Abstract:
A cartridge detachably mountable to a main body of an image forming apparatus, includes a developing frame, a developer carrying member provided in the developer frame and adapted to hold and carry developer, a developer containing container for containing the developer and for supplying the developer to the developer frame, a seal member for unsealably sealing an opening portion through which the developer is supplied from the developer containing container to the developing frame, a rotary member for supplying the developer toward the developer carrying member, a first drive transmitting device for effecting drive transmission between the developer carrying member and the rotary member, and a second drive transmitting device for transmitting the driving to the seal member to unseal the seal member.

Description:
BACKGROUND OF THE INVENTION 
     1. Field of the Invention 
     The present invention relates to a cartridge detachably attachable to a main body of an image forming apparatus. 
     The image forming apparatus may be, for example, of a type in which an image is formed on a recording medium by using an electrophotographic image forming process, such as an electrophotographic copying machine, an electrophotographic printer (for example, an LED printer, a laser beam printer or the like) and an electrophotographic facsimile apparatus, and, as an example of the cartridge, there is a cartridge integrally incorporating at least developing means and an electrophotographic photosensitive member as an image bearing member into a cartridge unit which can detachably be mounted to the main body of the image forming apparatus. As another example of the cartridge, there is a cartridge which does not have an electrophotographic photosensitive member and has a developing device integrally including a developer containing container storing developer (referred to as “toner” hereinafter) and which can detachably be mounted to the main body of the image forming apparatus. 
     2. Related Background Art 
     In conventional image forming apparatuses using an electrophotographic image forming process, a process cartridge system in which an electrophotographic photosensitive member and process means acting on the electrophotographic photosensitive member are integrally incorporated into a cartridge unit which can detachably be mounted to a main body of the image forming apparatus has been used. According to such a process cartridge system, since the maintenance of the apparatus can be performed by the operator himself without any expert, the operability can be enhanced considerably. Thus, such a process cartridge system has widely been used in the image forming apparatuses. 
     In such a process cartridge, a photosensitive drum is provided and developing means is used for applying developer (toner) to a latent image formed on the photosensitive drum. The developing means is constituted by joining a developing frame holding a developing roller for feeding out the toner to the photosensitive drum to a toner frame (toner container) containing the toner. Before usage, an opening portion defined in a joined portion between the toner frame and the developing frame is sealingly closed by a seal member. There has been proposed a process cartridge having an automatic seal unsealing device in which, upon first usage, when the process, cartridge is mounted to the main body of the image forming apparatus, the seal member sealing the opening portion of the toner frame is automatically unsealed, and an image forming apparatus capable of driving an automatic seal wind-up device of a process cartridge. Similarly, regarding a developing cartridge and a toner cartridge, there has been proposed an automatic seal wind-up device. 
     The developing apparatus includes various rotary members and a developing process is effected by rotating such rotary members. As an example, there are a toner supplying roller disposed within a toner container and adapted to supply the toner to a developing roller, carrying and agitating means (referred to as merely as “agitating means” hereinafter) for carrying the toner to the developing frame, and a developing roller. 
     When the process cartridge is inserted into a predetermined position within the main body of the image forming apparatus, a developing roller input gear coaxial with the developing roller is engaged by a driving gear of the main body of the image forming apparatus, with the result that the developing roller is rotated, thereby rotating various rotary members relating to the developing process. 
     Nowadays, many process cartridges available on the market have mainly been designed so that various rotary members in the developing portion and cleaning portion, and the photosensitive drum are rotated by a process-cartridge driving gear of a driving device of the main body of the apparatus. 
     There is one (or two at the maximum) interface between the driving apparatus of the main body and a driven portion of the process cartridge. When two interfaces are provided, one of the interfaces relates to input of the photosensitive drum and the other relates to input of developing relating rotary portions. In this arrangement, image quality can be enhanced, and, by separating the input of the photosensitive drum from the input of developing relating rotary portions, uneven rotation of the photosensitive drum due to a change of load in development is prevented. This arrangement is adopted particularly by a high class machine in which a high quality image is requested. If there are three or more driving input portions for the process cartridge, the cost of the process cartridge is increased, and the positioning between the driving input portions of the process cartridge and the driving portion of the main body of the image forming apparatus becomes complicated, and such techniques are not yet used in the present machines available on the market. Normally, the single input of developing relating rotary portions is used. 
