of the toner accommodating portion 66 is gradually inclined toward the lower end of the lower opening portion. In the present embodiment, the cleaning is different from that in the above-described FIG. 26, that is, the amount of toner in the valley portion 66 is reduced and the volume is reduced, and the lower portion of the toner storage portion is 6 & Since it does not incline downward from the side opposite to the opening center, it is possible to prevent the toner 25 that is transported to the opening side from 201207581. In this way, it is possible to suppress a decrease in the amount of conveyance due to the return of the toner from the opening portion 6, and to achieve a reduction in the amount of toner conveyed. Further, the amount of toner finally remaining in the toner containing portion 66 can be finally reduced. Or, in the present embodiment, the end portion of the toner accommodating portion % is required to pass through the buckle portion, and at this time, the bribe force is generated to promote the carbon-contained portion 66 to be fine b, and the shape of the toner receiving valley W6 is stabilized. Chemical. Thereby, the return of the above toner can be prevented more effectively. In order to suppress the phase of the toner, it is preferable that the surface of the toner accommodating portion is reduced in volume. Therefore, the position of the hole portion 66b may be the same height as the lower end of the opening °P66a or above the opening portion 66a. However, even if the hole portion 66b is disposed at the lower end 66a of the opening portion 66a, the /i lower hole portion 66b of the portion 62b is disposed below the lower end of the opening portion 66a. Therefore, the position of the buckle fb also needs to be located above the lower end of the opening portion of the opening portion of the opening portion of the opening portion of the opening portion 66a. When the toner accommodating portion 66 having the same configuration as that of the present embodiment is used, the water slanting degree is increased, and the toner accommodating portion is most disposed when it is smashed. Thus, the toner accommodating portion 66 is made small in the vertical direction. In the case of the ground arrangement, it is preferable that the hook portion 62b and the hole portion 66b are located below the upper end of the opening portion 66a. In the embodiment of the invention, the position of the opening portion is set as follows, and the toner of the feeding member body is advanced. The amount of the toner is stabilized and the amount of the residual toner is reduced. In the case of the case, the toner is sent out by the delivery member 81. Conversely, when the opening 66a is disposed in the toner accommodating portion 66, the height is higher than the height of the delivery member 81, so that it is sent out. The toner amount change 66a is disposed at the end of the toner accommodating portion 66 to the center and It is possible to achieve more stabilization of the amount of toner transported and residual toner. In addition, the so-called "opening π a shouting at 66 hearts is not limited to

S 26 201207581 It is also possible to approximate the position (approximately the center position in the vertical direction). The clear shape, in addition, as shown in Fig. 25, preferably, is sent through the delivery unit 81

When the top F of the 1 F ί is higher than the upper end of the opening strip, the toner adheres to the inner surface of the upper side of the carbon outlet 1 and the opening P66a, and the residual amount of the carbon powder increases, and the top surface of the inner surface to be pressed is the mouth portion 66a. The lower end of the lower end and the upper end are more than enough to stabilize the toner transport amount and reduce the residual toner. In the vicinity of the opening portion 66a, the delivery member 81S is not provided, and the position of the lower end of the opening portion 66a in the state where the delivery portion #8H is in the lower state at the start of the feeding operation is also shown in Fig. 18(c). When the vicinity of the ^=:::: is in the upright state, the above-mentioned τ is finely placed at the lower end of the opening yang, and in addition, as shown in Fig. 7 of the above, in the present embodiment, the handling is performed on the fixing portion 63. The operation is linked, and the rotation of the fixed arm 71 can be performed. Therefore, it is easy to carry out the fixing of the toner 61 and the venting of the toner, and the operability is further accompanied by the rotation of the fixed arm 71. Excessively beyond the pivot point of the fixed arm 71, since the spring member 72 is used for the rotation of the fixed arm 71, the fixed arm can be reliably held at the position after the switching by the urging force. When the tab portion is in contact with the notch portion 7A, the vertical direction of the discharge portion 67 can be prevented, so that the fixed state of the toner M61 can be stabilized. Further, in the present embodiment, the toner accommodating portion 66 and the discharge portion 67 can be integrated, and the discharge lion _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ However, the present invention is not limited to the above-described embodiments, and various changes can of course be made without departing from the spirit of the invention. In the above-mentioned Embodiment 27 201207581, the all-in-one of the "parts 66" can be found to be at least the portion of the member 81 that is not transparent - at least the bottom of the coating =====66: :==作=过蚪# _ A fold line folding stone backing storage unit 66. At this time, pass = powder to receive W 66 into the dumping tolerance, Wei __ abandon the phase (four) to make the cost. Further, since the toner accommodating portion 66 is easily deformed, the portion of the powder accommodating portion that is in contact with the hole portion of the powder accommodating portion is pulled by the squeezing portion, and the force is applied to the portion of the body. The damage or the rotation of the Na is sufficiently strong, for example, as shown in the 22nd ffl (a), the two layers of the film, SI, S2, which are formed on the upper and lower sides of the figure constituting the toner accommodating portion 66, are formed to form a hole. The portion (the following snap portion) can be made thicker and the strength is increased. Specifically, when the thicknesses t1 and t2 of the upper and lower film members Sh S2 are respectively set to 1 division, The thickness of the buckled portion is 2υ〇μηι 〇 and, in order to increase the strength, as shown in Fig. 22(b), the thickness tl j of the buckled portion j of the upper and lower film members si, S2 may be t2J ' is thicker than the thicknesses u and t2 of the other parts. Specifically, when the thicknesses U and t2 are upper and lower film materials, the S2 towel is so that the thickness UJ and t2J of the buckled are increased by only 150 μm. Therefore, when the upper and lower film materials S1 and the illusion are formed, the thickness J of the buckled portion J can be set to 300 μm. As shown in Fig. 22(c), the strength can be improved by attaching a strong film material S3 to the buckled portion j. As described above, by strengthening the strength of the buckled portion j, it is possible to prevent The buckled portion J is damaged or deformed. Thereby, the toner storage portion 66 can be held for a long period of time. The reliability of the toner conveyance can be ensured by the feed can 81. In the second embodiment of the present invention, the configuration that is not particularly described is the same as that of the embodiment 。. In the prior art, it is known that the toner is contained in the (fourth) __ In the method of turning the stone into a mystery, the toner is sucked out by the wire, and == hoarding. Then, 'there is almost no _ state in the container' becomes ==: the recycling of the used container is reduced, Handling, Recycling ^ According to the capacity of 11 (10) toner _, the container is reduced in volume, so there is an advantage in the view to see the residual amount of toner. Out of 2 is not in the way to pump out the toner In order to easily suck from the discharge port (suction outlet) = the discharge port of the square device Fang, set, set the discharge port to be horizontal, to suck out the shot in the volume 11. From this point on, through the fruit, A = 'chest is horizontally arranged' for the configuration of the capacity 11 has a limit of A. °50. 'The above two 7 discharge toner in the container, the container needs to be arranged to be inclined with respect to the horizontal plane - n, in the structure using such a container, 'there must be substantially ensure the longitudinal direction of the work space, It is not suitable for the size of the entire image forming apparatus to be small in the vertical direction, and it is proposed that the toner is discharged from the flexible container into the convex portion as a result of not using the above-described fruit. Remove the toner such as the inside from the discharge port (see ϋ ϋ). According to this method, even if the container is disposed long in the horizontal direction, the stone powder can be extracted. However, as a method of discharging the toner from the flexible container without using the above-described results, the container is automatically reduced in volume. Therefore, in order to reduce the volume, it has been replaced by two. The barn does not carry out the operation of the dust-crushing container. In addition, it is impossible to grasp the appearance of the toner residue in the present embodiment. In order to solve the above problem, the cake is not made of H, and the powder inside the container can be reduced in volume. The carbon of the container is still 29 201207581. The powder having the powder container is shown in Fig. 27 as a toner storage unit 66 and an image forming apparatus. In addition, in FIG. 27 and FIG. 28, FIG. 28 is a cross-sectional view of the toner accommodating portion 06, and (8) shows that the toner accommodating secret is folded to indicate that the toner accommodating portion 66 is inflated. The two side faces 662 of the toner containing portion 66 are attached with a fold line extending in the longitudinal direction thereof. At the end of the opening portion 66a of Fig. 27, the opposite end of the opening portion 66a is in a state in which the toner accommodating portion 66 is formed. Further, the disintegrating E is added so as to be formed in a straight residue shape in the toner receiving portion region, and the k J surface 662 is folded inward. The upper surface _, the lower surface, and the left and right side surfaces 662 of the financial storage unit 66 shown by HU are respectively made of different thin film wires _ pocket-shaped carbon pure portion 66. Scales, such as the 28th order ['9 tons of thin linings to form the knot part F. The $28 figure does not require the adhesive for bonding the respective film materials, and the "sheet" is formed into a bag shape to constitute the toner storage portion. 