CN102096352A - Rotating driving force receiver and drive component - Google Patents

Abstract

The invention relates to a rotating driving force receiver and a drive component. The receiver is provided with an inwards concave spherical surface, an approaching surface positioned on the periphery of the spherical surface, and a first convex pawl and a second convex pawl extended outwards, wherein the surfaces of each of the convex pawls are both provided with an occlusal surface matched with an imaging equipment drive component and two side surfaces which are used for guiding and are transited smoothly; the two side surfaces are abutted through a transition edge which is inclined relative to the direction of an axial line; the transition edge is provided with a first endpoint and a second endpoint; the second endpoint is positioned on the second surface; a first bottom line and a second bottom line are crossed at the second endpoint; the second endpoint is a point, farthest from the axial line, on a convex pawl; and the first endpoint is closer to the axial line than the second endpoint. The rotating driving force receiver and the drive component can reduce a dead point position area when a machine falls or a processing cartridge is taken out to the maximum and avoid a locking problem between the rotating driving force receiver and the imaging equipment drive component, so that a photosensitive drum can be driven to work safely and reliably.

Description

Rotary driving force receives head and driven unit

Technical field

The present invention relates to a kind of rotary driving force receives head and has the driven unit that this rotary driving force receives head.

Background technology

Electrophotographic image forming comprises duplicating machine, laser printer and similar devices.A handle box is arranged in the electrophotographic image forming usually, and handle box can be mounted on the master component of electrophotographic image forming and from master component and dismantles.For example, by one is had photosensitive drums and integrally is assembled to the handle box for preparing in the box body as in developing apparatus, charging device and the cleaning device for the treatment of apparatus at least one.

Existing handle box comprises following kind: by fit over the first kind of handle box for preparing in the box with photosensitive drums with by the integral installation that developing apparatus, charging device and cleaning device are formed; By photosensitive drums and charging device integral installation are fitted over the second kind of handle box for preparing in the box; And by integral body assembling photosensitive drums and the third handle box of preparing by two processing units that charging device and cleaning device are formed.

User oneself can be mounted to the electrophotographic image forming master component with removably with above-mentioned handle box.Therefore, the user can carry out the maintenance of equipment, and need not to rely on the attendant of specialty, and then, improved the operability that the user safeguards electrophotographic image forming.

In above-mentioned traditional handle box, it is as follows so that drive the photosensitive drums driving mechanism to be used for slave unit master component reception rotary driving force: in the master component side, be provided with rotatable and a non-circular hole of reversing, rotatable driving force that is used to transmit motor, reverse the central part that the hole is arranged on rotatable, be provided with a plurality of bights and have can with the xsect of rotatable unitary rotation.In cartridge side, a non-circular projection of reversing is set, projection is arranged on one of them axial end portion of photosensitive drums, and has the xsect that is provided with a plurality of bights.When handle box was filled to the equipment master component, rotatable when rotating under the state that projection and hole are engaged with each other, rotatable rotary driving force was passed to photosensitive drums.As a result, the revolving force slave unit master component that is used to drive photosensitive drums is passed to photosensitive drums.Another kind of known mechanism drives photosensitive drums by the gear that is engaged to photosensitive drums, and then drives the handle box that photosensitive drums constitutes.Yet, in the conventional construction described in the U.S. Pat 5903803, when by moving handle box and handle box is mounted to master component or when master component is removed, need makes rotatable to move along horizontal direction along direction with rotatable axis approximate vertical.That is, need make rotatable to move horizontally by the opening and closing operation of master component lid.By the opening operation of described master component lid, separate with projection in the hole.On the other hand, by the shutoff operation of master component lid, move so that and protrusion engagement towards projection in the hole.Therefore, in traditional handle box, a kind of mechanism need be set on master component, it is used for moving rotatable by the opening and closing operation of master component lid along the rotation direction.In U.S. Pat 4829335 described structures, need not to move the driven wheel that is arranged at master component along its axis direction, described box just can be mounted to master component and tears open but from master component by moving along the direction that is approximately perpendicular to described axis.Yet in this structure, the driving connecting portion between master component and the handle box is the engaging piece between the gear, thereby is difficult to prevent the rotation unevenness of photosensitive drums.