     Further, in recent years, there has also been proposed a process cartridge in which the toner seal is automatically wound up by a winding shaft, and a technique in which various rotary members, such as the winding shaft, the agitating means, the developer supplying roller and the like are rotated simultaneously by a driving force inputted to the developing portion, has also been proposed. 
     When there are various rotating means, driving mechanisms for rotating the winding shaft and other rotary members are concentrated at one side in a longitudinal direction of the developing roller. As a result, it is considered that the side at which the driving mechanisms are located extremely protrudes with respect to the developing roller, with the result that an installation space for the driving mechanism in the main body of the image forming apparatus is pressed to bring an unbalanced arrangement of the driving mechanisms. Particularly, since the winding shaft must wind up all the seal automatically, it requires sufficient strength, and, a diameter of the shaft is considered to be normally about 10 mm. In such a case, even when the winding shaft is installed in the driving portion of the process cartridge, the longitudinal dimension (perpendicular to a sheet conveying direction) of the process cartridge including the driving apparatus is lengthened. Further, when the other rotary members such as the toner agitating means and the toner supplying roller are also installed in this driving portion, the driving portion of the process cartridge becomes bulky. 
     Normally, left and right side plates of the main body of the apparatus are adequately spaced apart from each other not to interfere with the insertion of the process cartridge into the main body of the image forming apparatus. In this case, when the process cartridge in which the driving mechanisms are installed only at one side is inserted into the main body of the apparatus, the side plate (of the main body) corresponding to the driving side must be retarded not to interfere with the insertion of the process cartridge. However, on the side plates of the main body, there are installed not only the process cartridge, but also various units, such as the fixing device, a laser scanner, a sheet conveying portion (from the transfer portion to the fixing device), a sheet feeding portion and the like. Other units than the process cartridge are designed not to have a protruded portion at one side, unlike the process cartridge having the seal winding mechanism in the driving portion, and, in such a case, the side plates of the main body must be designed in consideration of the installation position of the process cartridge within the main body of the image forming apparatus and the configuration of the process cartridge passing through the main body of the image forming apparatus. 
     For these reasons, when the process cartridge has the construction in which the driving portion extremely protrudes in comparison with the other units, the entire distance between the side plates of the main body must be widened in accordance with the dimension of the process cartridge, or a portion of the side plate associated with the process cartridge must be retarded, i.e., the side plate must be partially recessed. 
     Normally, at the side of the developing apparatus where the driving mechanisms are located, a driving mechanism of the main body of the image forming apparatus (i.e., driving mechanism of the main body of the image forming apparatus for applying the driving force to the developing apparatus and for transmitting a rotational force from a motor to a developing member) is also installed. 
     In this way, if the driving mechanisms of the developing apparatus are concentrated at one side with respect to the center of the developing roller, not only the side plate of the main body must be reformed, but also the driving apparatus of the main body of the image forming apparatus must be designed in accordance with the reformed side plate. Since the driving mechanism drives not only the process cartridge but also other units such as the fixing device and the sheet feeding device, if drive input positions of these units are differentiated, the driving mechanism of the main body will becomes complicated (to cope with these units) and expensive. 
     Further, the reformed side plate influences not only the driving mechanism of the main body, but also an outer cover of the main body of the image forming apparatus for enclosing the driving mechanism. If the outer cover is partially protruded to conceal the protruded portion, the entire system will become bulky. 
     Further, within the process cartridge, if the driving mechanisms are concentrated at one side with respect to the center of the developing roller, various driving paths such as a driving path to the winding shaft, a driving path to the agitating means and a driving path to the toner supplying roller are partially overlapped with each other, which leads to a complicated arrangement in which gears are multi-overlapped. Thus, if a malfunction occurs once, disassembling and repair of the system becomes difficult. Therefore, it is considered that divisional installation of the driving mechanisms is inevitable. 