6 i H shape, folded its profile _ shaw, forming the upper _, below 咐嶋 咐嶋 662 峨 edit E. At this time, the amount of adhesion F is smaller than that of the toner accommodating portion 66 shown in Fig. 28, and Fig. 29 (d) shows that the toner accommodating portion has an empty arrangement of the toner accommodating portion 66. Small advantage. In addition, in the absence of stickiness, the filling portion of the toner can be enlarged, so that the limited space in the image forming apparatus can be effectively utilized. The carbon-wet portion 66 shown in Fig. 28 has a portion F at the four corners, and The first chowder 66 is outlined. Therefore, the rigidity of the entire carbon-capable portion 66 is improved, and there is an advantage that the toner accommodating portion 66 can be easily transported. Further, in the second embodiment, the film materials are bonded by heat splicing, but the film material may be bonded by double-sided tape or the like. Further, the film material is bonded by thermal fusion bonding, and the adhesion property is improved by using LDPE on the innermost film layer. In the second embodiment, the entire toner accommodating portion 66 is formed of a deformable member, and the used toner accommodating portion 66 is folded in a small size, and the environmental load during recovery, transportation, and reuse can be reduced. However, it is also possible to configure only the portion of the toner accommodating portion 66 by a changeable member. Then, the state in which the toner 61 is mounted in the pull-out bracket 62 will be described. Also in the present embodiment, 30 201207581, in the same manner as in the first embodiment, the toner cartridge 61 is attached to the pull-out bracket 62 by snapping the hole portion 66b as the engaged portion to the hook portion 62b. In the state in which the toner accommodating portion 66 is locked by the hook portion 62b, the longitudinal direction of the toner accommodating portion 66 is tensioned by the hook portion 62b. In other words, in the direction in which the above-mentioned 贱E extends, the force is excessively generated, and the toner accommodating portion 66 generates a force that is folded along the inside of the folding line E. Therefore, when the toner in the carbon collection portion 66 is reduced, the toner storage portion anvil is folded along the fold line E along the fold line E by being deformed into a manner in which the upper and lower portions of the toner remainder 66 are reduced by the reduction of the toner. Volume. Then, in a state where the toner in the toner accommodating portion 66 is almost absent, as shown in Fig. 27(b), the toner accommodating portion 66 is crushed. In the second embodiment, even if the fruit is not used, the toner storage = 66 is folded and the volume is reduced by the toner, and (4) the remaining amount of the toner is grasped in appearance. Further, since the carbon in the ς toner receiving unit 66 has no trees, the toner accommodating portion 66 is folded and pressed/shaped, so that it is not necessary to dispense the used toner accommodating portion 66. The time lapses the toner accommodating portion 66 to improve convenience. In addition, in the second embodiment, the other side of the opposite end portion of the end portion 2 of the opening portion of the toner accommodating portion 66 is attached to the other end portion (in the entire longitudinal direction), so that it is easy to control the collection. ♦ The folded orientation of the portion 66. Therefore, it is possible to stabilize the powder discharge property (the miscellaneous transport side) accompanying the deformation of the carbon pure volume portion 66, which is advantageous for the carbon secret operation. In the second embodiment, when the carbon powder is folded inward at the position of the dismantled e, the carbon pure material 66 is disposed in the carbon pure material 66 and is disposed in the circumferential damage. The situation, or the situation in which an abnormal arpeggio is generated by contact. In addition, the '(4); ♦ part 66 is not in contact with the components disposed around, so there is no need to worry about the carbon powder accommodating toner discharge minus the volume reduction. It is that the hole portions of the buckle portion 62b are buckled on the same straight line. By disposing the hole portion 66b in this manner, the toner accommodating portion 66 is easily folded along the thin plate. When the carbon dissipating portion 66 is immersed in the carbon powder, the toner accommodating portion 66 is folded. The second embodiment is described. It is not limited to the above embodiment. In the above-described embodiment, the 31 s 201207581 portion 66b of the direct-figuration locking portion of the carbon-containing portion 66 _ portion may be a locking member of the hole gamma body (divided) as the locked portion. 40. In the embodiment shown in Fig. 30, the toner accommodating portion 66 is placed in the toner accommodating portion (the toner accommodating portion). In detail, the text is formed in a portion in which the portion of the member to be locked is inserted, and the portion in which the end portion of the H is exposed inward is formed, and the member of the hole is locked in the hole. If the toner accommodating portion 66 is to be inserted, the locking portion such as the above-mentioned shackle portion is inserted and locked. The wei is formed into a bottomed hole or a recessed portion. In the embodiment shown in the above, the hole portion 40a of the locking member 40 may be bonded to the outer surface of the end portion of the toner accommodating portion 66 as a bottomed hole or a recessed portion, but it is formed in the figure The outer portion 'the embodiment shown in the %th figure' may be configured to be attached by the end portion of the toner accommodating portion 66 that is locked by the locking member 4A.

As shown in Fig. 32(a), in this embodiment, the pair of holding portions 4, 42 which are integrally connected to each other by the locking curved portions 45 are provided. In each of the clips (the hole portions 41a and 42a as the locked portions are formed, and the two convex portions 43 are formed in the second portion), and the other portions 42 are formed. The two fitting holes 44 are formed in the rear of the shape 43. In addition, the end portions of the shape 43 are convex. The two mounting holes of the P locking member 40 are used for the women's clothes to be stuck 40 It is attached to the end of the toner accommodating portion 66, and is attached to the end of the toner accommodating portion 66. The card is broken. The P member 4 〇 〇 外 外 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在The pair of holding portions 41 and 4 are formed by: a knife or a (divided). Further, a through hole as a locked portion or a bottomed hole or a concave portion can be formed only in a pair. In the 33rd figure, the other embodiment is shown in Fig. 33. In the 33rd figure, the _ pairs of the 具有 卩 41, 42 _ carbon 部 部 ― ― 、 、 、 、 ― 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 2012 === Her "concave portion, etc." As the peak of the card, the shape of the member to be locked 40 can be selected by the thinner 。 。. The locking portion 40 can be selected. The four shapes shown in Figure (8) Various shapes =, medium household = cylinder = first formed as a hole portion or a recessed portion of the locked portion, etc. In addition, in the structure, it is also possible to be from the stuck-to-card ===== The end portion of the toner accommodating portion 66 is detached. When the needle rotation stop 40 is difficult, ====: it is a different body, and has various shapes of a bottom hole, a concave portion, or a step portion. Further, it is changed to a through hole and a different shape is mounted. The member to be locked 4b can recognize that the shape of the container portion 66 of the toner storage unit f can be the same, and the machine portion 66. In this case, the toner can be accommodated (10) and the toner storage unit can be provided. The shape of the locking member 40 is different. Moreover, each color of the carbon of the pass 1 is different from the locking portion of the component side, and the carbon can be used as a carbon material, such as a third material. In this case, the /1/knife is inserted into the toner accommodating portion 66, and the member 4〇 can be welded to the toner accommodating portion ί, before the household powder is required. In the case of damage when installing toner or the member to be locked 40, the figure 31, 32, and 33 are damaged by _ (four). At this point, in the structure mounted as in the 66th, the broken locking member 4〇 can be inserted into the toner accommodating portion stopping member 40. Therefore, the inside of the ^6 is filled with toner and sealed. After the damage of the locked member 40 is attached, the toner f is prevented from adhering to the locking member 4, or the card is replaced, and the locked member is damaged by the locking member 40. As shown in Fig. 32 or Fig. 33, in the second embodiment, even if the fruit is not used, the internal particles are reduced, and the granules 33 201207581 are contained in (4) and sincerely _, so When there is almost no powder in the granule accommodating part of the money, if the granule accommodating part becomes a folded crepe/used granule accommodating part, there is no need to waste the time of the granule accommodating part. (Embodiment 3) Embodiment 3 will be described in detail with reference to Figs. 34 to 38. In the third embodiment, the structure and the embodiment are not described! marriage. Hereinafter, a specific configuration of the vibration applying unit and the fixing portion in which the vibration applying unit is provided will be described based on the 34th to the #th. The double m is a cross-sectional view of the portion 63, and the 35th is a vibration-imparting unit "body image, and the 36th and 37th views are perspective views of the fixing portion. ^34th _心在_部63 As shown in Fig. 35, the partial (10) 93 is a circular member that protrudes on both sides in the axial direction. At these positions from the center, a plug of the inspection shaft is inserted = 93a. Then, The rotation of the drive unit 94 (refer to the % map) provided in the fixed portion 63 is performed by the centroid hammer 93 rotating together with the rotary shaft, and the amount of eccentricity (the amount of shift from the center of rotation) of the group that generates the vibration is The vibration set to 1 coffee is very small. Further, as shown in Fig. 36, the two secret readings 95 of the above-mentioned rotating shaft are continued, and the % of the material is rotated by the heat _ rotation. As shown in Fig. 37, the body portion 7'' of the fixing portion 63 is rocked with respect to the fixed device 2, and the rocking support portion 97 is formed on the base. Part 2: The long hole 97a in the n direction is formed by inserting the _bolt (four) into the long hole 97a, and passes through the _7a 97b, and the end portion side of the main body portion 70 is attached. 