CN203444244U - Developing box - Google Patents
Developing box Download PDFInfo
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- CN203444244U CN203444244U CN201320390441.8U CN201320390441U CN203444244U CN 203444244 U CN203444244 U CN 203444244U CN 201320390441 U CN201320390441 U CN 201320390441U CN 203444244 U CN203444244 U CN 203444244U
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- gear
- detection
- sidewall
- delevoping cartridge
- spacing preiection
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Abstract
The utility model relates to a developing box which comprises a box body, a driving mechanism and a counting mechanism, wherein the counting mechanism comprises a detecting gear, a positioning piece and an elastic element, and the detecting gear comprises a tooth segment, a transition segment and a limiting bulge; the box body comprises a pair of side walls and a limiting structure. One end of the elastic element is propped against the detecting gear, and the other end of the elastic element is propped against the side walls or the positioning piece. The detecting gear is driven by the driving mechanism to rotate from an initial position to a final position. When the detecting gear is positioned at the final position, the limiting bulge is in interaction with a limiting structure so as to block the inertial rotation of the detecting gear. When the detecting gear resets to the final position from the final position, only external force which causes the limiting bulge not to be in interaction with the limiting structure is applied to the detecting gear and then rotate the detecting gear nearby the initial position, finally the external force is cancelled, and the detecting gear reaches the initial position under the action of the elastic element. Thus, after production test, the developing box can be detected again to realize counting.
Description
Technical field
The utility model relates to a kind of Delevoping cartridge that contains counting mechanism, particularly a kind of Delevoping cartridge that contains counting mechanism being removably mounted in image processing system.
Background technology
In the image processing system of prior art, (printer, duplicating machine and facsimile recorder etc.) are widely used a kind of Delevoping cartridge, this Delevoping cartridge contains counting mechanism, Delevoping cartridge is removably mounted on image processing system, by the information testing agency of image processing system and the counting mechanism on Delevoping cartridge, interact, realization is to being installed to the detection whether Delevoping cartridge on image processing system is new Delevoping cartridge, thereby determines the life-span of Delevoping cartridge.
Be the disclosed a kind of counting mechanism of prior art as depicted in figs. 1 and 2, Delevoping cartridge 28 comprises developing element 31, powder feeding element, agitating element, driving mechanism 61, counting mechanism 80, gear protecting cover 70 and box body 60; Driving mechanism 61 comprises input gear 62, developing element gear 63, powder feeding element gear 64, neutral gear 65, agitating element gear 66; Described counting mechanism 80 is hypodontia (circumference has tooth for last minute, and part does not in addition have tooth, i.e. gear parts and non-gear parts).Input gear 62 receives from the driving force in image processing system, input gear 62 meshes with developing element gear 63, powder feeding element gear 64 and neutral gear 65 respectively, neutral gear 65 and 66 engagements of agitating element gear, agitating element gear 66 and counting mechanism 80 engagements; Gear protecting cover 70 covers driving mechanism 61 and counting mechanism 80; thereby protection driving mechanism 61 and counting mechanism 80; gear protecting cover 70 has an opening in the position relative with counting mechanism 80; the information testing agency of being convenient to image processing system contacts with counting mechanism; information testing agency is a detection feeler lever, thereby detects Delevoping cartridge 28.Counting mechanism 80 comprises detection piece 81, and detection piece 81 is for triggering the information testing agency of image processing system.When Delevoping cartridge is installed in image processing system, counting mechanism 80 and agitating element gear 66 pre-engagements (initial position), detection piece 81 does not touch with the information testing agency of image processing system; When image processing system is started working, input gear 62 receives from the driving force in image processing system, counting mechanism 80 rotates under the effect of driving mechanism 61, detection piece 81 starts to trigger the information testing agency of image processing system, and counting mechanism 80 triggers the information testing agency of image processing system from rotate to the process of stopping the rotation; Because counting mechanism 80 is hypodontia, when the non-gear parts of counting mechanism 80 relative with agitating element gear 66, be that counting mechanism 80 does not mesh (last position) with agitating element gear 66, counting mechanism 80 stops the rotation, detection piece 81 trigger process finish, and complete the detection of image processing system to Delevoping cartridge.
In process of production, after Delevoping cartridge assembling, sell Delevoping cartridge, the quality of Delevoping cartridge can not be guaranteed; If assemble and carry out printing test and resale to detect after the quality of Delevoping cartridge meets standard at Delevoping cartridge, now detection of gear can not realize counting in last position, thereby affect the life-span of Delevoping cartridge, even image processing system judges that this Delevoping cartridge does not have developer, also Delevoping cartridge is changed in prompting.
Utility model content
The utility model provides a kind of Delevoping cartridge, with solve that existing Delevoping cartridge sells that the quality of Delevoping cartridge is unstable and Delevoping cartridge assembling is complete aborning and test after detection of gear in last position, can not realize the problem of counting.
For solving the problems of the technologies described above, the technical scheme that the utility model adopts is: a kind of Delevoping cartridge, be removably mounted in image processing system, and comprise box body, driving mechanism and counting mechanism; Described counting mechanism inclusion test gear, described detection of gear comprises detection piece, has tooth section, spacing preiection and transition section; Described box body comprises pair of sidewalls, on a described sidewall, is provided with position limiting structure; Detection of gear rotates to last position from initial position under the driving of driving mechanism; Described position-limit mechanism rotates to behind last position in detection of gear, and position limiting structure and spacing preiection effect restriction detection of gear continue rotation; Described counting mechanism also comprises flexible member and keeper; Described detection of gear utilization is installed pin and is fixed on described sidewall, keeper is arranged on the end that pin is installed, described flexible member is set on the axle of described installation pin, described flexible member one end and detection of gear butt, the other end and keeper or sidewall butt; When detection of gear is positioned at last position, detection of gear is removable detection of gear is axial with respect to position limiting structure, after detection of gear axially relatively moves, there is in the axial direction difference in height in position limiting structure and spacing preiection, make detection of gear can be along the direction rotation of former detection of gear rotation to initial position above or below, thereby under the effect of flexible member, automatically reset.
