CN106483802B - Driving force transmission member, driving force transmission assembly, developing cartridge and printer - Google Patents

Abstract

The invention provides a driving force transmission part, a driving force transmission assembly, a developing box and a printer, wherein the driving force transmission part comprises a gear seat which extends in a cylindrical shape, a gear is arranged on the peripheral wall of the gear seat along the circumferential direction, a driving force transmission protrusion is arranged at the end part of the gear seat, an outer convex arc surface and a transmission surface are arranged on the outer wall of the driving force transmission protrusion, the top of the driving force transmission protrusion is arranged in a plane, and the radial distance between the axial projection of a first transmission surface and an axis is increased from inside to outside. And a driving force transmission assembly, a developing cartridge and a printer including the driving force transmission member. The connection machine between the driving force connecting components is more stable and smooth, and the protruding deformation can be effectively prevented, so that the work is more durable and stable.

Description

Driving force transmission member, driving force transmission assembly, developing cartridge and printer

Technical Field

The present invention relates to the field of printing consumables, and more particularly, to a driving force transmission member, a driving force transmission member assembly, a toner cartridge mounted with the driving force transmission member, and a laser printer mounted with the driving force transmission member.

Background

A toner cartridge is generally used in an image forming apparatus as a toner supply source for use in image forming, and an existing toner cartridge is often detachably mountable to the image forming apparatus for use. In general, the photosensitive drum, the developing roller, the toner feeding roller, and the agitating frame are all rotationally operated by receiving a driving force of the image forming apparatus through gears mounted at the ends.

When the toner cartridge falls into the printer, the driving force transmission part of the printer is connected with the driving force transmission part of the toner cartridge, and then the developing roller and the drum assembly are driven by the driving gear to realize transmission connection with the printer, so that the development of fonts or patterns is realized and printing is finished.

The driving force transmission part is generally provided with a driving force transmission boss and a force receiving part which is arranged on the boss and is used for receiving driving force, and when the spherical force receiving part cannot effectively fall into the bottom of the concave position of the driving force transmission part, the driving force transmission boss is easily twisted and expanded to the circumferential direction, radial deformation is generated, and then actual printing driving is influenced, and the actual printing effect is influenced.

Disclosure of Invention

In order to achieve the first object of the present invention, the present invention provides a driving force transmission member that is stable and has high stability in landing.

In order to achieve the second object of the present invention, the present invention provides a driving force transmission assembly that is stable and highly stable in landing.

In order to achieve the third object of the present invention, the present invention provides a toner cartridge that is stable and has high stability in landing.

In order to achieve the fourth object of the present invention, the present invention provides a laser printer which is stable in landing and has high stability.

In order to achieve the first object of the present invention, the present invention provides a driving force transmission member, the driving force transmission member includes a gear seat extending cylindrically, a gear is provided on an outer peripheral wall of the gear seat in a circumferential direction, a driving force transmission protrusion is provided on an end portion of the gear seat, an outer wall of the driving force transmission protrusion is provided with an outer convex arc surface and a transmission surface, a top portion of the driving force transmission protrusion is provided in a plane, and a radial distance between an axial projection of the first transmission surface and an axis increases from inside to outside.

By the above-mentioned scheme, be the plane setting through being at the bellied top of driving force transmission, make the driving force transmission protruding be can make the top better with hold the position cooperation and be adjacent to the diapire that holds the position, make protruding better with hold the position cooperation, connect the landing machine more stable smooth and easy, simultaneously all be the transmission face and set up inwards, make the cooperation of transmission face more laminate and reduce pressure, prevent protruding deformation then, and inwards set up and enable protruding have the orientation when rotatory and hold the position trend, make the work more stable.

In a further embodiment, the number of the transmission surfaces is two, and the transmission surfaces are distributed on both sides of the outer convex arc surface in a rotationally symmetrical manner along the axis.

Further, the top of the driving force transmission bulge spans over the outer bulge arc surface and the two transmission surfaces.

In a further embodiment, the drive force transmission projection is provided with a separation guide surface on the rear side of the transmission surface, the separation guide surface being provided obliquely outward.