1 = six two excited by constituting the body portion is swingably 70 'the main body portion can be efficiently vibrated 7〇. Further, in order to vibrate the main body portion 7G more efficiently, the above-described bias 93 is provided on the end side deviated from the end portion of the swaying rocking support portion 97. The door If diagram is a cross-sectional view showing a state in which the carbon cage 61 is fixed to the fixing portion 63. As shown in Fig. 38, the second body portion 7b is formed to communicate with the inlet portion 64a of the discharge port 67b of the discharge portion 67 and the auxiliary funnel 64_^ and the radial particle transport path. Further, the first film 34 201207581 91 for preventing toner leakage is disposed at the connection portion of the through path 70b and the discharge port 67b, and the inlet portion and the connection portion of the auxiliary funnel 64 at the communication path 7〇b and the auxiliary funnel 64. The garnish is provided with a wide-sized second film member 92 which is thicker than the first-particulate member 91. The material of the elastic member is, for example, a low-rebound acid vinegar foam or the like. The member 92 is sandwiched between the fixing portion phantom and the auxiliary 固定 固定 fixing portion 63 and the auxiliary funnel 64 are disconnected from each other (non-contact state). The portion (second member 92) is separated from each other (non-contact state) and connected and fixed; The bucket 64' does not transmit the vibration generated by the fixing portion 63 to the auxiliary funnel 64. The plug-in two 'two 3: as shown in the figure, the discharge portion 67 is fixed to the fixed portion 63, and the adjacent portion 67 is pulled out; The non-contact state is provided to each other. Thereby, the discharge is given from the fixed portion 63. The vibration of the crucible 67 is not transmitted from the flip portion 67 to the pull-out bracket. In the t t/3, the vibration is provided in the fixing portion 63 as vibration. Produce the unit's eccentric clock 93 (refer to i o 63 = the middle pass through the eccentric clock 93 In turn, the vibration is generated, so that it can be fixed to the outside of the solid: the vibration is given to the discharge Γ6Γ7. Thereby, the discharge of the toner from the discharge portion 67 can be promoted. This regrets that when the toner is crosslinked and solidified and cannot be moved, it is also discharged. Since the portion 67 is provided with the powder (smash), it is possible to prevent the toner from stagnation. Therefore, the toner is discharged from the discharge portion 67 by the operation, so that the toner can be transported. It is possible to provide a device with a high letter height. It is a problem that the vibration generated by the camera is not generated, and the function of the image forming unit or other device is not likely to occur, and the vibration pattern is generated in the present embodiment. Therefore, compared with the movement of the component, the vibration or excess vibration can be minimized. The phase gossip 63 and the lion material 64 are formed by the elastic components 92. Since it is connected (refer to Fig. 38), it is possible to prevent the auxiliary funnel 64 from being fixed to the fixing portion 63. Further, the bracket 62 is pulled out, and the discharge portion 67 is fixed, and the row_7 transmits vibration to the pull frame 62. This, by preventing fine The other member' is a schematic view of the structure of the other embodiment of the vibration imparting unit in the abnormal diagram which is generated by the vibration. The vibration imparting unit which is not shown in FIG. 39 has the eccentric cam which is eccentrically rotated about the rotating shaft. By the 35 201207581 wheel abutment portion 43. Further, the body portion 7G is connected to the eccentric cam 98 by the spring member 44 of the spring member 44, and the cam abutting portion 43 and the eccentric cam 98 acts on the side of the = heart cam 98 (pushing the drive unit of the figure, and then the 'eccentric cam 98 receives the arrow V from the undirected view. This TM 彳 练 base unit 96 is on the same day. Second; = $1 his actual schematic. The motor 99 has the main body portion 70 = the early-reading linear motor 99, and the sewable wire main body portion % of the straight money t-shaped mineral material, thereby being able to (4) see the arrow of the base portion The V direction is shaken to generate vibration. In the third embodiment, the discharge of the powder from the discharge unit can be reliably performed, and the transportation of the stable particles can be achieved, and the vibration with high reliability can be improved. Λ 方式 特别 i i i i i i i 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳 碳The frame 62, 6 Ϊ action). In the state shown in Fig. 41, the toner 11 61 is mounted on the pull-out assembly* and the pull-out tray 62 is housed in the apparatus body. Thus, in this state, The driving force is transmitted from the driving device on the main body side to the conveyor member 83, and the feeding portion is moved back. The moving belt member 83 is moved as shown in Fig. 4! The delivery member 81 moves the toner τ in the toner accommodating portion 66 to the discharge portion 67 side while the bottom surface of the toner accommodating portion 66 is pressed inside. Then, as shown in the figure (匕) The toner T that has moved toward the discharge unit 67 side is sent from the discharge unit 67 to the auxiliary hopper 64 by the inertial force and the gravity. The condensed portion 42 shows that the residual amount of the toner T in the toner accommodating portion 66 is reduced. In the case of the case of the sputum powder, as shown in the 42® (a), when the amount of toner remaining is reduced, it becomes When the amount of toner remaining in the above-mentioned 41st image is larger than that in the case where the amount of toner remaining in the above-mentioned 41st is larger than that in the case of the above-mentioned 41st, the toner amount of the discharge portion 67 36 201207581 is reduced as shown in Fig. 42 (b), the amount of toner remaining is changed. When the amount of toner remaining is small, the amount of toner to be discharged to the discharge portion 67 is also reduced. For example, the amount of toner remaining in the toner containing portion 66 is 2〇. In the case of 〇g or more, the amount of toner to be delivered by one delivery operation is equal to or greater than that. However, when the residual amount of toner is ···g, the amount of toner to be delivered is about 5 g, and the amount of residual toner is 1 〇〇g. In the following case, the amount of toner to be delivered is about 3 g. Therefore, in the fourth embodiment, in order to achieve stable toner conveyance regardless of the amount of remaining toner in the toner accommodating portion 66, the following configuration is adopted. 43 is an enlarged cross-sectional view of the discharge portion 67 and its peripheral portion. As shown in Fig. 43, a toner detecting unit (powder detecting unit) for secretly measuring the internal toner is disposed at the = portion 6. Carbon domain detector 120. In the present embodiment, the toner sensor 12 () is employed as a sensor, wherein the pressure Sense, having a piezoelectric element, and measuring the contact pressure of the piezoelectric element to detect the particles. The toner sensor 12 can also be used as an optical sensor. Specifically, as in the = As shown in the figure, the optical sensor has the light-emitting portion 12Ga of the prefecture, and the light-receiving portion that receives the light, and the light-emitting portion and the light-receiving portion are disposed so as to face each other with the discharge material 67. In the figure 44, the household is implemented. In the embodiment, a guide channel for passing light is formed between the light-emitting portion and the light-receiving portion, and m2 is formed between the light-guiding paths 121 and 122. The toner in the space cuts off the optical path from the light-emitting portion 120a to the light-receiving portion i2〇b, and the toner taking-out member 123 passes through the light-guiding paths (2) and 12: At this time, the take-up member 123 is attached to the rotary pumping 124, and the passage portion 121 and 122 (10) are taken out to prevent the toner from being accumulated between ^^ = 122, thereby improving the detection accuracy of the toner. In addition, although the default is slightly = measured and lost, _ _ _ 卩 ,, in addition, as shown in Figure 43: toner detection unit (powder detection unit) toner sensing; some items are located in the above discharge The toner sensor 12 of 67 is referred to as a first,, and convenient, and the toner sensor 140 of the bucket 64 is referred to as a second toner sensor. As the =% will be set in the auxiliary 3 and the first toner sensor 12. Similarly, when "37 201207581 using a piezoelectric detector as the first toner sensor 丨2〇 and the second toner sensor 丨4〇, the carbon can be directly detected by measuring the contact pressure of the toner. Since the amount of powder is increased, the detection accuracy can be improved, and an appropriate amount of toner n can be sent to the discharge unit 67. When the optical system is used, the light-emitting unit 12A and the light-receiving unit 120b shown in Fig. 44 are arranged to be discharged. The outside of the portion 67 is not in contact with the discharge portion 67, and even if the discharge portion 67 vibrates, the light-emitting portion i2a and the light-receiving portion 120b are not affected by the vibration. Further, at this time, it is preferable that only the guide portion 67 is formed in the discharge portion 67. Since the light path (2) and =2 are sufficient, it is possible to prevent erroneous inspection due to vibration at a low cost. Further, as the first toner sensing If 12G and the second toner feeling 14G, the reflectance of the light can be set. A reflection type optical sensor or a magnetic sensor for measuring magnetic permeability, etc. Fig. 45 is a block diagram showing a control system of the delivery member. As shown in Fig. 45, the delivery unit 81 f has received the first Inspection of a toner sensor 120 or a second toner sensor 140 The signal control unit 7L 160 controls the operation. Specifically, the delivery is controlled by the control unit. The driving device of the belt member 83 of the 81 can control the movement of the sending direction of the sending member to start and stop the movement. The number of movements and the moving speed. The control method of the delivery member will be described below with reference to the flowchart of Fig. 46. By supplying the developing device to the toner in the auxiliary funnel 64, the amount of toner in the discharge portion 67 is reduced. When the toner 120 in the discharge unit 67 is not detected, the control unit 16 outputs an instruction to send the toner to the discharge unit 67. 