Further, in above-mentioned Delevoping cartridge: described position limiting structure is the first block being arranged on sidewall; When described flexible member one end and detection of gear butt, the other end and keeper butt, when described detection of gear is moved along installation pin to the sidewall direction described in departing under external force, described spacing preiection can pass through on the first block top.
Further, in above-mentioned Delevoping cartridge: described keeper is screw, screw is threaded with installation pin.
Further, in above-mentioned Delevoping cartridge: described position limiting structure is the first block being arranged on sidewall; Between the first described link stopper and sidewall, be provided with the gap that spacing preiection passes through; When described flexible member one end and detection of gear butt, the other end and sidewall butt, when described detection of gear is moved to sidewall along installation pin under external force, described spacing preiection passes through from gap.
Further, in above-mentioned Delevoping cartridge: the first described link stopper comprises the extension radially extending along detection of gear, when described detection of gear is during in last position, by the spacing preiection described in described extension backstop, described extension and the axial spacing of sidewall are the gap that spacing preiection passes through.
Further, in above-mentioned Delevoping cartridge: described position limiting structure is the first groove being arranged on sidewall described under described detection of gear; The elastic force of described flexible member makes described detection of gear near described sidewall; When described detection of gear is moved along installation pin to the sidewall described in departing under external force, described spacing preiection can leave the first groove.
Further, in above-mentioned Delevoping cartridge: be also provided with in described detection of gear and drive described detection of gear along the handle of erection column pin axially-movable.
Further, in above-mentioned Delevoping cartridge: described handle and described detection piece unite two into one.
Further, in above-mentioned Delevoping cartridge: also comprise gear protecting cover, described gear protecting cover has the opening that allows detection piece to stretch out, and described opening is hollow round hole or irregular circular hole.
Further, in above-mentioned Delevoping cartridge: described box body also comprises recess, expose portion detection of gear.
While detection of gear being reset to initial position from last position in the utility model, only need apply one to detection of gear makes spacing preiection and the noninteracting external force of position limiting structure, then detection of gear is rotated to initial position near, finally cancel external force, detection of gear arrives initial position under the effect of flexible member, both can guarantee to sell the stay in grade of Delevoping cartridge, and also can guarantee after production test that powder box can be detected again to realize counting.
Accompanying drawing explanation
Fig. 1 is the Delevoping cartridge schematic diagram of prior art;
Fig. 2 is driving mechanism and the counting mechanism position view of the Delevoping cartridge of prior art;
Fig. 3 is the side view of Delevoping cartridge in embodiment mono-;
Fig. 4 a, Fig. 4 b, Fig. 4 c, Fig. 4 d and Fig. 4 e are counting mechanism and gear protecting cover scheme of installation in embodiment mono-;
Fig. 5 is the side view that while concealing gear protecting cover in embodiment mono-, detection of gear is positioned at initial position;
Fig. 6 is the side view that while concealing gear protecting cover in embodiment mono-, detection of gear is positioned at last position;
Fig. 7 a, Fig. 7 b and Fig. 7 c are the schematic diagram that in embodiment mono-, detection of gear is positioned at last position;
Fig. 8 a and 8b are schematic diagram when detection of gear is raised in embodiment mono-;
Fig. 9 is the another kind of structure of detection of gear in embodiment mono-;
Figure 10 a and Figure 10 b are the schematic diagram that in embodiment bis-, detection of gear resets;
Figure 11 is installation and measuring gear schematic diagram not in embodiment tri-;
Figure 12 is the part exemplary plot of detection of gear in embodiment tri-;
Figure 13 is the scheme of installation of detection of gear in embodiment tri-;
Figure 14 and Figure 15 are the schematic diagram that in embodiment tri-, detection of gear is positioned at initial position;
Figure 16 is the schematic diagram that while concealing gear protecting cover in embodiment tri-, detection of gear is positioned at last position;
Figure 17 is Delevoping cartridge bottom perspective view in embodiment tri-;
Figure 18 is the schematic diagram of Delevoping cartridge middle gear protecting cover axial location detection of gear in embodiment tri-;
Figure 19 is the schematic diagram that in embodiment tetra-, detection of gear is positioned at initial position;
Figure 20 is the schematic diagram that in embodiment tetra-, detection of gear is positioned at last position;
Figure 21 and Figure 22 are the schematic diagram that in embodiment tetra-, detection of gear resets.
Embodiment
Below in conjunction with drawings and Examples, explain utility model content of the present utility model, embodiment that the utility model adopts only, for explaining utility model content of the present utility model, is not limited to the utility model.