     When the toner seal is not yet unsealed by the winding shaft, the toner seal is bonded to the toner container by ultrasonic welding and the toner seal is also secured to the winding shaft. In this way, in the toner-seal unsealed condition, except for the mechanism for driving the winding shaft, other mechanisms disposed at that side cannot be exchanged. 
     As mentioned above, if the layers of various driving paths (ranges where the driving paths defined by the gears exist) are installed at one side in an overlapped fashion, the following disadvantages occur: 
     1. Only a portion of the side plate associated with the process cartridge is protruded, thereby affecting an influence of the installation of the driving apparatus of the main body. 
     2. The configuration of the side plates of the main body must be changed, and the outer cover is also protruded in accordance with the driving apparatus. 
     3. Since various driving gears are concentrated in the driving portion of the process cartridge, the disassembling becomes difficult, thereby making exchange of parts in the driving portion difficult. 
     SUMMARY OF THE INVENTION 
     An object of the present invention is to provide a cartridge in which a toner-seal member can automatically be unsealed. 
     Another object of the present invention is to provide a cartridge in which drive transmitting portions of the cartridge are prevented from being concentrated at one end in a longitudinal direction of the cartridge. 
     A further object of the present invention is to provide a cartridge in which an uneven protruded portion is prevented from being created at one end in a longitudinal direction of the cartridge. 
     A still further object of the present invention is to provide a cartridge in which an outer cover of a main body of an image forming apparatus is prevented from creating an uneven protruded portion and from being made bulky. 
     A further object of the present invention is to provide a cartridge in which maintenance of a driving system of the cartridge can easily be performed. 
    
    
     The other objects and features of the present invention will be more apparent from the following detailed explanation of the invention referred to the accompanying drawings. 
     BRIEF DESCRIPTION OF THE DRAWINGS 
     FIG. 1 is a longitudinal sectional view of an image forming apparatus to which a process cartridge according to a first embodiment of the present invention is mounted; 
     FIG. 2 is a longitudinal sectional view of the process cartridge shown in FIG. 1; 
     FIG. 3 is a perspective view showing insertion guides of a main body of the image forming apparatus, for guiding the process cartridge; 
     FIG. 4 is a perspective view showing insertion guides of a main body of the image forming apparatus, for guiding the process cartridge; 
     FIG. 5 is a perspective view of a seal-member unsealing device of the process cartridge of FIG. 2, showing an unsealed condition; 
     FIG. 6 is a perspective view showing a sealed condition of the process cartridge of FIG. 5; 
     FIG. 7 is a graph for explaining the transition of a toner-seal peeling force (pull-out force); 
     FIG. 8 is a sectional view of a developing apparatus according to a concrete first embodiment of the present invention; and 
     FIG. 9 is a sectional view of a developing apparatus according to a concrete second embodiment of the present invention. 
    
    
     DESCRIPTION OF THE PREFERRED EMBODIMENTS 
     First Embodiment 
     Now, a cartridge according to a first embodiment of the present invention, and an image forming apparatus using such a cartridge will be explained. 
     First of all, the entire construction of the image forming apparatus will be briefly described with reference to FIG.  1 . FIG. 1 is a sectional view of a laser printer as an example of an image forming apparatus in which a process cartridge B is mounted to a main body  15  of the image forming apparatus, and FIG. 2 is a sectional view of the process cartridge. 
     As shown in FIG. 1, the main body  15  of the image forming apparatus serves to form a developer image (referred to as “toner image” hereinafter) on a photosensitive drum  7  as an image bearing member by illuminating the photosensitive drum with a light image in response to image information from an optical system  1 . In synchronism with the formation of the toner image, a recording material  2  is conveyed by conveying means  3 , so that the toner image formed on the photosensitive drum  7  is transferred onto the recording material  2  by transfer means  4  in an image forming portion within the process cartridge B, and, thereafter, the recording material  2  is conveyed to fixing means  5  including a driving roller  5   a  and a fixing roller  5   b , thereby fixing the transferred toner image onto the recording material. Thereafter, the recording material is discharged onto a discharge portion  6 . 