匕μ, the output member 81 is discharged to the discharge unit. The 67 side moves to perform the feeding operation (step 1). When the toner is sent to the discharge unit 67 by the delivery unit 81 by the control unit 160, the toner sensor 12G detects that there is toner (step 2). "Yes", the delivery operation is completed, the first toner sensor 1112G still does not detect "NO" in step 2, and the delivery member 81 is moved again to perform the delivery operation (step (step 4) Move j乍^ If the 'the first toner sensor 120 detects that there is no toner when there is toner, the beam is out of the way.), the beam reaches the action. However, it is detected by the first toner sensor 12 (step "No"), then increase - Then, by performing the above-described feeding operation, the powder is powdered (YES in step 6), and the end of the sending operation is detected by the first toner sensor 120 as having carbon detected as no toner. (NO in step 6,) 38 201207581 In the state in which the moving speed is increased, the sending operation is performed again (Step 7 > Thereafter, the predetermined number of times is repeated until the first noodle sensor 120 detects that there is toner. Send the action (steps 7 to 9). As described above, when the first toner sensor 120 detects that there is no toner at the predetermined number of times of repeating the feeding operation in the state of increasing the speed (YES in step 9,), the moving speed of the sending member 81 does not become the maximum. In the m step of the value (step κ), the sending unit 81 is moved to the moving speed to perform the sending operation (step 5). Then, 'the toner is detected by the first toner sensor (3), and the predetermined number of times is sent. The operation (steps 7 to 9), but when the first carbon detector 12 detects no toner, the processing speed is increased in the same manner as in the following (step 9, ι, and steps 5 to 8). Thereafter, When a predetermined number of times of delivery is performed in the state in which the moving speed of the moving speed wire is the highest, the toner is not detected in the toner containing portion 66, and it is determined that there is no carbon in the toner containing portion 66. In addition, when the second carbon sputum (10) of the auxiliary funnel 64 is detected as no tree powder, it is also determined that there is no toner in the pure carbon material (4). The female is in the carbon 66 shouted the signal exchanged with carbon toner E 61 ^ ^ In addition, In the fourth embodiment, in order to improve the detection accuracy of the detection of the __th toner sensor i2 ', the escaping portion 67 is disposed in the fixing portion 63. When the carbon powder is adhered to the inner surface of the portion 67, according to the first = the sensory benefit 120 has the possibility of weaving, and the selected ship is singularly corrected to prevent the carbon powder from being cut in the knife portion 67. In the fourth embodiment, after the movement and delivery unit 81 performs the feeding operation, it is confirmed by the first toner sensing ^ 12G that the presence or absence of the toner is detected. __, _ carbon_=^ The amount of the residual amount is not more than the amount of mosquitoes supplied to the discharge unit 67. That is, since the amount of toner remaining in the 6 mountain 6 is small, it cannot be discharged by one delivery operation (4) When the gauge amount and the powder are sent out, the delivery operation is repeated. The predetermined member can be discharged to the discharge unit 67. ====: Adding, the movement time is increased, and the movement speed is increased, so that the one-time delivery operation can be shortened. 39 201207581 ===Extension. In other words, 'in order to increase the number of movements of the delivery parts within the specified time-number of people (sends In addition, in the fourth embodiment, it is possible to prevent the tnr7 from facing the toner by the vibration imparting means, or to be able to contact the carbon to make the attached carbon. The material 镰 料 , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , The device 120 is erroneously detected by the vibration. The above is also sufficient to prevent the above-described fourth embodiment. However, the present invention is not limited to the scope of the present invention. 66 (10) The toner is fed as many times as possible, but the amount of toner remaining in the powder accommodating portion 66 is increased, and the number of times of the delivery of the member 81 _ the number of movements (the number of times of delivery) or the speed of the crane is changed according to the amount of toner to be sent. The method of grasping the amount of toner remaining in the toner accommodating portion 66 in the four chambers, the sensor for the residual amount of the toner in the portion 66, or the powder ____ based on the toner consumption of the output image m mountain " 〇 push powder before S ^ then, according to the amount of toner residue ^ to the number of axes of the component 81 贱 crane speed, The toner that is held is __ According to the illustration of the drought, the f-axis of the delivery member 81 is set according to the amount of toner remaining, and the f-axis of the toner accommodating portion 66 indicates the amount of toner remaining in the toner accommodating portion 66. One: The amount of toner remaining under the action of the person. In this example, the residual amount of the toner is divided into four movement speeds of the transfer 81 of each of the Fanlin. Specifically, when no or i is more than one day, the moving speed is set to 1 〇〇 m/s, and when the residual amount of toner is 8 1 ' 〇〇g, the moving speed is set to 200 mm/s, in the toner When the residual amount is 70 g or more and is not full, the moving speed is set to 35 WS when the residual amount of the toner is less than %. This is accompanied by a reduction in the amount of toner, which makes the moving speed faster. The number of times of the delivery operation in the time of the edge, and the extension of the 201207581 time required for the delivery operation can be reduced. However, the movement speed is increased, and the toner is agglomerated, causing the powder to transport the powder to the discharge unit. The ship of the funnel 64. The heart w can't put £;===== to implement the number, position, and boots (4). The embodiments described above can be set to the appropriate number, position, and Shape, etc. . $ The yarn of the present invention is a powder conveying device with a powder reduction container for the granules of the granules other than the toner. The ploughing, the hair _ powder delivery ϊ =::=:Γ The toner can be used in the present invention in detail. The carbon crucible is mainly composed of a resin component, a pigment component, an ant component, and an external additive. As a resin, there is a polystyrene resin and a ring. Oxygen resin, polyester resin, polyamide resin, styrene acrylic resin, styrene-methacrylic resin, polyurethane resin (polyurethane) resin, vinyl resin, polyolefin resin, styrene butadiene resin, Phenol resin, poly An olefin resin, an anthracene resin, a butyral resin, a terpene resin, a polyol resin, etc. Examples of the vinyl resin include styrene and other substituents such as polystyrene, polyethylene-p-chlorostyrene, and polyvinyltoluene. Mono-compound. styrene-p-chlorostyrene copolymer, styrene-propylene copolymer, styrene-vinyltoluene copolymer styrene-ethylene naphthalene copolymer, styrene-methyl acrylate Copolymer, stupid ethylene-ethyl acrylate copolymer, styrene-butyl acrylate copolymer, styrene·octyl acrylate copolymer, styrene-mercapto methacrylate copolymer, styrene-ethyl methacrylate copolymer , stupid ethylene·butyl methacrylate copolymer, styrene-α·methyl methacrylate copolymer, styrene-acrylonitrile copolymer, styrene-vinyl methyl ether copolymer, styrene-vinyl Ether copolymer, styrene-methyl ketone copolymer, styrene-butadiene copolymer, styrene-isoprene copolymer, styrene-acrylonitrile-ruthenium copolymer, styrene-Malay Acid copolymer, styrene-maleate copolymer, etc. Ethylene copolymer, polymethyl methacrylate, polybutyl methacrylate, polyethylene glycol, polyvinyl acetate, etc. 201207581 It is also possible to form a dihydrochloride salt of ί6 lion B group, pentanol 1,4,4 suspicion - bribe 1 λ butyl alcohol, new polyoxyethylene cis-A, t alcohol propylene (, 24 gang pit, (four) A, hydrogenated biguanide, 3) _2, 2, · double (four) (take, Double (4·Phenyl)propane, polyoxypropylene, polyoxypropylene (2,〇)-2, 2, _bis(4__)propyl fresh.) 22 pairs (4 as base) Benzene It: ^ to acid field fumaric acid, mesaconic acid, squalic acid, itaconic acid, pentanedioic acid, o-quinone: acid, propylene terephthalic acid, cyclohexane, diacid, dibutyl Acid, adipic acid, hexaic acid, linolenic acid, vinegar, or vinegar of acid or low-grade ethanol. : 化合物 、, trimethyl methacrylate, pentaerythritol and other three or more alcohols, ethanol, benzene = acid, gas - hydrogen compound antimatter. R. Reduction of the reaction The following pigments were used in the present invention. Examples of the black pigment include carbon black, oil furnace black, channel black, lamp black, (10) charcoal black pigment, long nitrogen metal pigment, gold derivative, and composite gold hull. As a black pigment, it is listed as yellow, mineral yellow (mineral fastyell〇w), nickel yellow, yttrium yellow i_es yeilow), naphthol yellow _s, Hansha yellow {, Hansha yellow-i〇G, benzidine yellow GR , porphyrin-acrylic color 疋, NCG Yonggu yellow, Tatra golden yellow hall (lake TARTRAZ flea version LAKE) and so on. Further, as the orange pigment, 'mixed, permanently dialed GTR, pigment orange urcon dial, indanthrene bright orange RK, benzidine orange G, indanthrene bright orange GK, and the like. As the red woven fabric, oxidized, enamel, yongnuo 4R, ligament red, coffee copper red, calcium chloride red (Watching Red calcium chloride), lake red d, and binyon red 6 are listed as purple pigments. Methyl purplish red. Examples of the blue pigment include cobalt blue, basic blue, Victoria blue lake, phthalocyanine blue, metal-free phthalocyanine blue, phthalocyanine blue gas, stable sky blue, and indanthrene blue BC. 42 201207581 As green pigments, there are chrome malachite green, chrome oxide green, pigment green B, and malachite green lake. These may be used alone or in combination of two or more. In particular, in the color toner, a good uniform dispersion of the pigment is required, so that the use of the pigment is not directly applied to a large amount of the resin, but a master batch of two concentrations of the dispersed pigment is further produced, and the like is used. The manner of input in the form of diluting the masterbatch. In this case, a solvent is used in order to contribute to dispersibility, but there is a problem such as an environment. In the present invention, water is used for dispersion. When water is used, the temperature controller is very important in order to prevent residual moisture in the masterbatch from becoming a problem. In the carbon powder of the present invention, a charge control agent is blended (inside) in the carbon powder example. The optimum charge amount control in response to the development system can be performed by the charge control agent', and the balance between the particle size distribution and the charge amount can be made more stable especially in the application of the developing device of the present invention. In order to control the carbon powder to a positive charge, it is possible to use aniline black, a quaternary ammonium salt, a benzotriene dye, a amide metal complex or a salt ‘individually or in combination of two or more. Further, as a substance which controls the carbon powder to be negatively charged, a metal salicylate complex or a salt, an organic borate or a calixarene compound or the like is used. Further, in the carbon powder of the present invention, in order to prevent deviation during fixing, a release agent (release agent) may be internally added. As the parting agent, preferred are natural wax such as candelilla wax, palm wax, rice wax, montan wax and its derivative 'Dendrobium and its derivatives, polythene butterfly and its derivatives, Sasolud butterfly , low molecular weight polyethylene, low molecular weight polypropylene, acid acid ester and the like. Preferably, these release agents have a melting point of from about 65 to about 90 °C. When it is lower than this range, the stopper at the time of toner storage tends to occur, and when it is higher than this range, the deviation is likely to occur in a region where the fixing temperature is low. The additive may be added for the purpose of improving the dispersibility of the mold release agent or the like. The additive may be a phenyl propylene resin, a polyethylene resin, a polystyrene resin, an epoxy resin, a polyester resin, a polyamide resin, a styrene-mercapto acrylate resin, a polyurethane resin, a vinyl resin, a polyolefin resin, and a stupid A vinyl butadiene resin, a phenol resin, a butyral resin, a terpene resin, a polyol resin, or the like may be mixed with two or more kinds of the respective resins. A crystalline polyester resin can be used as the resin. An aromatic polyester having a crystallinity whose molecular weight is sharply distributed and