From the above, two drive surfaces are rotationally symmetrical to be arranged, so that the transmission of the rotary driving force is more stable, the stress is more uniform, the driving force transmission protrusion is effectively protected, the top of the plane is transversely arranged, the protrusion can be more effectively close to the accommodating position, the cooperation is more stable, and the inclined separation guide surface on the back side can be more effectively guided during separation, so that the separation is smoother.

In order to achieve the second object of the present invention, the present invention provides a driving force transmission assembly including a first driving force transmission member and a second driving force transmission member that are fitted to each other; the first driving force transmission part comprises a first gear seat extending cylindrically, a first gear is arranged on the peripheral wall of the first gear seat along the circumferential direction, a driving force transmission bulge is arranged at the end part of the first gear seat, an outer convex arc surface and a first transmission surface are arranged on the outer wall of the driving force transmission bulge, the top of the driving force transmission bulge is arranged in a plane, and the radial distance between the axial projection of the first transmission surface and the axis is increased from inside to outside; the second driving force transmission part comprises a second gear seat extending cylindrically, a second gear is arranged on the peripheral wall of the second gear seat along the circumferential direction, a containing position for containing the driving force transmission bulge is formed at the end part of the second gear seat, an inward concave arc surface positioned in the middle part and a second transmission surface positioned at the outer side of the inward concave arc surface are arranged at the containing position, and the radial distance between the axial projection of the second transmission surface and the axis is reduced from inside to outside; the top of the driving force transmission bulge is adjacent to the bottom wall of the accommodating position, the convex arc surface is matched with the concave arc surface, and the first transmission surface is matched and adjacent to the second transmission surface; the maximum height of the first transmission surface and the top of the driving force transmission protrusion in the axial direction is H1, the height of the second transmission surface in the axial direction is H2,。

by the above-mentioned scheme, be the plane setting through being at the bellied top of driving force transmission, make the driving force transmission protruding be can make the top better with hold the diapire that holds the position and adjoin, make protruding better with hold the position cooperation, simultaneously with the driving surface all be inwards setting, make the cooperation of driving surface more laminate and reduce pressure, prevent protruding deformation then, and inwards setting can make protruding have towards holding the position trend when rotatory, make the work more stable, moreover, driving surface highly be favorable to better atress even and during operation be difficult to separate, guarantee driving force transmission subassembly connection fall machine more stable smooth and easy and rotatory job stabilization.

In a further scheme, the number of the first transmission surfaces is two, and the first transmission surfaces are symmetrically distributed on two sides of the outer convex arc surface along the axis; the number of the second transmission surfaces is two, and the second transmission surfaces are distributed on two sides of the concave arc surface in a rotationally symmetrical manner along the axis.

Further, the top of the driving force transmission protrusion spans over the first outer convex arc surface and the two first transmission surfaces.

In a further development, the drive force transmission projection is provided with a release guide surface on the rear side of the first transmission surface, the release guide surface being arranged obliquely outwards.

From the above, two driving surfaces are rotationally symmetrically arranged along the axis, so that the transmission of the rotary driving force is more stable, the stress is more uniform, the driving force transmission protrusion is effectively protected, the top of the plane is transversely arranged, the protrusion can be more effectively close to the accommodating position, the cooperation is more stable, and the inclined separation guide surface on the back side can be effectively guided during separation, so that the separation is smoother.

In order to achieve the third object of the present invention, there is provided a toner cartridge including a frame and a roller rotatably supported in the frame, the roller including a roller body and a driving force transmission member provided on one end of the roller body, the driving force transmission member being the first driving force transmission member or the second driving force transmission member in any one of the above aspects.

In order to achieve the fourth object of the present invention, the present invention provides a laser printer, comprising a machine body, wherein a mounting position for mounting a toner cartridge is provided in the machine body, a driving force transmission member for transmitting a driving force to the toner cartridge is provided in the machine body, and the driving force transmission member is the first driving force transmission member or the second driving force transmission member in any one of the above aspects.

According to the scheme, the efficient and stable driving force transmission assembly is arranged, namely, the first driving force transmission component or the second driving force transmission component can be arranged on the toner cartridge, and the second driving force transmission component or the first driving force transmission component is correspondingly arranged on the laser printer, so that the toner cartridge and the laser printer are connected and fall down more stably and smoothly, and the operation is more stable.

Drawings

FIG. 1 is a block diagram of an embodiment of a toner cartridge of the present invention.