Embodiment mono-:
As shown in Fig. 3, Fig. 4 a and Fig. 4 d, the present embodiment provides the Delevoping cartridge 1 being removably mounted in image processing system, and described Delevoping cartridge 1 comprises box body 10, gear protecting cover 4, developing element, powder feeding element, agitating element, driving mechanism 6 and counting mechanism; Driving mechanism 6 comprises input gear 62, developing element gear 63, powder feeding element gear 64, neutral gear 65, agitating element gear 66; Described counting mechanism inclusion test gear 2, keeper 8 and flexible member 7.In box body 10, be formed for the container cavity of receiving photographic developer, box body 10 has a pair of relative sidewall 11, and driving mechanism 6 and counting mechanism are installed on sidewall 11; Sidewall 11 is fixedly installed installation pin 14 near the position of agitating element gear 66, and detection of gear 2 is rotatably installed on pin 14; The side circumference of detection of gear 2 be formed with one can with agitating element gear 66 engagement have tooth section 21 and for disconnecting the transition section 22 of drive connections with agitating element gear 66; Detection of gear 2 deviates from and on the end face of sidewall 11, is fixedly installed the detection piece 23 that is useful on when having tooth section 21 with 66 engagement of agitating element gear, triggers the information testing agency in described image processing system, detection piece 23 is positioned at the scope that has tooth section 21, and detection of gear 2 is triggerings of information testing agency in completing image processing system in having tooth section 21 and agitating element gear 66 engagement processes; On the side circumference of detection of gear 2, be also fixedly installed spacing preiection 24 and positioning convex 25, spacing preiection 24 and positioning convex 25 are positioned at the scope of transition section 22; On sidewall 11, be fixedly installed and be useful on that when having tooth section 21 to depart from engagement with agitating element gear 66 backstop is lived the first block 101 of spacing preiection 24 and for the second block 102 of backstop positioning convex 25 when having tooth section 21 with agitating element gear 66 pre-engagement, on the sense of rotation A of detection of gear 2, the second block 102 is positioned at the upstream of the first block 10; What described the first block 101 was position limiting structure is a kind of, and described position limiting structure restriction detection of gear is in the continuation rotation of last position, and described position limiting structure and spacing preiection 24 form position-limit mechanism.Footpath in detection of gear 2 makes progress, and positioning convex 24 development lengths are less than the development length of spacing preiection 25, and the first link stopper 101 is greater than positioning convex 25 development lengths to the distance in detection of gear 2 axle center.
As shown in Fig. 4 a, Fig. 4 b and Fig. 5, detection of gear 2 and installation pin 14 clearance fit, install pin 14 through detection of gear 2; The position of the detection of gear 2 shown in Fig. 4 b and Fig. 5 is initial position, now detection of gear 2 has tooth section 21 and agitating element gear 66 pre-engagements (having the start-up portion of tooth section 21 and agitating element 66 to mesh), positioning convex 25 and the second block 102 are interfered, stop detection of gear 2 clockwise direction (opposite direction of sense of rotation A) rotation, here, we counterclockwise rotate to be forward detection of gear 2, and clockwise direction is reversion.
As shown in Fig. 4 c, 4d, flexible member 7 is set in to be installed on pin 14, and one end and detection of gear 2 butts, the other end and keeper 8 butts; Described flexible member can be stage clip, can be also the hollow circuit cylinder that resilient material is made.As shown in Fig. 4 d, keeper 8 is threaded with pin 14 is installed, and keeper 8 is greater than the interior diameter of a circle of flexible member 7 with the diameter of the end face of flexible member 7 butts, keeper 8 detection of gear 2 axially on locate flexible member 7 and detection of gear 2; Described keeper 8 is screw, in the present embodiment, can also between keeper 8 and flexible member, increase pad, described pad one end and keeper 8 butts, the other end and flexible member 7 butts, the outside diameter of described pad is greater than the interior circular diameter of flexible member 7, and now the end face diameter of keeper 8 only need be greater than the interior circular diameter of pad; In the present embodiment, keeper 8 can be also that buckle is connected with pin 14 is installed.As shown in Fig. 4 e, install after counting mechanism, gear protecting cover 4 is being arranged on sidewall 11, thus protection driving mechanism 6 and counting mechanism.
As shown in Fig. 3 and Fig. 4 e, gear protecting cover has an opening 41; When gear protecting cover 4 is arranged on the sidewall 11 of Delevoping cartridge 1, the detection piece 23 of detection of gear 2 is through opening 41, and gives prominence in the outside of gear protecting cover 4, is convenient to trigger and states the information testing agency in image processing system; When detection of gear 2 is reset to initial position from last position, external force directly acts on the part that opening 41 exposes detection of gear 2, is convenient to reset detection gear 2.
As shown in Fig. 6, Fig. 7 a, Fig. 7 b and Fig. 7 c, detection of gear 2 shown in Wei Mo position, position.At Delevoping cartridge, be installed to after image processing system, agitating element gear 66 drives detection of gear 2 rotations, makes detection of gear 2 arrive last position from initial position.As shown in Figure 6, when detection of gear 2 is positioned at last position, agitating element gear 66 is relative with transition section 22, and agitating element gear 66 does not mesh with detection of gear 2, spacing preiection 24 and the first block 101 are interfered, thereby stop the inertial rotation (forward) of detection of gear 2.Process in detection of gear 2 from initial position to last position, the information testing agency that detection piece 23 triggers in image processing system, thus detect Delevoping cartridge 1.By Fig. 5 and Fig. 6, can be obtained, because spacing preiection 24 will be from the top process of the second block 102, not interfere with the second block 102, so spacing preiection 24 is greater than the second block with respect to the axial height of sidewall 11 to the axial minor increment of sidewall 11; Because positioning convex 25 will be from the first block side process, do not interfere with the first block 101, and spacing preiection 24 can be interfered with the first block 101, so the footpath in detection of gear 2 makes progress, positioning convex 25 development lengths are less than the development length of spacing preiection 24, and the first link stopper 101 is greater than positioning convex 25 development lengths to the distance in detection of gear 2 axle center.