whose absolute amount of low molecular weight is as large as possible. The resin produced crystal transfer at a glass transition temperature (Tg), and the melting temperature was rapidly lowered from the solid state, and the fixing function to the paper was found. By using the crystalline polyester resin, it is possible to achieve low-temperature fixing without significantly lowering the Tg of the resin or the amount of the molecule 43 201207581. Therefore, there is no reduction in the impurity retention accompanying the decrease in Tg. There is also no deterioration in gloss and offset resistance accompanying low molecular weight. Therefore, the improvement of the low temperature fixability of the lead-in powder of the 曰曰 聚 聚 非常 非常 is very effective. As the toner, it can be used as a test enhancer on the toner sheet or the inorganic micro-record. The average particle diameter of the inorganic fine particles is 10 to fine legs. It is difficult to produce a concave-convex surface which is effective for fluidity at a particle diameter I' which is smaller than that of a division. When the particle diameter is larger than 2 (8) (10), the shape of the powder is uneven, and the shape of the carbon powder is generated. Examples of the inorganic powder body of the present invention include Si, Ti, W, Mg, Ca, &, % & Mn, W, Fe, Co, Zn, Cr, M(), Cu, Ag, v, Zr^ ·^ = oxides, carbon oxides, sulfides or oxides. Among them, safety and stability are considered. Especially oxygen cutting (dioxide cough), oxidation, oxygen, her microparticles. = 'The hydrophobization treatment agent or the like is effective for the surface improvement treatment of the additive. A representative example of the hydrophobizing agent is a decane coupling agent, and the following are listed. Dimethylchlorodecane, tridecyl-chlorodecane, methyl trioxane, allyl: dilute gas Wei, benzyl dimethyl Wei, desert methyl dimethyl gas Wei: one gas A = gas Wei , P-chloroindolyl trigas, chloromethyl dimethyl gas Wei, (gas methyl) three gas oxalate I, hexaphenyl dioxane, hexamethyl decylamine, and the like. ) overnight, the water area, in the addition of the green table, the test is difficult to adsorb water = for the carbon fiber weaving mosquito use αι ~ 2% (% by weight), secret α, ^2〇 / 〇 (tt0 / 0) Internal sweat staining, photoreceptor damage, wear and other issues. It can be used to build a green silk surface, and it has a small circumference cutting cycle. Preferably, the average particle size is 5 gas drop (registered trademark) powder, metal powder such as zinc stearate powder]

, or yttrium oxide powder, carbonized impurities J grinding! Or a blackish powder, a zinc oxide powder, a tin oxide powder, an indium oxide powder, etc.: 201207581 A conductive agent such as a powder obtained by coating an insulating powder. By adding the powder to the toner, the toner is easily crushed when the feeding member 81 is operated, and even if the fluidity of the toner is lowered immediately, the toner can be discharged from the container. Further, in the above-described embodiments i, 2, 3, and 4, the following inventions (from the first invention to the eighth invention) of the powder container, the powder conveying device, and the image forming device are included. According to a sixth aspect of the invention, there is provided a powder container having a powder portion having an opening portion formed at one end portion, a powder content in the interior, and a deformable material in a soft material, by the powder particle Take it. The outer press-fitting member of the P moves to the opening, and the powder is sent out from the opening to constitute the powder accommodation [the opposite end of the _ end portion in which the opening is formed, «reset The locked portion of the locking target member is provided at a position above the lower end of the opening to the '4 to be locked portion by the installation position when the powder storage portion is used. When the locked portion is slanted at a position higher than the lower end of the σ portion, the powder accommodating portion is gradually reduced. 'The lower surface (or the bottom surface) of the granule accommodating portion is disposed so as to be horizontal from the side of the locked portion toward the side of the opening portion. In the shape of the slanting or lowering of the powder, the accommodating portion of the powder accommodating portion is not changed. Therefore, the lower surface of the granule accommodating portion is horizontally or downwardly disposed at a lower end that is disposed below the position of the engaged portion. tilt. According to the first aspect of the invention, even if the powder accommodating portion is erected, the lower portion of the granule accommodating portion is not inclined downward in the direction opposite to the opening portion, so that the powder on the side of the escaping portion is received. Return with the influence of gravity. Therefore, = suppression is suppressed, and the amount of powder transport caused by the return of the σ-segment portion is small, and the amount of powder that can be transported into the powder can be reduced. Further, the amount of the powder remaining in the powder-containing portion can be reduced. . According to a second aspect of the invention, in the container according to the first aspect of the invention, the opening portion is disposed in a center portion of the end portion of the powder accommodating portion in the vertical direction. When the opening portion is provided in the lower portion of the powder accommodating portion, the granules of the upper side of the opening σσ卩 are increased by the granules of the feeding member, and the amount of residual particles is increased. On the other hand, when it is provided in the upper part of the particle accommodating part, the position of the opening part is made clear with respect to the delivery member: 'The amount of the powder to be sent is reduced. Therefore, as described above, the upper and lower directions of the end portion of the entangled accommodating portion of the second item of the patent application can achieve a further reduction in the amount of spurs. In the powder container according to the invention or the second invention, the invention has a discharge portion of a portion of the opening portion of the powder storage unit, and the discharge portion is for The fine particles sent from the opening are discharged to the discharge port of the supply destination (target), and the discharge portion is provided with an inclined surface that is inclined downward from the opening toward the discharge port. & At this time, the powder particles slide on the inclined surface, so that the powder particles can be smoothly discharged from the discharge port. As a result, it is possible to store the powder (4) and read the granules to the end, and the amount of the powder in the powder storage portion is reduced before the Lin Wei. According to a fourth aspect of the invention, there is provided a powder conveying device comprising: a powder container having an opening portion formed at an end portion, a powder granule therein, and a granule accommodating portion deformably formed of a soft material; By moving the powder accommodating portion from the outside to the opening portion side, the powder (4) feeding member is sent out from the opening portion; and the opposite side of the shaft end and the mouth end portion is locked. A locking portion of the end portion, wherein the powder-receiving container according to any one of the first to second inventions is used. By using the powder granules as described in the first to third inventions, the amount of the lining of the granules and the reduction of the amount of granules are reduced. According to a fifth aspect of the invention, in the particle transport device of the fourth aspect, the locking portion is disposed at a position above the lower end of the opening. By arranging the locking portion at a position higher than the lower end of the opening, the position of the locked portion can be held in the opening portion by the locking portion of the locking portion of the particle accommodating portion. The position above the lower end. Therefore, when the amount of the particles in the particle accommodating portion is small, it can be disposed so as to be inclined horizontally or downward toward the lower surface and the mouth side of the granule accommodating portion. In other words, even if the particles in the particle accommodating portion are reduced, the lower surface of the granule accommodating portion is not inclined downward toward the opposite side of the opening portion side, so that the stabilization of the force transmission amount and the reduction of the residual powder can be suppressed. The amount of grain. According to a sixth aspect of the invention, in the ninth aspect of the invention, the ruling device of the ninth ninth day is sent to the inner surface of the smear that passes through the delivery member when the accommodating portion is moved to the opening portion. The top portion is formed at least in the opening σ portion, and is formed to be located above the opening and the upper end. ... When the inner side of the section of the second section is lower than the lower end of the opening, the powder is transported. On the other hand, the top of the inner surface of the pressing part, the opening action of the opening, the powder _ the "the inner surface of the upper side of the mouth, so the amount of the powder before the change becomes more ^ 46 201207581, the sixth aspect of the 'invention' The top portion is located at the lower end of the opening portion. In the upper end or lower, it is possible to achieve a further reduction in the amount of residual powder particles that is more stable in the amount of the powder. The seventh month is the powder transfer device of the fourth to sixth inventions. The locking portion is configured to be movable on the side of the opening σ portion, and the locking portion is placed on the opposite side of the (four) opening side by the elastic member. At this time, the end of the pure powder that has been locked by the locking portion is directed to the Ministry of Research. At 4 o'clock, the ugly force is generated in the pure powder portion, and the volume reduction of the recording accommodating portion is promoted, and the shape of the granule accommodating portion is stabilized. Therefore, it is possible to efficiently suppress the sway of the granules due to the gravity. According to an eighth aspect of the invention, the image forming apparatus of any one of the fourth to seventh aspects of the present invention includes the powder conveying device. The image forming apparatus has the powder conveying apparatus described in any one of the fourth invention to the seventh invention, so that it is possible to achieve a reduction in the amount of recording and transportation and a reduction in the amount of residual impurities. Further, the first, second, third, and fourth embodiments include the following inventions of the powder container, the powder conveying device, and the image forming device (from the ninth invention to the twenty-third invention). According to a ninth aspect of the invention, there is provided a powder-reducing portion in which an opening portion is formed at an end portion, a powder particle is accommodated therein, and at least a portion is deformably formed, and the opening portion is formed. a rest-end portion of the opposite side of the end portion is provided with a locking needle stop for locking the other end