Fig. 2 is a structural view of a first embodiment of the driving force transmission assembly of the present invention.

Fig. 3 is a structural view of a first driving force transmission member in the first embodiment of the driving force transmission assembly of the present invention.

Fig. 4 is a schematic connection diagram of a first embodiment of the drive force transmission assembly of the present invention.

Fig. 5 is a cross-sectional view of a first embodiment of the drive force transmission assembly of the present invention at the location of the drive faces. .

Fig. 6 is an enlarged view at B in fig. 5.

Fig. 7 is a structural view of a second embodiment of the driving force transmission assembly of the present invention.

Fig. 8 is a schematic connection diagram of a second embodiment of the drive force transmission assembly of the present invention.

The invention is further described below with reference to the drawings and examples.

Detailed Description

Cartridge and laser printer embodiments:

referring to fig. 1, fig. 1 is a structural view of a toner cartridge 1, the toner cartridge 1 including a frame and a roller rotatably supported in the frame, which in this embodiment may be a developing roller or a photosensitive drum, the roller including a roller body and a driving force transmitting member 2 provided on an axially outer end portion of the roller body.

The laser printer (not shown) comprises a machine body, wherein an installation position for installing the toner cartridge is arranged in the machine body, the toner cartridge 1 is installed in the installation position, a driving motor, a speed change gear set and a driving force transmission part 3 are further arranged in the machine body, the driving force transmission part 3 is used for being connected with the driving force transmission part 2 in a matched mode, the driving motor transmits rotary driving force through the speed change gear set and then outputs the rotary driving force to the driving force transmission part 3, and the driving force transmission part 3 finally transmits the driving force to a roller of the toner cartridge through the driving force transmission part 2, so that the roller can rotate.

First embodiment of the driving force transmission assembly:

referring to fig. 2, the driving force transmission member 2 and the driving force transmission member 3 constitute a driving force transmission assembly in the present embodiment, and the driving force transmission member 2 and the driving force transmission member 3 are coupled to each other to achieve transmission of driving force, in the present embodiment, the driving force transmission member 3 is provided on a printer, and the driving force transmission member 2 is provided on a roller of a toner cartridge, and rotational driving force is outputted from the driving force transmission member 3 to the driving force transmission member 2 and then transmitted to the roller. Of course, the positions of the driving force transmission member 2 and the driving force transmission member 3 may be reversed, i.e., the driving force transmission member 2 may be provided on the printer, and the driving force transmission member 3 may be provided on the roller of the toner cartridge, both of which may achieve the object of the present invention. The driving force transmission member will be described in detail below.

Referring to fig. 3, fig. 3 is a structural diagram of the driving force transmission member 2, the driving force transmission member 2 includes a gear seat 21 extending cylindrically, a gear is provided on an outer peripheral wall of the gear seat 21 in a circumferential direction, a driving force transmission protrusion 22 is provided on an end portion of the gear seat, the driving force transmission protrusion 22 is provided in a rotationally symmetrical manner along an axis, outer protruding arc surfaces 23 are provided on outer walls on both sides of a middle portion of the driving force transmission protrusion 22, two transmission surfaces 24 provided in a planar manner are provided on radial outer sides of the outer protruding arc surfaces 23 of the driving force transmission protrusion 22, the transmission surfaces 24 are respectively connected with the outer protruding arc surfaces 23 on the same side, the transmission surfaces 24 extend radially from the outer protruding arc surfaces 23, and the transmission surfaces 24 are also in a rotationally symmetrical manner along the axis. The driving force transmission protrusion 22 is provided with a separation guide surface 25 on the back side of the transmission surface 24, and the separation guide surface 25 is also provided rotationally symmetrically and obliquely outward. The top 16 of the driving force transmission protrusion is arranged in a plane, and the top 16 of the driving force transmission protrusion 22 spans over the two outer convex circular arc surfaces 23 and the two transmission surfaces 24.

Referring to fig. 6, fig. 6 is a cross-sectional view along the axial direction at the transmission face 24, and the transmission face 24 is inclined away from the axis a, and the transmission face 24 has a projection line in the axial direction, which is closer to the radial distance L2 between the inner end of the gear seat and the axis a, and a radial distance L1 between the outer end of the projection line away from the gear seat and the axis a, L2 being smaller than L1, i.e., the radial distance between the axial projection of the transmission face and the axis increases from inside to outside, as described below with respect to the inclination of the transmission face 24 and the relative structural position setting.