U.S. Patent Application Publication instructions US2008/0152388A1 discloses another kind of handle box, and the improvement of its above-mentioned relatively handle box is that the driven unit that is positioned at an axial end portion of photosensitive drums is to adopt ball formula universal joint to drive connecting structure.This driving connecting structure exists easily to deviate from from driven unit, and particularly in the middle of transportation, this phenomenon more is prone to, and makes the afunction or the job insecurity of driven unit.

China utility model patent CN200920238326.2 provide a kind of drive assembly of photosensitive drum, comprises the gear that is tight with at photosensitive drums one end and axially adjust assembly, and this is axially adjusted assembly and has comprised the first motion sub-component, channel parts and central shaft parts; Described channel parts has spatially orthogonal upper hopper chute and gliding groove, and the described first motion sub-component forms the cooperation of relative slip with described upper hopper chute on first direction; Described central shaft parts and described gear have common axis, and it forms the cooperation of relative slip with described gliding groove on second direction; Described first direction and second direction all perpendicular to photosensitive drum shaft to.The described first motion sub-component comprises that stretching out the outer rotary driving force of described gear receives a head and an adjustment slide block, described rotary driving force receives head can be connected in described adjustment slide block rotatably around its axis, and being provided with one between described rotary driving force reception head and the adjustment slide block can be around the rotary spacing pin of described axis rotation.When handle box fell machine or taking-up, the rotary driving force in the above-mentioned drive assembly of photosensitive drum received stuck problem takes place between head and the imaging device driver part easily.Therefore, above-mentioned drive assembly of photosensitive drum still has further improved space.

Summary of the invention

First purpose of the present invention provides a kind of zone, dead-centre position that can at utmost reduce when falling machine and taking out handle box, and the rotary driving force of avoiding rotary driving force to receive the stuck problem of generation between head and the imaging device driver part receives head.

Second purpose of the present invention provides a kind of driven unit that above-mentioned rotary driving force receives head that has.

For realizing above-mentioned first purpose, the present invention has adopted following technical scheme: provide a kind of rotary driving force to receive head, have outwardly first surface, second surface inwardly and outwardly directed first dog and second dog, described first dog and second dog form the center symmetry about the axis that this rotary driving force receives head; Described first surface has comprised the spherical of indent and has been positioned at this spherical approaching side on every side that described first dog and second dog are separated into first approaching side and second approaching side with this approaching side; Wherein, the surface of each described dog all has the occlusal surface and two sides that seamlessly transit that are used to guide that are used for the cooperation of imaging device driver part, wherein first side is by first base and described second surface adjacency, a handing-over seamed edge adjacency that tilts with respect to the direction of described axis is passed through by second base and described second surface adjacency in second side between two sides; Described handing-over seamed edge has first end points and second end points, and described second end points is positioned on the described second surface, and intersect at this second end points place on described first base and second base; Described second end points is the described axis of a distance point farthest on the described dog, and described first end points is than the more close described axis of second end points.

Preferably, on the rotation direction when this rotary driving force receives head work, second end points of described handing-over seamed edge is positioned at the updrift side of first end points.

Preferably, the formed angle of direction of described handing-over seamed edge and described axis is 20 ° ~ 60 °

Preferably, described first dog and second dog are protruding along the direction of described axis substantially.