As shown in Fig. 7 a, Fig. 7 b and Fig. 7 c, detection of gear 2 is in last position, the spacing preiection 24 of detection of gear 2 and the first block 101 are interfered, and agitating element gear 66 does not mesh with detection of gear 2, and keeper 8 and flexible member 7 are in the axial location detection of gear 2 of detection of gear 2.As shown in Fig. 8 a and Fig. 8 b, detection of gear 2 is reset to the process of initial position from last position, with hand, apply direction that an axial force mentions detection piece 23(power as shown in figure L), by detection of gear 2 extruding flexible members 7, make flexible member 7 that elastic deformation occur, and make detection of gear 2 move (L direction in figure) along the compression direction of flexible member 7, thereby being departed from, spacing preiection 24 and the first block 101 interfere; Then along the sense of rotation A(of former detection of gear counterclockwise namely) rotation detection of gear 2, make detection of gear 2 cross the top of the first block 101 and agitating element gear 66 arrival initial positions, spacing preiection 24 is crossed the first block 101, positioning convex 25 is crossed agitating element gear 66; Finally loose one's grip and can automatically reset, detection of gear 2 moves vertically under the effect of the restoring force of flexible member 7, and arrives initial position.As shown in Figure 7 c, L
1the distance of interfering on detection of gear axial direction for spacing preiection 24 and the first block 101; L
2the axial length of flexible member 7 while being positioned at last position for detection of gear 2, L
4while being positioned at last position for detection of gear 2, the gear face of detection of gear 2 is to the distance of sidewall 11, L
5for the gear face of agitating element gear 66 distance to sidewall.As shown in Figure 8 b, L
3the axial length of flexible member 7 while being raised for detection of gear 2.On detection of gear 2 is axial, the distance length L that spacing preiection 24 and the first block 101 are interfered on detection of gear axial direction
1be less than flexible member 7 deflection (L in the axial direction
2-L
3), be spacing preiection 24 and the first block 101 detection of gear 2 axially on there is difference in height, while therefore mentioning detection of gear 2, spacing preiection 24 departs from interference with the first block 101, thereby restrict detect gear 2 no longer in sense of rotation, detection of gear 2 can be along former sense of rotation rotation.
In the present embodiment, the tooth radius of detection of gear 2 is less than positioning convex 25 ends to the distance of detection of gear 2 axis, and in the process of reset detection gear 2 and when rotating detection of gear in the counterclockwise direction, positioning convex 25 need to be crossed agitating element gear 66; When in the present embodiment, positioning convex end is less than the tooth radius of detection of gear to the distance of detection of gear axis, in the process of reset detection gear 2 and when rotating detection of gear in the counterclockwise direction, only need spacing preiection to cross the first block and agitating element gear 66; When the end of positioning convex and spacing preiection is all less than the tooth radius of detection of gear to the distance of detection of gear axis in the present embodiment, only need spacing preiection to cross the first block.
The present embodiment Elastic deflection (L
2-L
3) also can be greater than detection of gear 2 near the end face of sidewall 11 to agitating element gear 66 distance (the L away from the end face of sidewall 11
5-L
4).In the process of reset detection gear, detection of gear 2 axially on, when detection of gear 2 near the end face of sidewall 11 to agitating element gear 66 distance (the L away from the end face of sidewall 11
5-L
4) be less than flexible member 7 deflection (L in the axial direction
2-L
3) and (L
5-L
4) <L
1time, only need make flexible member 7 deflection in the axial direction be slightly larger than (L
5-L
4), now need reverse (opposite direction of sense of rotation A) along former detection of gear sense of rotation, detection of gear 2 and agitating element gear 66 detection of gear 2 axially on stagger, there are tooth section 21 and agitating element gear 66 to have in the axial direction difference in height, detection of gear 2 is rotated to the top of initial position, then loose one's grip and can automatically reset; As (L
5-L
4) >L
1time, only need make flexible member 7 deflection (L in the axial direction
2-L
3) be slightly larger than (L
5-L
4), now need the reverse or forward along former detection of gear sense of rotation, detection of gear 2 is rotated to the top of initial position, then loose one's grip and can automatically reset.After the detection of gear reseting procedure of the present embodiment guarantees production test, powder box can be detected realization counting again, resets easy simultaneously.
As shown in Figure 9, detection of gear 2 also can comprise two projections, a projection is that detection piece 23 is for triggering the information testing agency of image processing system, the handle 27 that another projection is only mentioned detection of gear 2 when resetting, avoid the detection piece 23 that fractures in reseting procedure, handle 27 height is in the axial direction less than the height of detection piece 23, and projection quantity also can be more than two certainly.
In the present embodiment, detection of gear also can be snapped fit onto and be installed on pin by buckle, buckle elastic deformation in detection of gear installation process, detection of gear is installed to and installs on pin, the keeper of this programme is for installing pin, flexible member is the buckle of elastically deformable, and buckle can be made into integration or be made into integration with detection of gear with installation pin; During reset detection gear, only need overcome buckle constraining force and can make detection of gear move axially.
In the present embodiment detection of gear also can with pin interference fit is installed, detection of gear and the friction force detection and localization gear of installing between pin, during reset detection gear, need make external force be greater than the friction force of location.
The present embodiment middle gear protecting cover also can only cover driving mechanism and not cover counting mechanism, and now detection of gear is exposed to outside gear protecting cover completely, and in the process of reset detection gear, external force can act in detection of gear better.
When detection of gear is positioned at last position in sum, the limited structural limitations of detection of gear is in last position, when detection of gear is during in last position, detection of gear under external force can be axially away from sidewall, thereby avoid position limiting structure or agitating element gear, make detection of gear can clockwise or be rotated counterclockwise the top that arrives initial position, finally under the effect of flexible member, detection of gear axially arrives initial position near sidewall, moving axially of last position probing gear, be in order to make detection of gear can continue rotation, and (position limiting structure or the agitating element gear) top to initial position that clears the jumps.