portion away from the end portion, in the particle receiving The folding line that extends from the one end portion side toward the other end portion side is in a state in which the locking portion of the target member is locked in the locked portion of the particle accommodating portion, and the powder accommodating portion is The other end extends in a direction away from the end. That is, in the particle accommodating portion, the pulling force acts in the direction in which the folding line extends. By this pulling force, the force of folding along the fold line is generated in the powder accommodating portion. Thereby, when the amount of particles in the particle accommodating portion is reduced, the particle accommodating portion is folded down along the fold line to automatically reduce the volume as the amount of the granule is reduced. According to a tenth aspect of the invention, in the powder container according to the ninth aspect of the invention, the fold line is attached to each of the surfaces of the powder storage unit facing each other. By adding a fold line to the mutually opposing surfaces of the powder collection portion, when the particles in the particle storage portion are reduced, the particle storage portion is folded into a flat shape along the fold line, so that the powder can be more efficiently 47 201207581 The grain storage unit is reduced in volume. In the powder container according to the ninth or tenth aspect of the invention, the folding line is attached such that the particle storing portion is folded inward. By the _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ In addition, the damage caused by the contact between the surrounding components and the abnormal noise is caused by the deformation of the powder accommodating portion and the peripheral member, which prevents the volume of the squeezing caused by the deformation. In the φ 第 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 It is detached from the end of the granule accommodating portion to the other end portion, and it is easy to control the folding position of the accommodating portion. Therefore, it is possible to make the granules accompanying the deformation of the granule accommodating portion. According to the ninth invention of the twelfth invention, the powder granules are placed on the same-straight residue, and the fold line and the locked portion are disposed. The stack, the scrap and the cut are green. When the powder is broken and folded, the powder storage portion is folded into a thinner one. MUt, in the ninth hairpin three judgments (4) - Touching _ in the granule receiving container, 'In the granule accommodating part, the other sighs, the sighs, the stagnation, the stagnation, the stagnation, the singer, the H, and the (4) qing as the insertion place ===f The other end portion of the portion is provided with a hole portion to constitute a locked portion. In the container, the powder of the occlusion portion of the accommodating portion is received, and the 7=c card in the granule accommodating portion; The locked portion of the portion to be locked. At this time, the identification of the hole portion of the portion to be locked by the locking portion 4 is: and: =====stop portion can be achieved The powder is collected and the shape of each of the granule accommodating portions can be set to 48 201207581, and the granules of any one of the ninth invention to the fourteenth invention are collected. The needle stops the other-clearing and locking member, and the step formed at the end of the boundary is the locking portion of the snapping member, and the other end portion of the powder receiving portion is attached to the locked member. In the same manner as the fifteenth invention, only the locked portion mounting t is opened and various types are formed in the same manner as the fifteenth invention. Shape, and pass Prevention of spoofing or erroneous attachment of each granule accommodating part (4) Identification of the granule accommodating part at low cost or non-calling invention of the seventeenth invention or the sixteenth invention (2) The powder "the other end portion of the container portion is inserted into the portion of the card stopper, and the portion of the inserted member to be inserted is bonded to the inner surface of the powder containing portion. By inserting the locked portion to the inside of the particle accommodating portion, the member is efficiently adhered to the granule accommodating portion. The knives are capable of being stuck. The invention of the eighteenth invention is 'in the fifteenth invention or the sixteenth invention. In the described powder container, the said card-retaining member is deflated from the body, and the other side of the body is placed on the side of the material. At this time, after the powder y is filled in the y portion and sealed, the locked member can be attached. Therefore, it is possible to prevent damage to the adhering member or the member to be locked, and it is possible to reduce the cost of the cleaning operation of the adhered particles or the exchange of the locked portion of the damaged portion. . According to a nineteenth aspect of the invention, in the powder storage method according to the fifteenth aspect or the sixteenth aspect of the invention, the damage-occluding member has the other end portion of the fine particle storage portion a pair of nip portions, wherein the nip portion is provided with a convex portion, and the other of the chilling portions is provided with a fitting hole, and the other end portion of the powder accommodating portion is provided Installing the navigation, the other end portion of the particle accommodating portion is clamped by the pair of nip portions, and the convex portion of the one of the one of the holding portions is passed through the mounting secret, and the The convex portion is fitted to the fitting hole of the other continuation portion, whereby the locked member is attached to the other end portion of the particle accommodating portion. At this time, after the "same" of the tenth person is filled in the powder accommodating portion and sealed, the material can be loaded with the stopper, and the stagnation or the needle of the needle stopper can be damaged. Since the cleaning operation of the adhered particles or the damaged portion of the stuck portion is not performed, the cost can be reduced. Further, in this case, the step of applying the bonding material or the step of welding for attaching the locked portion is not required. According to a twentieth aspect of the invention, in the U-receiving container according to the fifteenth aspect or the sixteenth aspect of the invention, the object to be locked has a portion in which the particle accommodating portion is sandwiched The pair of nip portions at the other end portion of the other end portion pressurize the other end portion of the powder accommodating portion, and the stopper member is attached to the other end of the granule accommodating portion At this time, it is possible to prevent the particles of the locked member from being able to be attached to the member to be locked or to be able to attach the member to be locked after the sealing and sealing of the tree powder in the pure powder portion. Damage to the stuck component. (4) It is possible to carry out the cleaning operation of the crumbly powder or the locked portion. Since the work or the like is changed, the cost_minus can be achieved. Also, as in the case of the same, in this case, the step of applying the bonding material for attaching the member to be locked is not required, so that the mounting work becomes easy. j Twenty-invention is ' The toner cartridge containing the toner inside the powder container according to any one of the ninth to twentieth inventions. According to a twenty-second aspect of the invention, the powder containing the powder according to any one of the ninth to twentieth inventions is contained [and the portion in which the powder is contained in the deformable portion is pressed to the side In the case of the ninth to the twentieth hairs, the amount of the fine particles transported by the delivery member that sends the powder particles from the opening portion is as described in the ninth to the twentieth hairs. Since the powder container is provided, the above-described effect produced by the container of the powder particles can be obtained. The invention of the twenty-third aspect of the invention is the powder having any of the ninth to twentieth inventions. Image forming device for the container. ° Image shape Since the apparatus has the powder container described in the item (4) of the ninth to twentieth inventions, the effect of the powder container can be obtained. 50 201207581 Moreover, in the above-described first embodiment The first fourteenth invention of the second, third, and fourth inventions is a powder granule accommodating portion which is deformably formed by a powder granule and a ten-month period; and is used for collecting at least a portion of the granules to the discharge portion side And, in the state where the discharge portion is sent ===, the fixed portion of the discharge = is fixed, and the solid portion is provided with the fixed portion of the discharged powder: 2:2:: 2: conveys the delivery unit, It is possible to promote the stagnation that can be oscillated from the discharge of the ventilating portion. Thus, the fifteenth invention is characterized in that the rotation _ set (10) of the rotation of the moving unit of the twenty-fourth invention constitutes the vibration. The unit is centered 'in the passage of the above-mentioned lion-like composition of the unit to the unit, the structure of the movement _, _ 継 継 音 音 or the surplus county to the most r device in the twenty-fourth invention or twenty-fifth riding In the _ recording conveyance device, s is further provided with a rocking support portion that rotatably supports the fixing portion. By fixing the fixing portion in a swingable manner, the fixing portion can be efficiently vibrated. According to a twenty-seventh aspect of the invention, in the particle carrying amount of the twenty-sixth aspect of the invention, the side of the rocking material is disposed on the blue side of the rocking material, and the fixing portion is more efficient. Ground vibration. Wei Dongfu is transported in the squirting powder. In February, the discharge of the _ material_7_ in-service suppressor is described in any one of the fourteenth invention to the twenty-seventh invention. An inclined surface that is inclined downward toward the discharge port. In the case of =^, the _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ Thereby, the mechanism for discharging the particles can be simplified. According to a twenty-ninth aspect of the invention, in the powder conveying device of any one of the twenty-fourth light-weight second inventions, the fixing portion is connected to the discharge portion 51 201207581 via an elastic mutual mechanical inspection state component. (4) (4) The other members are connected to each other via the elastic body in a state of being separated from each other, and the vibration can be transmitted to the non-contact state of the holding member with respect to the discharge portion, and the vibration can be prevented from being transmitted from the discharge portion. county. Thereby, it is possible to prevent the occurrence of abnormalities or the like caused by the vibration being transmitted to the holding member. The third invention is an image forming apparatus having the powder conveying device described