     (Image Forming Apparatus) 
     Now, various elements of the image forming apparatus A will be described. 
     (Electrifying Means) 
     Electrifying means includes a charging roller  8  of a contact electrifying type, which roller contacts a surface of the photosensitive drum  7  to apply voltage to the photosensitive drum  7 , thereby uniformly charging the photosensitive drum  7 . Incidentally, the charging roller is press-contacted with the photosensitive drum  7  to be rotatingly driven by the rotation of the drum. 
     (Optical System) 
     The optical system  1  serves to illuminate the photosensitive drum  7  with the light image in response to the image information read-in from an external device and the like and comprises an optical unit  1   a  provided in the main body  15  of the apparatus and including a laser diode (not shown), a polygon mirror  1   b , a scanner motor  1   c , a focusing lens  1   d  and a reflection mirror  1   e.    
     When an image signal is given from the external device, the laser diode emits light is response to the image signal, which light, in turn, illuminates the polygon mirror  1   b  as image light. The polygon mirror  1   b  is rotated at a high speed by the scanner motor  1   c , and the image light reflected from the polygon mirror  1   b  illuminates the photosensitive drum  7  through the focusing lens  1   d  and the reflection mirror  1   e , with the result that the surface of the photosensitive drum  7  is selectively exposed, thereby forming the electrostatic latent image on the drum. 
     (Developing Means) 
     The developing means serves to feed out toner in a toner container  12  to a developing roller  10  through an opening portion  22  by rotation of an agitating member  32 . A peripheral surface of a rotating toner supplying roller  21  slidingly contacts the developing roller  10 , and the developing roller  10  to which the toner is adhered is rotated. In this way, a toner layer is formed on the surface of the developing roller  10  while charging the toner tribo-electrically by means of a developing blade  10   e , and the toner layer is supplied to a developing area on the photosensitive drum  7 . When the toner is transferred onto the electrostatic latent image on the photosensitive drum  7 , the latent image is visualized as the toner image. The developing blade  10   e  serves to regulate the amount of the toner around the developing roller  10  and to apply the tribo-electricity to the toner. 
     (Recording Material Conveying Means) 
     Next, the conveying means  3  for conveying the recording material  2  will be described. In the illustrated embodiment, the recording material  2  can be fed by manual insertion or be fed from a cassette. In the manual insertion, as shown in FIG. 1, when the recording materials  2  are set on a sheet feeding tray  3   a  and the image formation operation is started, the recording materials  2  on the sheet feeding tray  3   a  are fed toward the image forming apparatus by means of a pick- up roller  3   b , and the fed recording materials are separated, one by one, by means of a pair of separation rollers  3   c   1 ,  3   c   2 , and the separated recording material is conveyed until a leading end of the recording material abuts against a nip between a pair of registration rollers  3   d   1 ,  3   d   2 . In synchronism with the image formation operation, the registration roller pair  3   d   1 ,  3   d   2  is rotated to convey the recording material  2  to the image forming portion. Further, the recording material  2  on which the image was formed is conveyed to the fixing means  5 , and then, the recording material is discharged onto the discharge portion  6  by means of a pair of discharge rollers  3   f   1 ,  3   f   2 . Incidentally, guide members  3   g  are disposed between the above-mentioned roller pairs. 
     Further, the sheet feeding tray  3   a  comprises an inner member  3   a   1  and an outer member  3   a   2 , and, in an unused condition, these members are housed in the main body. 