Referring to fig. 4, the driving force transmission member 3 includes a gear seat extending cylindrically, a gear (not shown) is provided in a circumferential direction of an outer peripheral wall of the gear seat, two driving force transmission blocks 31 are provided in rotational symmetry along an axis at end portions of the gear seat, a receiving position is formed between the two driving force transmission blocks 31 for receiving the mounting driving force transmission protrusions 22, a middle portion of an inner side surface of the driving force transmission blocks is provided with an inner concave circular arc surface 32 and transmission surfaces 33 are provided on both sides of the inner concave circular arc surface 32, the inner concave circular arc surface 32 and the transmission surfaces 33 are provided in connection, and the transmission surfaces 33 are provided obliquely in a plane.

Referring to fig. 6, fig. 6 is also a sectional view in the axial direction at the transmission surface 33, and description will be made below regarding the inclination direction of the transmission surface 33 and the arrangement of the relevant structural positions, the transmission surface 33 being arranged inclined from the axis a, the transmission surface 33 having a projection line in the axial direction, which is closer to the radial distance L1 between the inner end of the driving force transmission member 3 and the axis a, and the radial distance L3 between the inner end of the projection line away from the driving force transmission member 3 and the axis a, L3 being smaller than L1, i.e., the radial distance between the axial projection of the transmission surface and the axis decreases from inside to outside.

In the present embodiment, the driving force transmission member 2 and the driving force transmission member 3 are coaxially rotated at the time of the rotation of the connection, and therefore, the axis a is used for the unified description, and naturally, there is a deviation in practical application, and naturally, when the driving force transmission member 2 and the driving force transmission member 3 are rotated slightly out of axis, the distance between the driving surfaces and the axis is the axis of the respective devices, that is, the driving surface 24 corresponds to the axis of the driving force transmission member 2, and the driving surface 33 corresponds to the axis of the driving force transmission member 3.

Referring to fig. 4, 5 and 6, when the driving force transmission member 2 and the driving force transmission member 3 are coupled, the driving force transmission protrusion 22 is located in the accommodation position, the top portion 26 is adjacent to the planar bottom wall of the accommodation position, the outer convex arc surface 23 is mated with the inner concave arc surface 32, the driving surface 24 is connected with the driving surface 33, and the slopes of the driving surface 24 and the driving surface 33 are the same in this embodiment, so that the driving surface 24 and the driving surface 33 can be better fitted to complete the transmission of the driving force. The maximum axial height of the driving surface 24 and the top 34 is H1, i.e. the distance between the inner end of the driving surface 24 and the top 34, and the axial height of the driving surface 33 is H2, i.e. the distance between the outermost end of the driving surface 33 and the bottom wall of the receiving position, will beThe arrangement can make the butting area of the transmission surface larger and the driving force transmission more stable. The separation guide surface 25 functions to better separate the driving force transmission member 2 and the driving force transmission member 3 in the axial direction by engaging the outwardly inclined separation guide surface 25 with the driving surface 33 on the other side when relatively inverted. The drive surface and the separation guide surface which are provided obliquely at the same time are more stable not only in driving rotation but also in making the drive force transmitting member more releasable.

Second embodiment of drive force transmission assembly:

the driving force transmission assembly comprises a driving force transmission part 4 and a driving force transmission part 2, wherein the driving force transmission part 4 can be arranged on the toner cartridge or the printer, and the driving force transmission part 2 can be correspondingly arranged on the toner cartridge or the printer. The driving force transmission member 4 includes a gear seat that is cylindric extension, the outer peripheral wall of gear seat is provided with the gear along circumference, the tip of gear seat is formed with recess 41, be provided with two driving force transmission piece along axis rotational symmetry in the recess 41, two driving force transmission piece also are the inner peripheral wall of recess 41 and extend inwards, form between two driving force transmission pieces and hold the position, hold the position and be used for holding installation driving force transmission protruding 22, the middle part of the medial surface of driving force transmission piece is provided with indent arc surface 42 and sets up driving surface 43 on one side of indent arc surface 42, indent arc surface 42 sets up with driving surface 43 is connected, driving surface 43 is the slope setting of plane, the radial distance between the axial projection of driving surface 43 and the axis reduces from inside to outside. When the driving force transmission member 2 and the driving force transmission member 4 are coupled, the driving force transmission protrusion 22 is positioned in the accommodation position of the recess 41, the top portion 26 is abutted against the planar bottom wall of the accommodation position, the outer convex arc surface 23 is mated with the inner concave arc surface 42, and the driving surface 24 is coupled with the driving surface 43.