Embodiment bis-: in the present embodiment, except specified otherwise, the structure of other Delevoping cartridge is identical with embodiment mono-.
As shown in Figure 10 a and Figure 10 b, the present embodiment and embodiment mono-difference are flexible member 7 to be arranged between sidewall 11 and detection of gear 2, and flexible member 7 one end and sidewall 11 butts, the other end and detection of gear 2 are near the end face butt of sidewall 11.The first block comprises the extension radially extending along detection of gear 2, and when detection of gear 2 is positioned at last position, the extension 101a of spacing preiection 24 and the first block 101 interferes, thus restrict detect gear 2; Similarly, the second block comprises the extension radially extending along detection of gear 2, and when detection of gear 2 is positioned at initial position, the extension of positioning convex and the second block is interfered; The first block and the second block all comprise the extension radially extending.When detection of gear 2 is positioned at last position, the extension 101a of spacing preiection 24 and the first block 101 interferes, the extension that the block in embodiment mono-does not extend diametrically, and block only extends axially along detection of gear 2, and to outstanding away from sidewall; If block does not have extension radially, in the process of reset detection gear 2, when after direction N pressing detection gear 2, spacing preiection 24 is interfered with the first block 101 always, thereby can not be along former detection of gear 2 sense of rotation A(counterclockwise) spinning reduction, during therefore along sense of rotation A spinning reduction, block must have radially extension; The first block 101 and the second stop block structure are similar; When detection of gear 2 is during in last position, in the process of reset detection gear 2 after direction N pressing detection gear 2, spacing preiection 24 is not interfered with the extension 101a of the first block, thereby at sense of rotation restrict detect gear 2 no longer, between the first link stopper 101 and sidewall, be provided with the first gap that spacing preiection 24 passes through, agitating element gear 66 is also provided with towards the gear face of sidewall 11 and the spacing of sidewall 11 the second gap that spacing preiection 24 passes through simultaneously; When detection of gear 2 is moved to sidewall along installation pin 14 under external force, along in the process of sense of rotation A rotation detection of gear 2, spacing preiection 24 passes through from described two gaps; The axial spacing of described extension 101a and sidewall 11 is the first gap that spacing preiection 24 passes through; In detection of gear 2, by two gaps, arrive initial positions below after, remove external force, detection of gear can automatically reset.Spacing preiection 24 is corresponding the reducing of axial length of detection of gear 2, is convenient in the process of reset detection gear 2 when moving axially less distance, and the first extension 101a of spacing preiection 24 and the first block 101 departs from and interferes.
In the present embodiment, spacing preiection 24 has radially extension with respect to the gear parts of detection of gear 2, the tooth radius that is detection of gear 2 is less than spacing preiection 24 ends to the distance of detection of gear 20 axis, therefore during reset detection gear 2, spacing preiection 24 need pass through from agitating element gear 66 and the gap of sidewall 11 and the gap of extension 101a and sidewall 11; When spacing preiection end is less than the tooth radius of detection of gear 2 to the distance of detection of gear 20 axis, the extension that spacing preiection only need be by the first block is to the gap of sidewall.
In the present embodiment, the first block also can adopt the structure identical with block in embodiment mono-with the second block, there is no extension radially; Detection of gear is being reset to the process of initial position from last position, when need to guarantee the axially close sidewall of detection of gear and turning clockwise detection of gear, detection of gear and agitating element gear do not mesh, be that detection of gear 2 and agitating element gear 66 stagger on detection of gear 2 is axial, while guaranteeing to turn clockwise detection of gear, the second block is not interfered with spacing preiection simultaneously.
When detection of gear is positioned at last position in sum, the limited structural limitations of detection of gear is in last position, when detection of gear is during in last position, detection of gear under external force can be axially near sidewall, thereby avoid position limiting structure or agitating element gear, make detection of gear can clockwise or be rotated counterclockwise the below that arrives initial position, finally under the effect of flexible member, detection of gear axially arrives initial position away from sidewall, moving axially of last position probing gear, be in order to make detection of gear can continue rotation, and (position limiting structure or the agitating element gear) top to initial position that clears the jumps.
Embodiment tri-: in the present embodiment, except specified otherwise, the structure of other Delevoping cartridge is identical with embodiment mono-.
As shown in Figure 14 and Figure 15, similar with embodiment 2 to embodiment 1, Delevoping cartridge 13 comprises box body 130, driving mechanism, counting mechanism, gear protecting cover 4, developing element, powder feeding element and agitating element; As shown in figure 11, driving mechanism comprises input gear 62, developing element gear 63, powder feeding element gear 64, neutral gear 65, agitating element gear 661; Counting mechanism inclusion test gear 20, keeper 18 and flexible member 17.
As shown in Figure 11 and Figure 13, in box body 130, be formed for the container cavity of receiving photographic developer, box body 130 has a pair of relative sidewall 131; On sidewall 131, be fixedly installed the guidance part 135 that pin 134, the first groove 132, the second groove 133 and guiding detection of gear 20 are installed, detection of gear 20 is rotatably mounted on installs on pin 134, and the second groove 133 is connected with the chamfered portion 135a of guidance part 135; The first groove 132, the second groove 133 and guide 135 and on sidewall 131, take detection of gear 20 axle center and namely install on the circle that the central authorities of pin 134 are the center of circle; Described position limiting structure is the first groove.
