Charging roller, cartridge, image forming apparatus and manufacturing method of the charging roller
First Claim
1. A charging roller for electrically charging a photosensitive member in contact with said photosensitive member, said charging roller comprising:
- an outermost surface layer including an electroconductive resin material, first surface particles configured to form first projections at a surface of said charging roller, and second surface particles configured to form second projections at the surface of said charging roller,wherein said outermost surface layer satisfies conditions i) to v);
6.0 (μ
m)≤
Rz≤
18.8 (μ
m),
iwhere Rz is a ten-point average roughness (μ
m) of the surface of said charging roller,
7 (μ
m)≤
d≤
20 (μ
m),
iiwhere d is a thickness (μ
m) of the outermost surface layer,
9.8 (μ
m)≤
D1≤
15.8 (μ
m) and 2.8 (μ
m)≤
D2≤
5.2 (μ
m),
iiiwhere D1 is an average particle size (μ
m) of said first surface particles, and D2 is an average particle size (μ
m) of said second surface particles,
3.0≤
D1/D2≤
5.6, and
iv
0.10≤
M1/(M1+M2)≤
0.32,
vwhere M1 is a total weight (mg) of said first surface particles per unit area of the surface of said charging roller, and M2 is a total weight (mg) of said second surface particles per unit area of the surface of said charging roller.
2 Assignments
0 Petitions
Accused Products
Abstract
A charging roller includes a surface layer containing first and second surface particles and satisfying the following:
6.0 (μm)≤Rz≤18.8 (μm), i
where Rz is a ten-point average roughness (μm) of a charging roller surface,
7 (μm)≤d≤20 (μm), ii
where d is a thickness (μm) of the surface layer,
9.8 (μm)≤D1≤15.8 (μm) and 2.8 (μm)≤D2≤5.2 (μm), iii
where D1 and D2 are average particle size (μm) of the first surface particles, and the second surface particles, respectively,
3.0≤D1/D2≤5.6, and iv
0.10≤M1/(M1+M2)≤0.32, v
where M1 is a total weight (mg) of the first surface particles per unit area of the charging roller surface, and M2 is a total weight (mg) of the second surface particles per unit area of the charging roller surface.
20 Citations
18 Claims
-
1. A charging roller for electrically charging a photosensitive member in contact with said photosensitive member, said charging roller comprising:
-
an outermost surface layer including an electroconductive resin material, first surface particles configured to form first projections at a surface of said charging roller, and second surface particles configured to form second projections at the surface of said charging roller, wherein said outermost surface layer satisfies conditions i) to v);
6.0 (μ
m)≤
Rz≤
18.8 (μ
m),
iwhere Rz is a ten-point average roughness (μ
m) of the surface of said charging roller,
7 (μ
m)≤
d≤
20 (μ
m),
iiwhere d is a thickness (μ
m) of the outermost surface layer,
9.8 (μ
m)≤
D1≤
15.8 (μ
m) and 2.8 (μ
m)≤
D2≤
5.2 (μ
m),
iiiwhere D1 is an average particle size (μ
m) of said first surface particles, and D2 is an average particle size (μ
m) of said second surface particles,
3.0≤
D1/D2≤
5.6, and
iv
0.10≤
M1/(M1+M2)≤
0.32,
vwhere M1 is a total weight (mg) of said first surface particles per unit area of the surface of said charging roller, and M2 is a total weight (mg) of said second surface particles per unit area of the surface of said charging roller. - View Dependent Claims (2, 3)
where S1 is a projection area ratio (%), of the projections by said first surface particles, per unit area of the surface of said charging roller, and S2 is a projection area ratio (%), of the projections by said second surface particles, per unit area of the surface of said charging roller.
-
-
3. The charging roller according to claim 1, wherein said first and second surface particles are formed of either one material selected from an urethane resin material, an urethane-acryl resin material, an acrylic resin material and an acryl-styrene copolymer.
-
4. A cartridge detachably mountable to a main assembly of an image forming apparatus, said cartridge comprising:
-
a photosensitive member; a charging roller configured to electrically charge said photosensitive member in contact with said photosensitive member; an outermost surface layer including an electroconductive resin material, first surface particles configured to form first projections on a surface of said charging roller, and second surface particles configured to form second projections on the surface of said charging roller, wherein said outermost surface layer satisfies conditions i) to v);
6.0 (μ
m)≤
Rz≤
18.8 (μ
m),
iwhere Rz is a ten-point average roughness (μ
m) of the surface of said charging roller,
7 (μ
m)≤
d≤
20 (μ
m),
iiwhere d is a thickness (μ
m) of the outermost surface layer,
9.8 (μ
m)≤
D1≤
15.8 (μ
m) and 2.8 (μ
m)≤
D2≤
5.2 (μ
m),
iiiwhere D1 is an average particle size (μ
m) of said first surface particles, and D2 is an average particle size (μ
m) of said second surface particles,
3.0≤
D1/D2≤
5.6, and
iv
0.10≤
M1/(M1+M2)≤
0.32,
vwhere M1 is a total weight (mg) of said first surface particles per unit area of the surface of said charging roller, and M2 is a total weight (mg) of said second surface particles per unit area of the surface of said charging roller. - View Dependent Claims (5, 6, 7, 8, 9)
where S1 is a projection area ratio (%), of the projections by said first surface particles, per unit area of the surface of said charging roller, and S2 is a projection area ratio (%), of the projections by said second surface particles, per unit area of the surface of said charging roller.