     On the other hand, in the cassette feeding, as shown in FIG. 1, the main body  15  of the apparatus has a cassette  3   h  mounting portion at its bottom. When the recording material  2  is not fed by manual insertion, the recording materials  2  contained in the cassette  3   h  mounted to the mounting portion are fed, one by one, to the pair of registration rollers  3   d   1 ,  3   d   2  by means of a pick-up roller  3   i  and a feeding roller  3   j . Thereafter, the recording material is conveyed in the same manner as the manual insertion operation. 
     (Transfer Means) 
     The transfer means  4  serves to transfer the toner image formed on the photosensitive drum  7  onto the recording material  2  in the image forming portion. In the illustrated embodiment, as shown in FIG. 1, the transfer means  4  includes a transfer roller. That is to say, the recording material  2  is urged against the photosensitive drum  7  of the inserted process cartridge B by the transfer roller, and, by applying voltage having a polarity opposite to that of the toner image formed on the photosensitive drum  7  to the transfer roller, the toner on the photosensitive drum  7  is transferred onto the recording material  2 . 
     (Fixing Means) 
     The fixing means  5  serves to fix the toner image transferred to the recording material  2  by the voltage applied transfer roller onto the recording material. As shown in FIG. 1, the fixing means comprises the rotating driving roller  5   a , and the fixing roller  5   b  including therein a heat generating member press contacted with the driving roller  5   a  to be rotatingly driven by the rotation of the driving roller. That is to say, when the recording material  2  to which the toner image was transferred in the image forming portion is being passed through a nip between the driving roller  5   a  and the fixing roller  5   b , the recording material is subjected to pressure between the rollers  5   a ,  5   b  and heat from the fixing roller  5   b . As a result, the toner image is fixed to the. recording material  2 . 
     As shown in FIG. 2, in the process cartridge B constituting the image forming portion, the photosensitive drum as the image bearing member is rotated and the surface of the photosensitive drum is uniformly charged by the charging roller as the electrifying means, and the light image from the optical system  1  illuminates the photosensitive drum  7  through an exposure opening portion  9  to thereby form the latent image, and the latent image is visualized by the developing roller as the developing means to form the toner image corresponding to the latent image. After the toner image was transferred to the recording material  2  by the transfer means  4 , residual toner remaining on the photosensitive drum  7  is removed by a cleaning blade  11   a  of cleaning means  11 , and the removed toner is collected into a removed toner (waste toner) chamber  11   c.    
     Incidentally, the process cartridge B is constituted by a toner container (developer containing container)  12  as a first frame having the toner reservoir, a developing frame  13  as a second frame having the developing roller  10  and the like, and a cleaning frame  20  as a third frame having the photosensitive drum  7 , cleaning means  11  and the like. 
     Within the main body  15  of the image forming apparatus, there is provided cartridge mounting means for mounting the process cartridge B. Mounting and dismounting of the process cartridge B with respect to the main body  15  of the apparatus can be performed only after an opening/closing cover  14  is opened around hinges  14   a.    
     As shown in FIGS. 3 and 4, cartridge mounting means  16  for mounting the process cartridge B is provided within the main body  15  of the image forming apparatus, and, mounting and dismounting of the process cartridge B with respect to the main body  15  can be performed after the opening/closing cover  14  is opened around the hinges  14   a  (FIG.  1 ). 
     When the opening/closing cover  14  is opened, a cartridge mounting space within the main body  15  of the apparatus is exposed, and guide members  16   a  are formed on both side inner walls of the main body  15  of the apparatus. The guide members  16   a  are provided with guide portions into which the process cartridge B is inserted. When the process cartridge B is inserted into a predetermined position along the guide portions and then the opening/closing cover  14  is closed, the mounting of the process cartridge to the main body  15  of the image forming apparatus is completed. 
     The process cartridge B includes the image bearing member and at least one process means. The process means may be, for example, electrifying means for charging the surface of the image bearing member, developing means for forming a toner image on the image bearing member, and cleaning means for removing residual toner remaining on the surface of the image bearing member. Incidentally, in the present invention, the process cartridge includes at least the developing means. 