in any of the twenty-fourth to thirty-th inventions. The above-described effects of the powder transporting apparatus can be obtained by the image forming apparatus having the fine particle transporting apparatus described in any one of the twenty-fourth to thirtieth aspects of the invention. Further, in the first, second, third, and fourth embodiments, the invention includes the following powder conveying device and image forming device (from the thirty-second invention to the forty-second invention). According to a thirty-second aspect of the invention, the powder conveying device includes: a granule accommodating portion that accommodates at least a part of the granules and that is deformably formed; and a discharge portion that discharges the granules in the granule accommodating portion to the outside And a delivery member that sends the powder to the discharge portion by moving the deformable portion of the particle storage portion inwardly to the discharge portion side; wherein the delivery member is pressed in The amount can be changed according to the amount of the particles in the powder accommodating portion. Since the amount of press-fitting of the member is changed in accordance with the particles in the particle accommodating portion, the powder can be discharged to the discharge portion stably and reliably regardless of the amount of the powder in the powder accommodating portion. According to a twenty-second aspect of the invention, in the particle transport apparatus of the thirty-second aspect, the delivery member is caused to move toward the particle storage unit side with a predetermined urging force. By the action of the urging member, the amount of the granules in the granule accommodating portion can be changed by the amount of the granules in the granule accommodating portion, and the amount of the granules in the granule accommodating portion can be stably and reliably discharged to the discharge portion. According to a twenty-fourth aspect of the invention, in the particle transfer device of the thirty-second or thirty-third aspect of the invention, the leg member that can move integrally with the delivery member is rotatably mounted述 52 201207581 The energy transmission unit can be switched to a state in which the powder storage unit is erected or a fallen state, and the member is turned to the other. The state between the pressed state of the accommodating portion and the fallen state is "can be said to be in the case of the powder granules in the granule slave device described in the thirty-fourth invention. The guide surface of the leg member and the action of the action member are overcome. The closing portion of the delivery member holds the ride-out member in the upright state. In the case of the first month of the month, the delivery member can be secured by the guide surface and the regulating portion regardless of the urging force of the member. The second core can be changed according to the material of the powder accommodating portion and the maximum powder capacity.乍 件 , 力 力 力 力 力 力 力 力 力 力 力 力 力 力 力 力 力 送 送 送 送 送 送 送 送 送 送 送 送 送 送 送 送 送 送 送 送 送 送 送 送 送 送 送The feeding member can be reciprocated in a returning direction to and from the opposite direction, and a switching position is set in each moving direction of the sending member = the leg member is on the side of the workpiece a recess or a hole portion into which a force can enter, the feed member moves in the feeding direction, and after the leg member enters the recess or the hole portion, the returning sand is discharged to the gorge And causing the pro-leg member to abut against the edge of the recess or the hole, thereby reversing 'the switch member is switched from the standing state to the fallen state, and the sending member returns to the returning The direction moves and the leg member enters the recess After the portion or the hole portion, the delivery member is moved in the feeding direction, and the leg member is brought into contact with the edge of the mp or the hole portion (four), thereby bringing the delivery member away Switch to the upright state. By incorporating (entering) the leg member into a simple structure in the recess or the hole portion, the cutting-off between the standing state of the member and the fallen state can be achieved, so that the structure can be simplified. Further, when the delivery member is moved in the returning direction, the delivery member is switched to the inverted state, so that the return of the particles by the delivery member can be prevented. According to a twenty-seventh aspect of the invention, in the particle transport device of the thirty-sixth aspect, a moving direction switching unit for switching a moving direction of the feeding member is provided, and the sending member is provided in the sending member The input unit of the moving direction switching unit is turned on or in contact with the moving direction switching unit when reaching the decorative direction switching position. When the delivery unit reaches the movement direction switching position, the input unit contacts or approaches the movement direction of the movement unit 53 201207581, so that the movement direction of the delivery unit can be continuously performed, so that the powder τ can be continuously formed at the discharge port of the discharge unit. The bell is placed adjacent to the lower side, and an inclined surface that is inclined toward the σηΓ is provided in the discharge portion. a Grain The inclined surface that is inclined downward toward the discharge port can be picked up and down from the inclined surface. Thereby, the mechanism for discharging the particles can be simplified. In addition, in the case of any one of the thirty-second invention to the thirty-first invention, the filling/opening holding member that holds the powder inlet opening formed in the fine particle storage unit is open; The inlet is kept open, and it is easy to put it into the granules from the granules. γ 置 = = = = = = = = = = = 任意 任意 任意 任意 任意 任意 任意 任意 任意 任意 任意 任意 任意 任意 任意 任意The fixing of the portion and the discharge portion: ==τ and solution_]::=:=== replacement, and the component, which is mounted at one end of the fixed arm, = is cut =: the end of the installation is fine The forward and reverse rotation fulcrum of the arm causes the fixed arm to rotate toward the == point 'by the spring member; the more: the arm: the arm that rotates forward and backward remains in the position after switching, and can be fixed.用 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ In the forward and reverse rotation operation, the fixed portion and the fixing and attaching and detaching operations of the fixing portion are easily fixed, and the powder storage portion and the discharge portion are fixed and the disengagement-rotation operation is performed. , with superior operation in the first barren '. An image forming device for the powder conveying device. In the image forming apparatus, the image forming apparatus according to any one of the thirty-second invention to the forty-first aspect (fourth) is capable of obtaining the above-described powder transporting apparatus. effect. Further, in the above-described embodiments, the inventions of the second, third, and fourth inventions include the following inventions of the powder device and the image forming device (from the forty-third invention to the fifty-first invention). According to a forty-third aspect of the invention, there is provided a powder scale conveying device comprising: a powder containing particle and at least a portion of which is deformably formed to form a volume reduction portion; a discharge portion for discharging the powder inside the powder portion; 2 passing from the inner side a member that moves to the side of the variability of the powder accommodating portion, and sends the powder to the discharge unit; wherein a control unit is provided, the === lion lion (4) The amount of the sufficiency referred to in (4) is 'the slain of the forty-third invention, and the amount of the remaining amount is reduced, and the side of the discharge portion of the delivery member is regulated. The amount of residual particles in the powder accommodating portion is reduced, and the amount of the second mash is reduced by one movement of the delivery member. Therefore, as the amount of residual powder is reduced, the delivery instruction is increased. Therefore, the number of μ persons can discharge the same amount of powder as when the amount of residual particles is large to the discharge portion. Thus, regardless of the amount of green residue 4, stable powder transportation can be performed. , t·五发暇, in the fine fourteen days of Jingjing _ miscellaneous Wei Wei +, accompanied by the increase in the delivery of parts, the speed of the material. With this, the accompanying person can increase the moving speed of the sending member with the increase of the moving speed of the sending member, and the time required for the moving time is long. Therefore, even if the number of movements is increased, the movement of the moving powder can be reduced. _(4)—The singular unit of the described granule_unit read; the feeding unit is moved to the discharge unit side by the granule inspection, and the delivery unit is sent to the 201207581 By the granule accommodating portion _ granule residual amount moving = the powder granules of the forty-sixth invention can be removed by the moving element that repeats the feeding member In the test, the powder particle detection unit for detecting the powder is used as the seam electrode, and the direct detection degree can send the appropriate amount of powder to the discharge unit. In the forty-eighth invention, the light-emitting portion and the light-receiving light-receiving portion 1 of the powder transporting device described in the forty-seventh invention are recorded from the light-emitting portion by the recording: Powdered optical sensor as The particle detecting unit may use the particle detecting unit as an optical sensor. The forty-ninth invention is the phase of the expelling portion of the colloidal transport described in the forty-eighth invention, and does not The discharge portion is configured to dispose the light-emitting portion; the portion 'and a light guiding path from the light-emitting portion to the light-receiving portion is formed in the discharge portion. Further, the light-emitting portion is located outside the portion, and is not In the case where the discharge portion is in contact with the discharge portion, even if the vibration is generated, the hair and the light receiving portion are vibrated. In addition, in this case, only the light guide path is provided in the discharge portion, so that it can be low. In the grain transfer device according to any one of the forty-sixth to forty-ninth aspects of the present invention In this case, the vibration applying means applies vibration to the discharge portion. Therefore, it is possible to prevent the particles from adhering to the inner surface of the discharge portion, or to remove the adhered particles by vibration, thereby preventing the adhesion due to °. Powder test sheet The twentieth-invention is an image forming apparatus having at least a developing device and a developer replenishing device supplementing the developing device with the developing device, wherein the image forming device functions as the developing agent 56. 