For realizing above-mentioned second purpose, the present invention has adopted following technical scheme: a kind of driven unit is provided, comprises: the gear with a stiff end; Axially adjust assembly, it has the rotary driving force that stretches out outside the described gear other end and receives head; Described axial adjustment assembly can be provided with elastic support member and axial limiting parts along described gear shaft to being arranged at reciprocating and flatly moving in the middle of this gear between described axial adjustment assembly and the described gear; Described rotary driving force reception head has first surface, second surface inwardly and outwardly directed first dog and second dog outwardly, and described first dog and second dog form the center symmetry about the axis that this rotary driving force receives head; Described first surface has comprised the spherical of indent and has been positioned at this spherical approaching side on every side that described first dog and second dog are separated into first approaching side and second approaching side with this approaching side; Wherein, the surface of each described dog all has the occlusal surface and two sides that seamlessly transit that are used to guide that are used for the cooperation of imaging device driver part, wherein first side is by first base and described second surface adjacency, a handing-over seamed edge adjacency that tilts with respect to the direction of described axis is passed through by second base and described second surface adjacency in second side between two sides; Described handing-over seamed edge has first end points and second end points, and described second end points is positioned on the described second surface, and intersect at this second end points place on described first base and second base; Described second end points is the described axis of a distance point farthest on the described dog, and described first end points is than the more close described axis of second end points.

Preferably, described axial adjustment assembly has comprised adjustment slide block, channel parts and central shaft parts, described rotary driving force receives head can be connected in described adjustment slide block rotatably around its axis, described channel parts has spatially orthogonal upper hopper chute and gliding groove, and described adjustment slide block forms the cooperation of relative slip with described upper hopper chute on first direction; Described central shaft parts and described gear have common axis, and it forms the cooperation of relative slip with described gliding groove on second direction; Described first direction and second direction all perpendicular to photosensitive drum shaft to.

Preferably, described elastic support member is the spring that is enclosed within on the described central shaft parts, and described central shaft parts are made of head, stage portion and bar portion, and described head cooperates with described gliding groove, and described stepped portions is between described channel parts and described spring.

For having adopted rotary driving force of the present invention to receive the handle box of head, in being mounted to the process of imaging device, rotary driving force of the present invention receives head and turn to suitable position under the contact pressure of imaging device driver part, thereby the imaging device driver part vertically makes rotary driving force receive a rollback, has guaranteed that the driving function normally carries out.The present invention can at utmost reduce the zone, dead-centre position when falling machine and taking out handle box, and avoided rotary driving force to receive stuck problem has taken place between head and the imaging device driver part, thus the work of driving photosensitive drums that can be safe and reliable.Driven unit assembling of the present invention is simple, convenient, and structural behaviour is stable, the handle box machine-falling steady, dependable performance, the working stability that have adopted this driven unit to make up.

Description of drawings

The invention will be further described below in conjunction with accompanying drawing:

Fig. 1 is a photosensitive drums structural representation of having used the driven unit of an embodiment of the present invention.

Fig. 2 is the structural representation of the driven unit in the middle of Fig. 1.

Fig. 3 is the parts explosion of driven unit shown in Figure 2.

Fig. 4 is the gear inner structure synoptic diagram of driven unit shown in Figure 2.

Fig. 5 is the structural representation that the rotary driving force in the middle of the driven unit shown in Figure 2 receives head.

Fig. 6 is the view that rotary driving force shown in Figure 5 receives another angle of head.

Fig. 7 be driven unit shown in Figure 2 in handle box falls the machine process with the synoptic diagram that cooperates of imaging device driver part.

Fig. 8 is the partial enlarged drawing of Fig. 7.

Embodiment

Fig. 1 has represented to use the photosensitive drums 10 of the driven unit 1 of a kind of embodiment of the present invention, and driven unit 1 is fixed on an end of the bulging main body 20 of photosensitive drums 10, has photographic layer on the side face of drum main body 20.Driven unit 1 is used to receive the rotary driving force that comes from the imaging device driving mechanism, and this rotary driving force is passed to bulging main body 20, and bulging main body 20 is rotated around its axis under this rotary driving force effect.

Fig. 2～Fig. 4 expresses the basic comprising of driven unit 1, and its structure comprises that mainly gear 2, rotary driving force receive 3, adjust slide block 4, channel parts 5, rotary spacing pin 6, central shaft parts 9, spacing latch 7 and screw type compression spring 8.Gear 2 is tight with at an end of bulging main body 20 by its stiff end 21, the dead in line of the axis of this gear 2 and drum main body 20, and rotate around their common axis synchronously with drum main body 20.Rotary driving force receives 3 and is connected in by rotary spacing pin 6 and adjusts slide block 4, and this rotary driving force receives 3 and can back and forth rotate with respect to adjusting slide block 4 around its axis in the certain angle scope; Spring 8 is enclosed within on the central shaft parts 9; Central shaft parts 9 are assemblied in the gear 2 by spacing latch 7.