     In the process cartridge B according to the illustrated embodiment, as shown in FIG. 2, the charging g roller  8  as the electrifying means, the exposure opening portion  9 , the developing roller  10  as the developing means, the cleaning means  11 , and the toner supplying roller  21  for supplying toner to the developing roller  10  are disposed around electrophotographic photosensitive drum  7  as the image bearing member, and these elements are covered by a housing comprised of the toner container  12 , the developing frame  13  and the cleaning frame  20  to thereby form a cartridge unit which can detachably be mounted to the main body  15  of the apparatus. 
     (Seal Member Unsealing Mechanism) 
     Next, a seal member unsealing mechanism for the process cartridge B will be described with reference to FIGS. 5 and 6. 
     In the process cartridge B, a toner supplying opening portion  22  is formed in a partition wall  12   a  between the toner container  12  containing the toner and a developing chamber  26  (FIG.  2 ), and the opening portion  22  is thermally sealed by a seal member  23  by means of hot melt, thereby sealing the toner within the toner container  12 . 
     In FIG. 5, the seal member  23  extends to the right side of the opening portion  22  to the left to close the opening portion  22  and then is folded back to extend to the right, and a distal end of the seal member is secured to a winding shaft  24 . FIG. 5 shows a gear arrangement in a winding shaft portion. 
     The seal member  23  is welded to the winding shaft  24 . A winding gear  25  is secured to the winding shaft  24  above the seal member  23 . The gear  25  meshed with an idler gear  27  below which there are provided a bevel gear  28  and a bevel gear  29  meshed with the gear  28 , thereby changing the drive rotational direction. A gear  30  secured coaxial with the bevel gear  29  and rotated together with this bevel gear is meshed with a gear (not shown) on the developing roller so that the rotation of the developing roller  10  is transmitted to the winding shaft  24 . Further, the rotational speed of the gear on the developing roller is reduced by the intermediate gear train, thereby creating a rotational torque and a rotational speed required for the winding shaft  24 . Incidentally, the winding shaft  24 , a shaft for the gears  27 ,  28  and a shaft for the gears  29 ,  30  are rotatably supported by the developing frame  13 . 
     FIG. 6 shows the condition that the toner seal (seal member) is wound up by the winding shaft under the action of the winding mechanism. As shown, although the toner  31  is adhered to the seal member  23 , since the seal member  23  is wound up by the winding shaft  24 , such toner is not scattered out of the process cartridge B in comparison with a case where the seal member  23  is peeled by the operator himself, thereby achieving clean working. In addition, since the seal member  23  is contained within the process cartridge, only the seal member is not discarded. Thus, by returning the used process cartridge to the cartridge maker, the operator&#39;s burden for treating the seal member as scrap can be avoided. As shown in a graph of FIG. 7 in which the abscissa indicates elapsed time t from pull-out start and the ordinate indicates pull-out forces D, E, F, a force required for unsealing the seal member  23  reaches a first peak of D kg at the pull-out start and then is stabilized to E kg and lastly reaches a second peak of D 2  kg. Thereafter, the seal member  23  is completely wound around the winding shaft  24  to reduce the pull-out force to F kg. The force F corresponds to a force for merely rotating the winding shaft  24  idly. 
     In this way, the pull-out force at the end of the seal member  23  is higher than that at a central portion thereof. The winding shaft  24  must have strength capable of resisting such peak pull-out forces. 
     Incidentally, FIGS. 5 and 6 show only one example of the seal-member unsealing mechanism and differs from the following embodiment. 
     FIG. 8 is a sectional view of a developing apparatus portion of a process cartridge associated with the present invention. 
     As shown, in this developing apparatus, there are provided an agitating member  32  for agitating toner, a toner supplying roller  21  for supplying the toner to a developing roller  10 , and a winding shaft  21  for automatically winding up a seal member  23 , and these elements are driven by rotation of the developing roller  10 . Further, the developing roller  10  is driven by a main body  15  of the image forming apparatus. 