Agitating element gear 661 is secondary gear, i.e. first order gear 663 and second level gear 664, first order gear 663 and neutral gear 65 engagement transferring power, second level gear 664 and detection of gear 20 engagements; On first order gear 663 end faces, being provided with the first service portion 662, the first service portions 662 is arranged on the end face of first order gear 663 away from sidewall 131.As shown in figure 12, the side circumference of detection of gear 20 be formed with one can with second level gear 664 engagement have tooth section 201 and for disconnecting the transition section 202 of drive connections with second level gear 664; Detection of gear 20 deviates from the end face of sidewall 131 and is fixedly installed the detection piece 203 that is useful on when having tooth section 201 with 664 engagement of second level gear, triggers the information testing agency in described image processing system, and detection piece 203 is positioned at the scope of transition section 202; On the end face of detection of gear 20, be also fixedly installed spacing preiection 204 and the second service portion 206, spacing preiection 204 and the second service portion 206 are positioned at the scope of transition section 202, and the end face of relative and detection of gear 20 is to the direction projection near sidewall 131.When having tooth section 201 and second level gear 664 not to mesh, spacing preiection 204 and the second groove 133 or the first groove 132 effects, thereby location or spacing detection of gear 20; When having tooth section 201 with 664 engagement of second level gear, spacing preiection 204 and guidance part 135 butts, and can move along guidance part 135a.
As shown in Figure 13 and Figure 14, in Figure 14, detection of gear 20 is in initial position, keeper 18 is threaded with installation pin 134, flexible member 17 is set in to be installed on pin 134, flexible member 17 one end and keeper 18 butts, the other end and detection of gear 20 butts, thereby detection and localization gear 20 in the axial direction; At keeper 18 and flexible member 17 butt places, the diameter of the end of keeper is greater than the internal diameter of the end of flexible member 17; The first service portion 662 and the second service portion 206 are between detection of gear 20 and two gear faces of first order gear 663; Spacing preiection 204 is positioned at the second groove 133, thus detection and localization gear 20.When detection of gear 20 is positioned at initial position, second level gear 664 does not mesh with the tooth section 201 that has of detection of gear 20; When agitating element gear 661 starts to rotate, the first service portion 662 contacts with the second service portion 206, and drives detection of gear 20 rotations, has made tooth section 201 and 664 engagements of second level gear, thereby make detection of gear 20 around sense of rotation B rotation, now spacing preiection 204 contacts with guidance part 135.
As shown in Figure 15 and Figure 16, detection of gear 20 is positioned at last position, has tooth section 201 and second level gear 664 to depart from engagement, and spacing preiection 204 is positioned at the first groove 132, thus spacing detection of gear 20.Detection of gear 20 rotates to the process of last position from initial position, and under the driving of agitating element gear 661, the first service portion 662 contacts with the second service portion 206, and drives detection of gear 20 rotations, has made tooth section 201 and 664 engagements of second level gear; From initial position, rotating to the process of last position, spacing preiection 204 contacts with chamfered portion 135a, spacing preiection 204 moves along the profile of guidance part 135, and shift out in the second groove 133, now detection of gear 20 has a section to move in the axial direction, and detection of gear 20 moves along the direction 131 away from sidewall in the axial direction; In the process that detection of gear 20 moves up, detection of gear 20 extruding flexible members 17, make flexible member 17 compressed in the axial direction; When having tooth section 201 to depart from engagement with second level gear 664, detection of gear 20 is just in time positioned at the top of the first groove 132, and under the effect of flexible member 17, detection of gear 20 moves in the first groove 132 until arrive last position to the direction near sidewall 131.
As shown in figure 15, gear protecting cover has an opening 141; When gear protecting cover 14 is arranged on the sidewall 131 of Delevoping cartridge 13, the detection of gear protecting cover 14 of opening 141 and detection of gear 20 does not cover the detection piece 203 of detection of gear 20, detection piece 203 can be stretched out outside gear protecting cover 14, thereby trigger the information testing agency in described image processing system.
As shown in figure 17, a recess 136 is arranged at the bottom of box body 130, and detection of gear 20 parts are exposed; When detection of gear 20 is positioned at last position, in the process of reset detection gear 20, only need External Force Acting in recess 136, to expose the expose portion of detection of gear 20, thereby in the direction away from sidewall 131, lift detection of gear 20 in the axial direction, make spacing preiection 204 leave the first groove 132, arrive the top of the first groove 132; Then along former sense of rotation, namely counterclockwise rotate detection of gear 20, arrive the top of the second groove 133; Finally cancel the power of lifting and rotating detection of gear 20, under the effect of flexible member 17, detection of gear 20 moves to the direction near sidewall 131 in the axial direction, and arrives initial position.When detection of gear is lifted, the first groove 132 no longer limits detection of gear 20, and transition section 202 is relative with second level gear 664 simultaneously, and detection of gear 20 can be rotated in the counterclockwise direction, and crosses the top that first order gear 661 arrives initial position.
The sense of rotation of lifting in the present embodiment after detection of gear 20 can be also that when detection of gear 20 is after last position is lifted, the first groove 132 no longer limits detection of gear 20 clockwise; When detection of gear 20 turns clockwise, there is tooth section 201 relative with second level gear 664, now need to ensure tooth section 201 and second level gear 664 install pin 134 axially on there is difference in height, make detection of gear 20 in the process turning clockwise, have tooth section 201 not mesh with second level gear, thereby detection of gear 20 is rotated to initial position top, finally under the effect of flexible member 17, arrive initial position.In the present embodiment, also can directly dismantle keeper, then mention detection piece, then detection of gear be rotated to the top of initial position, and then detection of gear is installed to initial position, keeper is finally installed.
In the present embodiment, the shape of the detection piece of detection of gear can be with reference to embodiment mono-, and one or more projections of mentioning detection of gear when resetting also can be set simultaneously on the gear face that is provided with detection piece of detection of gear; Now reset detection gear only need be with portable described projection or detection piece.