As shown in Figure 4, rotary driving force receives 3, adjusts slide block 4, rotary spacing pin 6, channel parts 5 and central shaft parts 9 and constitute one and axially adjust assembly 11.By the compression of spring 8 and the axial limiting of spacing latch 7, this axially adjusts assembly 11 can be along photosensitive drum shaft to Z, do conditional axially back and forth translation motion with respect to gear 2.In addition, by rotary driving force receive 3, adjust the first motion sub-component that slide block 4 and rotary spacing pin 6 form can along perpendicular to photosensitive drum shaft to the first direction A of Z, in upper hopper chute 51, do the conditional first linear reciprocation translation motion with respect to channel parts 5; By the above-mentioned first motion sub-component add the second motion sub-component that channel parts 5 forms then can along perpendicular to photosensitive drum shaft to the second direction B of Z, do the conditional second linear reciprocation translation motion with respect to central shaft parts 9, first direction A is vertical mutually with second direction B.

The driven unit 1 of said structure, except rotary driving force receive 3 and central shaft parts 9 structure, all with utility model patent CN200920238326.2 in the structure of driven unit basic identical, principle of work is also similar substantially, and for example the concrete structure of parts such as gear 2, adjustment slide block 4, channel parts 5, rotary spacing pin 6, spacing latch 7 and screw type compression spring 8 all can be with reference to above-mentioned patent.Below being primarily aimed at difference describes.

Referring to Fig. 5 and Fig. 6, rotary driving force receives 3 shapes that roughly are a similar torch, constitute by the outer end 30 that attenuates successively from (being from up to down in the middle of Fig. 5) outward inwards, pars intermedia 36 and axial region 37, pars intermedia 36 and axial region 37 are cylindrical, and axial region 37 is provided with the pin-and-hole 38 that passes for rotary spacing pin 6.

The having first surface and second surface inwardly 301 outwardly and substantially receive outwardly directed first dog 31 of axis 39 directions of 3 and second dog, 32, the first dogs 31 and second dog 32 about these axis 39 formation center symmetries of outer end 30 along rotary driving force.The center of described first surface is formed with the spherical 35 of indent, is distributed with approaching side around this spherical 35, and this approaching side is separated into first approaching side 33 and second approaching side 34 by first dog 31 and second dog 32.The surface that the surface of first dog 31 has first occlusal surface 313, first side 311 and second side, 312, the second dogs 32 has second occlusal surface 323, the 3rd side 321 and the 4th side 322.First occlusal surface 313 and second occlusal surface 323 are used for cooperating with the imaging device driver part, first side 311, second side 312, the 3rd side 321 and the 4th side 322 are the inclined-plane that seamlessly transits, and help the imaging device driver part and nuzzle up one of them side and cut spherical 35.Because first dog 31 and second dog, 32 symmetries, thus below be that example illustrates its design feature only with first dog 31.In first dog 31, first side 311 is by first base 302 and described second surface 301 adjacency, second side 312 is by second base 303 and second surface 301 adjacency, pass through handing-over seamed edge 304 adjacency that tilt with respect to the direction of described axis 39 between first side 311 and second side 312, this handing-over seamed edge 304 is preferably 20 ° ~ 60 ° with the formed angle of direction of described axis 39, in this scope, this angle is big more, first side 311 and second side, 312 gradients are just big more, and the imaging device driver part is easier to nuzzle up one of them side and be cut on the described approaching side.Handing-over seamed edge 304 has first end points 305 and second end points 306, and this second end points 306 is positioned on the second surface 301, and intersect at these second end points, 306 places on first base 302 and second base 303; Wherein, described second end points 306 is the described axis 39 of a distance point farthest on first dog 31, the more close described axis 39 of first end points, 305 to the second end points 306.On the rotation direction (direction shown in the arrow among Fig. 6) when this rotary driving force receives 3 work, second end points 306 of described handing-over seamed edge 304 is positioned at the updrift side of first end points 305.Receive in 3 at the rotary driving force of said structure, because the profile outermost point (i.e. second end points 306) on first dog 31 is positioned on the lower position, this helps the imaging device driver part and skips handing-over seamed edge 304 and contacting with first side 311 or second side 312, and can not produce stuck phenomenon owing to being subjected to joining the obstruction and the interference of seamed edge 304, make handle box more smooth and easy with cooperating of imaging device driver part in fall machine or taking-up process.