     The agitating member  32  has a central rotary shaft  32   d . The central rotary shaft  32   d  is rotatably supported by a toner container  12 . A gear  32   a  is secured to an end portion of the central rotary shaft  32   d  protruded outwardly from the toner container  12 . The gear  32   a  is meshed with an idler gear  32   b , which is in turn meshed with an input gear  32   c  integrally rotated together with the developing roller  10 . The idler gear  32   b  is rotatably supported on a fixed shaft  13   a  provided on a developing frame  13 . The developing roller  10  has a central shaft  10   d  rotatably supported by the developing frame  13 . 
     The main body  15  of the image forming apparatus is provided with a body side driving gear  33 , rotatably supported by the main body  15  of the apparatus and adapted to receive a driving force from a motor (not shown) of the main body  15  of the image forming apparatus and to transmit such driving force, to the input gear  32   c . The gear  33  is meshed with a developing roller input gear  10   a  secured to the developing roller shaft  10   d  so that the driving force is transmitted to a toner supplying roller gear  21   a  via the gear  10   a . The toner supplying roller gear  21   a  is secured to a toner supplying roller shaft  21   d . An elastic roller  21   e  and the gear  21   a  are secured to the toner supplying roller shaft  21   d . The toner supplying roller shaft  21   d  is rotatably supported by the developing frame  13 . By rotating the toner supplying roller  21  by the rotation of the developing roller  10 , the toner in the developing chamber  26  is coated on the developing roller  10 . 
     At the other end of the developing roller  10 , a winding input gear (winding shaft drive connecting gear)  10   b  for transmitting a driving force to the winding shaft  24  is secured to the developing roller shaft  10   d . A rotation of the winding input gear  10   b  is transmitted to a spiral gear (not shown) integrally secured to the winding shaft  24  through a spiral gear  10   c , so that the winding shaft  24  is rotated by the rotation of the developing roller  10 , thereby unsealing the toner seal  23 . Incidentally, the spiral gear  10   c  is rotatably mounted on a fixed shaft  13   b  provided on the developing frame  13  and supported not to shift in an axial direction. The drive transmitting mechanism from the developing roller  10  to the winding shaft  24  is not particularly limited but may be designed as shown in FIG. 5, for example. 
     As shown in FIG. 8, in the present invention, the driving of the developing portion is divided into three layers C, D and E. 
     The C layer is a toner supplying roller driving portion including (the main body driving gear  33 ), the developing roller input gear  10   a  and gear  21   a , the D layer is an agitating member driving portion including the gear  32   a , the idler gear  32   b  and the drive input gear  32   c , and the E layer is a winding shaft driving portion including the winding input gear (winding shaft drive connecting gear)  10   b  and the spiral gear  10   c.    
     The present invention provides a driving arrangement when the E layer is mainly considered, and the C, D and E layers are not concentrated at one side in the longitudinal direction of the developing roller  10 , and at least one driving layer is disposed at a side opposite to the E layer. 
     Incidentally, in the arrangement according to the illustrated embodiment, while an example that the driving force is inputted to the C layer from the main body driving gear  33  to rotate the developing roller  10  was shown, the main body driving gear  33  may be provided in the D layer or the E layer. Further, the D layer as a toner supplying roller driving layer may be included in the E layer. 
     Second Embodiment 
     Alternatively, in the present invention, the C layer may also be located at the same side as the E layer. In this case, as shown in FIG. 9, the C layer is always positioned outwardly of the E layer with respect to the center of the longitudinal direction of the developing roller  10 . 
     With this arrangement (in which the C layer is positioned outwardly of the E layer), if a consumed part such as the toner supplying roller  21  is exchanged or if the toner supplying roller is exchanged after assembling for any reason, the exchanging operation is facilitated. Particularly, the toner seal  23  is firmly secured to the winding shaft  24  not to easily be separated therefrom, and, thus, the winding shaft  24  cannot easily be removed. Further, the toner seal  23  is welded to the toner container  12  by the ultrasonic welding. Accordingly, it is impossible to disassemble the mechanical parts in the winding shaft driving portion (E layer) and to remove the part in any inner layer. For this reason, the winding shaft driving portion (E layer) must be positioned nearest to the center of the developing apparatus. Also in this arrangement, the C, D and E layers are not concentrated at one side of the developing roller. 