In the present embodiment, also available gear protecting cover substitutes keeper for axial location detection of gear, gear protecting cover shape as shown in figure 18, opening 142 is shaped as the movement locus of detection piece 203, the localization part 143 axial location detection of gear 20 of gear protecting cover 14, during reset detection gear 20, lift after detection of gear 20, can only be along opposite direction (namely clockwise direction) the rotation detection of gear 20 with by detection of gear sense of rotation, the enough detection of gear of height of lifting in the axial direction detection of gear are crossed the gear face of second level gear 664 simultaneously, even if detection of gear 20 does not mesh with second level gear 664 in rotary course.
When detection of gear is positioned at last position in sum, the limited structural limitations of detection of gear is in last position, when detection of gear is during in last position, detection of gear under external force can be axially away from sidewall, thereby avoid position limiting structure and agitating element gear, make detection of gear can clockwise or be rotated counterclockwise the top that arrives initial position, finally under the effect of flexible member, detection of gear axially arrives initial position near sidewall, moving axially of last position probing gear, be in order to make detection of gear can continue rotation, and (position limiting structure and the agitating element gear) top to initial position that clears the jumps.
Embodiment tetra-: the present embodiment is except specified otherwise, and the structure of other Delevoping cartridge is identical with embodiment tri-.
As shown in Figure 19 and Figure 20, Figure 21, Figure 22, the detection piece 203 of detection of gear 20 is when initial position and last position, detection piece 203 all stretches out from the opening 142 of gear protecting cover 14, the localization part 143 of gear protecting cover 14 is for axial location detection of gear 20, and opening 142 is shaped as the movement locus of detection piece 203.The opening 142 of gear protecting cover 14 is in initial position fix detection of gear 20, spacing to detection of gear 20 in last position.The present embodiment is different from embodiment tri-to be in there is no the first groove and the second groove, detection of gear 20 by the driving of second level gear 664 under, detection of gear 20 does not move axially; Detection piece 203 and opening 142 effects in the present embodiment, detection piece 203 is exactly spacing preiection, and opening 142 is the position limiting structure with spacing preiection effect.
As shown in Figure 21 and Figure 22, during reset detection gear 20, lift or mention detection of gear 20, the enough detection of gear of height of now lifting or mentioning detection of gear are crossed the gear face of second level gear 664, be the lower surface of detection of gear 20 and the upper surface of second level gear 664 exist height difference H then along with by the opposite direction of detection of gear sense of rotation (clockwise) rotation detection of gear 20, arrive the axial top of initial position, finally withdrawing from external force detection of gear 20 can automatically reset, and detection of gear 20 arrives initial position under the effect of the elastic force of flexible member 17.
Embodiment five: described the present embodiment and embodiment mono-and example two is similar in real time, in embodiment mono-and embodiment bis-, be by detection of gear 2 upwards (as embodiment 1) or to pressing down (as embodiment 2) by external force (manually or alternate manner), drive spacing preiection 24 to move up and down, make spacing preiection 24 in not interfered, on the first block 101, stride across or below walk around, and the present embodiment is, detection of gear 2 can be fixedly installed on installs on pin 14, the first block 101 and the second block 102 can be that telescopically is arranged on sidewall 11, when applying the pressure of a toward side wall 11 on the first block 101 and the second block 102, spacing preiection 24 is not in being interfered, process on the first block 101, positioning convex 25 is from the second block 102 top processes.Detection of gear is covered by gear protecting cover, and gear protecting cover has opening, thereby exposes two blocks and detection piece, is convenient to external force direct effect and two blocks and detection of gear.
Claims (10)
1. a Delevoping cartridge, is removably mounted in image processing system, comprises box body, driving mechanism and counting mechanism; Described counting mechanism inclusion test gear, described detection of gear comprises detection piece, has tooth section, spacing preiection and transition section; Described box body comprises pair of sidewalls, on a described sidewall, is provided with position limiting structure; Detection of gear rotates to last position from initial position under the driving of driving mechanism; Described position-limit mechanism rotates to behind last position in detection of gear, and position limiting structure and spacing preiection effect restriction detection of gear continue rotation; It is characterized in that: described counting mechanism also comprises flexible member and keeper; Described detection of gear utilization is installed pin and is fixed on described sidewall, keeper is arranged on the end that pin is installed, described flexible member is set on the axle of described installation pin, described flexible member one end and detection of gear butt, the other end and keeper or sidewall butt; When detection of gear is positioned at last position, detection of gear is removable detection of gear is axial with respect to position limiting structure, after detection of gear axially relatively moves, there is in the axial direction difference in height in position limiting structure and spacing preiection, make detection of gear can be along the direction rotation of former detection of gear rotation to initial position above or below, thereby under the effect of flexible member, automatically reset.
2. Delevoping cartridge according to claim 1, is characterized in that: described position limiting structure is the first block being arranged on sidewall; When described flexible member one end and detection of gear butt, the other end and keeper butt, when described detection of gear is moved along installation pin to the sidewall direction described in departing under external force, described spacing preiection can pass through on the first block top.
3. Delevoping cartridge according to claim 1, is characterized in that: described keeper is screw, screw with pin be installed be threaded.
4. Delevoping cartridge according to claim 1, is characterized in that: described position limiting structure is the first block being arranged on sidewall; Described first
gearbetween piece and sidewall, be provided with the gap that spacing preiection passes through; When described flexible member one end and detection of gear butt, the other end and sidewall butt, when described detection of gear is moved to sidewall along installation pin under external force, described spacing preiection passes through from gap.