Referring to Fig. 3 and Fig. 4, central shaft parts 9 are made up of head 91, stage portion 94 and bar portion 92, and stage portion 94 is positioned at the below of head 91.Wherein, head 91 is the lamellar of waist shape, and the shape of cross section of bar portion 92 is waist shape equally, but the cross-sectional area of bar portion 92 is less than the area of head 91.The bottom of bar portion 92 is provided with the radially pin-and-hole 93 of bar portion 92, and this pin-and-hole 93 cooperates with spacing latch 7.Described head 91 cooperates with the gliding groove 52 of channel parts 5, and described stage portion 94 is between channel parts 5 and spring 8.Owing to be provided with this stage portion 94, spring 8 need not directly contact channel parts 5, thereby makes the rotation of channel parts 5 more flexible.

Referring to Fig. 7, the course of work of the driven unit 1 of said structure is as follows:

1, handle box is being pushed in the process of imaging device, driven unit 1 contacts with imaging device driver part 13 along directions X, and two kinds of situations are arranged this moment:

A, if when initial contact position is dog, imaging device driver part 13 can brush up against two sides of dog, these two faces must have face can be stressed a little less than, when first side 311 stressed when more weak, imaging device driver part 13 will wiped second side 312 and promote rotary driving forces and receive 3 after its axis rotates an angle, imaging device driver part 13 will be cut rotary driving force automatically and receive on 3 two approaching sides, and causes each the adjustment component integral body in the driven unit 1 to move along the Y direction;

B, if initial contact position is a rotary driving force when receiving two approaching sides of 3, imaging device driver part 13 will directly be cut on the approaching side automatically, and causes each the adjustment component integral body in the driven unit 1 to move along the Y direction.

2, along with the putting more effort of directions X, each the adjustment component integral body in the driven unit 1 also increases along Y direction moving displacement; And have only when imaging device drives parts 13 touch spherical 35, each the adjustment component integral body in the driven unit 1 moves along the opposite direction of Y direction, is zero until displacement.

3, imaging device starting, imaging device driver part 13 is couple drive assembly 1 automatically, and driven unit 1 is accepted to drive photosensitive drums from the driving force of imaging device and is rotated.

4, when driven unit 1 is accepted the driving force of imaging device, driving force from imaging device may not be a steady state value, so move the changing value that cushions the imaging device driving force by the interior among a small circle staggered straight line of each adjustment component in the driven unit 1, thereby cause the photosensitive drums stability of rotation, do not produce and beat and fluctuate, handle box is working properly, and print quality is good.

5, imaging device stops, if take out handle box from imaging device, handle box moves initially along the opposite direction of directions X, and imaging device driver part 13 begins to break away from driven unit 1.

6, when imaging device drives parts 13 touch spherical 35, each the adjustment component integral body in the driven unit 1 moves along the Y direction.

7, along with each the adjustment component integral body in the driven unit 1 increases along Y direction mobile displacement, if when imaging device drives parts 13 run into two dogs of rotary driving force reception 3, will stir rotary driving force and receive 3 and rotate an angle, cause 13 incisions of imaging device driver part to receive at rotary driving force on 3 the approaching side around its axis.

8, cut on approaching side when imaging device drives parts, the whole beginning of each adjustment component in the gear driving head is moved along the opposite direction of Y direction, and when displacement was zero, handle box just can take out from imaging device.