201207581 =:== The powder plate transport image forming apparatus according to any one of the fiftyth invention, which is used as a developer replenishing device, using any one of the forty-third invention to the fiftyth invention. According to the apparatus, the above-described effects produced by the powders can be obtained. As described above, the powder container, the powder conveying device, and the image forming apparatus according to the present invention are provided in a photocopier or a printing age image line, in particular. A photocopying machine, a printer, etc., which have a powder container for storing toner particles such as toner, developer, etc. in the inside. [Brief Description] FIG. 1 is a view showing a printing apparatus as an image forming apparatus of the present invention. Fig. 2 is an enlarged view showing an image forming unit of the image forming apparatus; Fig. 3 is a perspective view showing a result of a configuration of the toner replenishing device; Fig. 4 is a toner cartridge Fig. 5 is an exploded view of the toner cartridge; Fig. 6(a) is a plan view showing a state in which the toner cartridge is attached to the pull-out bracket, and Fig. 6(b) is a view showing the toner cartridge Fig. 7 is a plan view showing a state in which the bracket is pulled out; Fig. 7 is an enlarged view of the fixing portion; Fig. 8 is a perspective view of the drawing bracket; and Fig. 9 is a perspective view showing a state in which the drawing bracket is attached to the body side frame Fig. 10 is an enlarged view of the main body side frame; Fig. U is a cross-sectional side view of the main body side frame and the pull-out bracket; Fig. 12 is a cross-sectional side view of the pull-out bracket or the like; Fig. 13 is a toner conveyance Figure 14 is a cross-sectional side view of the pull-out bracket; Figure 15 is a side view of the delivery member and the leg member; Figure 16 is a view illustrating the state in which the delivery member is switched from the upright state to the fallen state. FIG. 17 is a view for explaining an operation when the delivery member is switched from the fallen state to the standing state; FIG. 8 is a view for explaining the toner feeding operation; and FIG. 19 is a view showing the ventilation portion. Figure of the situation of exhaust; 57 201207581 Figure 20 shows the inhalation from the vent 21 is a view showing another embodiment of the toner cartridge; and FIG. 22 is an enlarged cross-sectional view showing a main portion of the structure for increasing the strength of the portion in which the hole portion of the toner accommodating portion is formed; (a) is a view showing a state in which the toner accommodating portion is not reduced in volume, and FIG. 23(b) is a view showing a state in which the toner accommodating portion is reduced in volume; and FIG. 24 is a view showing an opening portion in the toner accommodating portion and Fig. 25 is a view for explaining the position of the opening in the toner accommodating portion and the position of the inner surface pressed by the delivery member; σ Fig. 26 shows the locked portion of the container Fig. 27f is a longitudinal sectional view of the toner accommodating portion, (a) is a view showing a state in which the toner accommodating portion is inflated, and (b) is a view showing toner. FIG. 28 is a cross-sectional view of the toner accommodating portion, and (a) is a view showing a state in which the toner accommodating portion is folded in a state in which the toner is expanded; _ A cross-sectional view of a toner accommodating portion made of a film material, (a state diagram of expansion, (b) ) is a state diagram showing that the toner accommodating portion is folded; ;: ^ 30 疋 不在 不在 不在 不在 不在 不在 不在 不在 不在 不在 不在 不在 不在 不在 不在 不在 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四 四Fig. 33 is a perspective view showing that the knot attached to the end portion of the toner accommodating portion by the locking member is a façade when the axis of the member to be locked is reduced, and (8) is a squatted column shape; Fig. 34 is a perspective view of the fixing portion. Fig. 35 is a perspective view of the eccentric weight. Fig. 36 is a perspective view of the fixing portion. Fig. 37 is a perspective view of the fixing portion, and Fig. 38 is a fixing of the toner cartridge at the fixing portion. 59 201207581 Fig. 39 is a schematic diagram showing the configuration of another embodiment of the vibration applying unit; Fig. 40 is a schematic view showing the configuration of another embodiment of the vibration applying unit; Fig. 4 is a view showing the toner FIG. 42 is a schematic view showing a feeding operation when the amount of residual toner is reduced; FIG. 43 is an enlarged cross-sectional view showing the discharge portion and the periphery thereof; and FIG. 44 is an optical sectional view showing the discharge portion; Tonery Schematic diagram of the structure of the device; Fig. 45 is a block diagram showing the control system of the delivery unit; Fig. 46, the table _ the flow chart of the paste component _ loosening, and Fig. 47 is a table of carbon thief retention (Example of the main component symbol) 1. 1Y, 1M, 1C, 1Bk photoreceptor drum 2 cleaning unit 2a cleaning blade 4 charging unit 5, 5¥, say, 5<:, Image display device 6, 6Y, 6M, 6C, 6Bk ^. 8 Toner transport transport (powder transport 9, 9Y, 9M, 9c, 9Bk_ times copy 10 intermediate copy unit 11 intermediate copy belt 12 secondary copy support Wheel 19 Secondary copying roller 20 Fixing section 26 Paper supply section 27 Paper feed roller 28 Barrier wheel pair 29 Paper discharge roller pair 30 Stacking section 59 201207581 31 Toner replenishing section 32 Reading section 40 Locking members 40a, 41a, 42a Hole portion 41'42 holding portion 43 convex portion 44 fitting hole 45 bending portion 50 housing 51 developing wheel 52 doctor blade 53, 54 developer accommodation portions 55, 56 conveying the screw drill rods 60, 60Y, 60M, 60C , 60Bk toner replenishing device 61 toner cartridge (powder container) 62 pull out bracket 62a convex portion 62b card Button portion (locking portion) 62c Side wall 62d Mounting surface 62e Main basic shaft 62f Sub reference shaft 62g Groove 62h Projection portion 62i * 62j Concave portion 62k Spiral torsion coil spring (elastic member) 63 Fixing portion 64 Auxiliary funnel 65 Main body side Bracket 65a guide rail 201207581 65b first positioning recessed portion 65c second positioning recessed portion 66 toner accommodating portion (powder accommodating portion) 66a toner input port (opening) 66b hole portion 66c vent portion 66d mounting hole 67 discharge portion 67a 67b discharge port 67c inclined surface 67d sliding shutter 67e groove portion 67f recess portion 67g projection portion (venting portion) 67h tab portion 67i vent portion 67j vent hole 67k filter 68 holding member 68a insertion portion 68b connecting portion 69 film member 70 body 70a notch portion 71 fixed arm 71a concave portion 71b support shaft 71c, 71d end portion 72 spring member 61 201207581 73 shutter opening member 73a, 73b support shaft 74 transmission gear 75 drive gear 76 pressurizing member 77, 78 roller 80 base member 80a Upper portion 80b lower portion 81 delivery member 81a housing recess 82 foot member 83 belt member 84 rail 85 roller 86 Shaft 87, 88 Switch 91 First film member 92 Second film member 93 Eccentric clock 93a Insert hole 94 Body unit 95 Support member 96 Base portion 97 Shake support portion 97a Long hole 97b Bolt 98 Eccentric cam 99 Linear motor 100 Device body 201207581 120 Toner sensor 120a Light-emitting portion 120b Light-receiving portion 121'122 Light-guiding path 123 Take-up member 124 Rotary shaft 140 Toner sensor 150 Locking portion 160 Control unit 200 Container 210 Bottom 300 Locked portion 400 Opening portion 660 Upper 661 Below 662 Side 670d Convex Z1 Sending direction T Toner (powder)

S 63

Claims (1)

201207581 VII. Patent application scope: 1. A powder granule container having: a mouth portion, a powder granule therein, and a granule accommodating portion, which is formed at an end portion and formed with an open soft material; The discharge portion ' is provided on the one end portion device on which the opening portion is formed. 'The powder particles sent from the lap portion are discharged to the powder conveying device 〃, and the sling portion of the slab At the end portion, the powder member is locked to the feeding member that moves from the outer side of the particle accommodating portion toward the opening portion, and is locked in the opposite direction of the moving direction; The feeding member (4) moves toward the opening portion, and the powder is sent out from the opening portion. ^ ' has a venting portion which can be ventilated inside and outside. 2. The granule container according to claim 1, wherein the venting portion. Wherein the venting portion is disposed therein, the venting portion is disposed therein, and the venting portion is provided by the venting portion. 3. The venting portion is as described in claim 2 A powder container, which is a powder storage unit. 4. The powder container according to claim 3, wherein the upper surface of the particle storage portion is described. 5. The powder container according to claim 3, comprising the powder storage unit. 6. The discharge container according to the second aspect of the patent application, wherein the discharge unit is described. The granule container according to claim 6, wherein the venting portion is provided on an upper surface of the discharge portion and opposed to a discharge port provided in the discharge portion. . 64 201207581 8. A powder conveying device having: a powder granule containing a powder-dissipating portion, the powder volume reducing portion having an opening formed therein and containing powder particles therein and being soft The material is deformably formed, and the delivery member is pressed from the outside of the particle storage portion and moved toward the opening to send the particles from the opening; and the discharge portion is formed in the discharge portion The end portion of the particle accommodating portion of the opening portion is broken and placed on the powder conveying device, and the powder particles sent from the mouth portion are discharged to the powder conveying device, and are jammed. The stopper portion 'the end portion of the powder accommodating portion that is disposed on the rim portion _ the opposite side is moved in the opposite direction to the movement of the delivery member by the locking portion of the powder conveying device And stuck. The particle transfer device according to Item 8, wherein the locking portion is slidable in a direction opposite to the side of the side and the side of the undone portion, and the card is opposite to the side of the discharge portion via the elastic member. The direction of action. The particle transfer device according to Item 8, wherein the powder reduction container is provided with a venting portion that can be ventilated inside and outside. Further, the venting portion is provided, and the venting portion is provided in the granule accommodating portion, as described in claim 10, in the granule conveying portion. 12. The particle conveying device according to claim 11, wherein the particle conveying device is on the upper surface of the particle storage portion. In the above, the ventilating portion is provided in the discharge portion as described in the first aspect of the invention. 14. The hood of the upper surface of the granule portion according to the thirteenth aspect of the patent application, and the ventilating surface of the venting portion provided in the detached portion, is described as a discharge. 65 201207581 The particle conveying device according to item 8 of the invention. ¢:: 66