5. Delevoping cartridge according to claim 4, is characterized in that: described first
gearpiece comprises the extension radially extending along detection of gear, and when described detection of gear is during in last position, by the spacing preiection described in described extension backstop, described extension and the axial spacing of sidewall are the gap that spacing preiection passes through.
6. Delevoping cartridge according to claim 1, is characterized in that: described position limiting structure is the first groove being arranged on sidewall described under described detection of gear; The elastic force of described flexible member makes described detection of gear near described sidewall; When described detection of gear is moved along installation pin to the sidewall described in departing under external force, described spacing preiection can leave the first groove.
7. according to Delevoping cartridge described in claim 2 or 3 or 6, it is characterized in that: in described detection of gear, be also provided with and drive described detection of gear along the handle of erection column pin axially-movable.
8. Delevoping cartridge according to claim 7, is characterized in that: described handle and described detection piece unite two into one.
9. Delevoping cartridge according to claim 7, is characterized in that: also comprise gear protecting cover, described gear protecting cover has the opening that allows detection piece to stretch out, and described opening is hollow round hole.
10. Delevoping cartridge according to claim 7, is characterized in that: described box body also comprises recess expose portion detection of gear.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201320390441.8U CN203444244U (en) | 2013-07-02 | 2013-07-02 | Developing box |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201320390441.8U CN203444244U (en) | 2013-07-02 | 2013-07-02 | Developing box |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN203444244U true CN203444244U (en) | 2014-02-19 |
Family
ID=50095277
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201320390441.8U Expired - Lifetime CN203444244U (en) | 2013-07-02 | 2013-07-02 | Developing box |
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| Country | Link |
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| CN (1) | CN203444244U (en) |
Cited By (8)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104698792A (en) * | 2015-03-14 | 2015-06-10 | 珠海市科力莱科技有限公司 | TN660 toner cartridge |
| CN106527078A (en) * | 2016-09-06 | 2017-03-22 | 江西亿铂电子科技有限公司 | Developing box |
| CN107544225A (en) * | 2017-10-11 | 2018-01-05 | 中山诚威科技有限公司 | A kind of Delevoping cartridge |
| CN107561890A (en) * | 2017-10-11 | 2018-01-09 | 中山诚威科技有限公司 | A kind of Delevoping cartridge |
| CN107632502A (en) * | 2017-10-11 | 2018-01-26 | 中山诚威科技有限公司 | A kind of Delevoping cartridge |
| CN108646531A (en) * | 2018-06-08 | 2018-10-12 | 珠海市拓佳科技有限公司 | Resettable developer cartridge |
| CN109856939A (en) * | 2019-04-15 | 2019-06-07 | 珠海市源呈数码科技有限公司 | A kind of Delevoping cartridge and handle box |
| CN114236995A (en) * | 2021-12-30 | 2022-03-25 | 珠海超俊科技有限公司 | Developing box |
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2013
- 2013-07-02 CN CN201320390441.8U patent/CN203444244U/en not_active Expired - Lifetime
Cited By (13)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104698792B (en) * | 2015-03-14 | 2021-06-29 | 珠海市源呈数码科技有限公司 | TN660 toner cartridge |
| CN104698792A (en) * | 2015-03-14 | 2015-06-10 | 珠海市科力莱科技有限公司 | TN660 toner cartridge |
| CN106527078B (en) * | 2016-09-06 | 2020-01-07 | 江西亿铂电子科技有限公司 | Developing box |
| CN106527078A (en) * | 2016-09-06 | 2017-03-22 | 江西亿铂电子科技有限公司 | Developing box |
| CN107561890A (en) * | 2017-10-11 | 2018-01-09 | 中山诚威科技有限公司 | A kind of Delevoping cartridge |
| CN107544225B (en) * | 2017-10-11 | 2019-12-20 | 中山诚威科技有限公司 | Developing box |
| CN107632502A (en) * | 2017-10-11 | 2018-01-26 | 中山诚威科技有限公司 | A kind of Delevoping cartridge |
| CN107544225A (en) * | 2017-10-11 | 2018-01-05 | 中山诚威科技有限公司 | A kind of Delevoping cartridge |
| CN108646531A (en) * | 2018-06-08 | 2018-10-12 | 珠海市拓佳科技有限公司 | Resettable developer cartridge |
| CN108646531B (en) * | 2018-06-08 | 2024-02-27 | 珠海市拓佳科技有限公司 | Resettable developing cartridge |
| CN109856939A (en) * | 2019-04-15 | 2019-06-07 | 珠海市源呈数码科技有限公司 | A kind of Delevoping cartridge and handle box |
| CN114236995A (en) * | 2021-12-30 | 2022-03-25 | 珠海超俊科技有限公司 | Developing box |
| CN114236995B (en) * | 2021-12-30 | 2024-03-15 | 珠海超俊科技有限公司 | Developing cartridge |
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Effective date of registration: 20151027 Address after: 6, 519075 A District, 4 buildings, 63 North Pearl Road, Zhuhai, Guangdong Patentee after: APEX TECHNOLOGY Co.,Ltd. Address before: 519075 Xiangzhou, Zhuhai, Pearl Road, North District, No. 63, No. Patentee before: ZHUHAI SEINE TECHNOLOGY Co.,Ltd. |
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| CP03 | Change of name, title or address |
Address after: 519075, Guangdong District, Xiangzhou, Zhuhai Avenue, No. 01, building 3883, 2 floor, 7 floor, B District, 02, 03, 04, 1, 2, 3, 4, 5, 05, Zhuhai Patentee after: NINESTAR Corp. Address before: 6, 519075 A District, 4 buildings, 63 North Pearl Road, Zhuhai, Guangdong Patentee before: APEX TECHNOLOGY Co.,Ltd. |
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Granted publication date: 20140219 |
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