Only be preferred implementation of the present invention below, should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, and not break away from the protection domain of claim of the present invention.For example, other axial limiting structure that spacing latch can adopt those skilled in the art to expect easily realizes that the axial limiting structure can be and the individual member of central shaft isolation of components, also can be formed in a part on the central shaft parts.In addition, elastic support member can substitute with the elastomeric element beyond the screw type compression spring, for example can compressed elastic plastic member structure etc.

Claims (7)

1. rotary driving force receives head, has outwardly first surface, second surface inwardly and outwardly directed first dog and second dog, and described first dog and second dog form the center symmetry about the axis that this rotary driving force receives head; Described first surface has comprised the spherical of indent and has been positioned at this spherical approaching side on every side that described first dog and second dog are separated into first approaching side and second approaching side with this approaching side; It is characterized in that:

The surface of each described dog all has the occlusal surface and two sides that seamlessly transit that are used to guide that are used for the cooperation of imaging device driver part, wherein first side is by first base and described second surface adjacency, a handing-over seamed edge adjacency that tilts with respect to the direction of described axis is passed through by second base and described second surface adjacency in second side between two sides;

Described handing-over seamed edge has first end points and second end points, and described second end points is positioned on the described second surface, and intersect at this second end points place on described first base and second base;

Described second end points is the described axis of a distance point farthest on the described dog, and described first end points is than the more close described axis of second end points.

2. rotary driving force according to claim 1 receives head, it is characterized in that, on the rotation direction when this rotary driving force receives head work, second end points of described handing-over seamed edge is positioned at the updrift side of first end points.

3. rotary driving force according to claim 1 receives head, it is characterized in that the formed angle of the direction of described handing-over seamed edge and described axis is 20 ° ~ 60 °.

4. rotary driving force according to claim 1 receives head, it is characterized in that described first dog and second dog are protruding along the direction of described axis substantially.

5. driven unit comprises:

Gear with a stiff end;

Axially adjust assembly, it has the rotary driving force that stretches out outside the described gear other end and receives head;

Described axial adjustment assembly can be provided with elastic support member and axial limiting parts along described gear shaft to being arranged at reciprocating and flatly moving in the middle of this gear between described axial adjustment assembly and the described gear;

Described rotary driving force reception head has first surface, second surface inwardly and outwardly directed first dog and second dog outwardly, and described first dog and second dog form the center symmetry about the axis that this rotary driving force receives head; Described first surface has comprised the spherical of indent and has been positioned at this spherical approaching side on every side that described first dog and second dog are separated into first approaching side and second approaching side with this approaching side; It is characterized in that,

The surface of each described dog all has the occlusal surface and two sides that seamlessly transit that are used to guide that are used for the cooperation of imaging device driver part, wherein first side is by first base and described second surface adjacency, a handing-over seamed edge adjacency that tilts with respect to the direction of described axis is passed through by second base and described second surface adjacency in second side between two sides;

Described handing-over seamed edge has first end points and second end points, and described second end points is positioned on the described second surface, and intersect at this second end points place on described first base and second base;

Described second end points is the described axis of a distance point farthest on the described dog, and described first end points is than the more close described axis of second end points.

6. driven unit according to claim 5, it is characterized in that: described axial adjustment assembly has comprised adjustment slide block, channel parts and central shaft parts, described rotary driving force receives head can be connected in described adjustment slide block rotatably around its axis, described channel parts has spatially orthogonal upper hopper chute and gliding groove, and described adjustment slide block forms the cooperation of relative slip with described upper hopper chute on first direction; Described central shaft parts and described gear have common axis, and it forms the cooperation of relative slip with described gliding groove on second direction; Described first direction and second direction all perpendicular to photosensitive drum shaft to.

7. driven unit according to claim 5, it is characterized in that: described elastic support member is the spring that is enclosed within on the described central shaft parts, described central shaft parts are made of head, stage portion and bar portion, described head cooperates with described gliding groove, and described stepped portions is between described channel parts and described spring.

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