Of course, the above embodiment is just a preferred embodiment of the present invention, and in practical applications, the driving surface may also be provided in a smooth arc extension, which can achieve the object of the present invention.

By the above-mentioned scheme, be the plane setting through being at the bellied top of driving force transmission, make the driving force transmission protruding be can make the top better with hold the diapire that holds the position and adjoin, make protruding better with hold the position cooperation, simultaneously with the driving surface all be inwards setting, make the cooperation of driving surface more laminate and reduce pressure, prevent protruding deformation then, and inwards setting can make protruding have towards holding the position trend when rotatory, make the work more stable, moreover, driving surface highly be favorable to better atress even and during operation be difficult to separate, guarantee driving force transmission subassembly connection fall machine more stable smooth and easy and rotatory job stabilization.

Claims (6)

1. A driving force transmission assembly characterized by comprising a first driving force transmission member and a second driving force transmission member which are mutually matched;

the first driving force transmission part comprises a first gear seat extending cylindrically, a first gear is arranged on the peripheral wall of the first gear seat along the circumferential direction, a driving force transmission protrusion is arranged at the end part of the first gear seat, an outer protruding arc surface and a first transmission surface are arranged on the outer wall of the driving force transmission protrusion, the top of the driving force transmission protrusion is arranged in a plane, the first transmission surface is inclined away from the axis of the first gear seat, and the radial distance between the outer contour of the first transmission surface and the axis is increased from inside to outside along the axial direction of the first gear seat;

the second driving force transmission part comprises a second gear seat extending in a cylindrical shape, a second gear is arranged on the peripheral wall of the second gear seat along the circumferential direction, an accommodating position for accommodating the driving force transmission protrusion is formed at the end part of the second gear seat, an inward concave arc surface positioned in the middle part and a second transmission surface positioned on the outer side of the inward concave arc surface are arranged at the accommodating position, the second transmission surface is obliquely arranged away from the axis of the second gear seat, and the radial distance between the inner contour and the axis of the second transmission surface is reduced from inside to outside along the axial direction of the second gear seat;

the top of the driving force transmission bulge is adjacent to the bottom wall of the accommodating position, the outer convex arc surface is matched with the inner concave arc surface, and the first transmission surface and the second transmission surface are matched and adjacent;

the maximum height of the tops of the first transmission surface and the driving force transmission bulge in the axial direction is H1, and the height of the second transmission surface in the axial direction is H2, wherein H2 is more than H1 and is more than or equal to H2.

2. The drive force transmission assembly according to claim 1, characterized in that:

the number of the first transmission surfaces is two, and the first transmission surfaces are symmetrically distributed on two sides of the outer convex arc surface along the axis in a rotating mode;

the number of the second transmission surfaces is two, and the second transmission surfaces are symmetrically distributed on two sides of the concave arc surface along the axis in a rotating mode.

3. The drive force transmission assembly according to claim 2, characterized in that:

the top of the driving force transmission bulge spans over the outer bulge arc surface and the two first transmission surfaces.

4. A drive force transmission assembly according to any one of claims 1 to 3, wherein:

the driving force transmission projection is provided with a separation guide surface provided on the back side of the first transmission surface, the separation guide surface being provided obliquely outward.

5. A toner cartridge comprising a frame and a roller rotatably supported in the frame, the roller comprising a roller body and a driving force transmission member provided on one end of the roller body, characterized in that the driving force transmission member is the first driving force transmission member or the second driving force transmission member according to any one of claims 1 to 4.

6. The laser printer comprises a machine body, wherein an installation position for installing a carbon powder box is arranged in the machine body,

a driving force transmission member for transmitting driving force to the toner cartridge is provided in the body, the driving force transmission member being the first driving force transmission member or the second driving force transmission member according to any one of claims 1 to 4.