     Third Embodiment 
     In the above-mentioned first and second embodiment, while an example that the driving gear of the main body  15  of the apparatus is meshed with the gear on the developing roller to distribute the rotational force to various driving systems was explained, the present invention is not limited to such an example. Any arrangement can be adopted so long as the developing roller  10  constitutes the drive transmitting means and plural driving systems are disposed on both ends of the developing roller  10 . For example, an arrangement, in which the gears  21   a  coaxial with the idler gear  32   b  and the toner supplying roller  21  are operatively connected to the drive gear of the main body  15  of the apparatus via appropriate means (not shown) to transmit the driving force from the main body  15  of the apparatus to the developing roller  10  to thereby rotate the other driving systems, may be used. 
     In the above-mentioned first embodiment, while an example that, when the seal member  23  is peeled, the entire seal member  23  (including the portion thermally welded around the toner supplying opening portion  22 ) except for one end of the seal member  23  is unsealed was explained, in the present invention, the seal member securing method is not particularly limited, and, for example, a seal member may be constituted by a flexible first film (referred to “seal film” hereinafter) for covering the opening portion  22  defined between the toner container  12  and the developing frame  13  and is capable of being torn along the peeling direction, and a stripe-shaped second film (tear tape) for tearing the seal film in a longitudinal direction to create a toner supplying opening. 
     The seal film may be formed from composite film comprised of polyester/aluminum or polypropylene having uniaxial ductility. 
     Further, while an example that the peel-start portion of the seal member is welded along the same width as the entire width of the seal member was shown, a system (easy peeling system) in which the welding area of the seal member at the peel start portion is inclined with respect to the peeling direction to permit the peeling force to be concentrated at a distal end of the inclined area so that the peeling can easily be effected may be used. 
     Incidentally, regarding the process cartridge, while an example that the photosensitive drum, the electrifying means, the developing means and the cleaning means are integrally incorporated into the cartridge unit was explained, at least the developing means (as process means) and the electrophotographic photosensitive member may be integrally incorporated into a cartridge unit that can be detachably mounted to the main body of the image forming apparatus (for example, a copying machine, an LBP or the like). 
     In the illustrated embodiments, while the process cartridge was explained, the present invention can be applied to a developing cartridge  2  in which a developing member and developer are integrally contained in a unit which can detachably be mounted to the main body of the image forming apparatus. In the developing cartridge, the developing frame and the developer containing container are welded together. 
     As mentioned above, the above-mentioned example proposes a divisional arrangement in which one or both of the driving apparatuses (gear trains) for the rotating means (for example, agitating means) and the developer supplying roller are located at a side of the developing roller (in the longitudinal direction thereof) opposite to the side where the driving apparatus for the winding shaft is disposed. With this arrangement, unlike conventional techniques, disadvantages (giving a bad feeling to the user), such as only the side where all of the driving apparatuses are located is protruded and the outer cover for the main body is also protruded unevenly in comparison with the other side or the outer cover is made bulky to conceal the protruded portion, can be eliminated. 
     Similarly, the arrangement of the associated driving mechanisms of the main body of the image forming apparatus is not made complicated. Further, at the side where the winding shaft is located, by positioning the driving apparatus (developer supplying roller input gear and the associated idler gear) for the developer supplying roller outwardly of the driving apparatus for the winding shaft, if the developer supplying roller must be exchanged due to manufacturing trouble, such exchange can easily be performed. 
     When the driving apparatuses for other rotary members are positioned at the side opposite to the side where the winding shaft driving apparatus or when the driving apparatus for the rotary member disposed at the same side as the winding shaft is positioned outwardly of the winding shaft driving apparatus, good balance of the developing apparatus and the main body of the image forming apparatus can be achieved, and the construction of the mechanism portions can be simplified, and easy disassembling ability upon malfunction can be obtained.