-
-
6. The cartridge according to claim 4, wherein said first and second surface particles are formed of either one material selected from an urethane resin material, an urethane-acryl resin material, an acrylic resin material and an acryl-styrene copolymer.
-
7. The cartridge according to claim 4, wherein a surface of said photosensitive member has a value, obtained by dividing an elastic deformation work amount by an entire work amount, of 47% or more.
-
8. The cartridge according to claim 4, wherein at a surface of said photosensitive member, a plurality of independent recesses are formed.
-
9. The cartridge according to claim 4, wherein a voltage applied to said charging roller when said photosensitive member is electrically charged by said charging roller is only a DC voltage.
-
10. An image forming apparatus comprising:
-
a photosensitive member; a charging roller configured to electrically charge a photosensitive member under application of a voltage, wherein said charging roller has an outermost surface layer including an electroconductive resin material, first surface particles configured to form first projections on a surface of said charging roller, and second surface particles configured to form second projections on the surface of said charging roller, wherein said outermost surface layer satisfies conditions i) to v);
6.0 (μ
m)≤
Rz≤
18.8 (μ
m),
iwhere Rz is a ten-point average roughness (μ
m) of the surface of said charging roller,
7 (μ
m)≤
d≤
20 (μ
m),
iiwhere d is a thickness (μ
m) of the outermost surface layer,
9.8 (μ
m)≤
D1≤
15.8 (μ
m) and 2.8 (μ
m)≤
D2≤
5.2 (μ
m),
iiiwhere D1 is an average particle size (μ
m) of said first surface particles, and D2 is an average particle size (μ
m) of said second surface particles,
3.0≤
D1/D2≤
5.6, and
iv
0.10≤
M1/(M1+M2)≤
0.32,
vwhere M1 is a total weight (mg) of said first surface particles per unit area of the surface of said charging roller, and M2 is a total weight (mg) of said second surface particles per unit area of the surface of said charging roller; and an image forming portion configured to form a toner image on said photosensitive member charged by said charging roller and then to transfer the toner image onto a recording material. - View Dependent Claims (11, 12, 13, 14, 15)
where S1 is a projection area ratio (%), of the projections by said first surface particles, per unit area of the surface of said charging roller, and S2 is a projection area ratio (%), of the projections by said second surface particles, per unit area of the surface of said charging roller.
-
-
12. The image forming apparatus according to claim 10, wherein said first and second surface particles are formed of either one material selected from an urethane resin material, an urethane-acryl resin material, an acrylic resin material and an acryl-styrene copolymer.
-
13. The image forming apparatus according to claim 10, wherein a surface of said photosensitive member has a value, obtained by dividing an elastic deformation work amount by an entire work amount, of 47% or more.
-
14. The image forming apparatus according to claim 10, wherein at a surface of said photosensitive member, a plurality of independent recesses are formed.
-
15. The image forming apparatus according to claim 10, wherein a voltage applied to said charging roller when said photosensitive member is electrically charged by said charging roller is only a DC voltage.
-
16. A manufacturing method of a charging roller, including an electroconductive rotation shaft, a base layer formed outside the electroconductive rotation shaft, and a surface layer formed outside the base layer, for electrically charging a photosensitive member in contact with the photosensitive member under application of a voltage, said manufacturing method comprising:
-
a first step of forming the base layer outside the electroconductive rotation shaft; a second step of preparing a surface layer paint by mixing first and second surface particles in a curable resin solution so as to satisfy conditions;
9.8 (μ
m)≤
D1≤
15.8
(μ
m),
2.9 (μ
m)≤
D2≤
5.2
(μ
m),
3.0 (μ
m)≤
D1/D2≤
5.6, and
0.1≤
M1/(M1+M2)≤
0.32,where D1 is an average particle size (μ
m) of the first surface particles, D2 is an average particle size (μ
m) of the second surface particles, M1 is a total weight (mg) of the first surface particles per unit area of the surface layer paint and M2 is a total weight (mg) of the second surface particles per unit area of the surface layer paint;a third step of forming a coating of the surface layer paint on the base layer; and a fourth step of forming the surface layer by curing the coating, wherein the surface layer formed in said fourth step satisfies the following conditions;
6.0 (μ
m)≤
Rz≤
18.8 (μ
m), and
7 (μ
m)≤
d≤
20 (μ
m),where Rz is a ten-point average roughness (μ
m) of a surface of the charging roller, and d is a thickness (μ
m) of the surface layer.- View Dependent Claims (17, 18)
where S1 is a projection area ratio (%), of projections formed by the first surface particles, per unit area of the surface of the charging roller, and S2 is a projection area ratio (%), of projections formed by the second surface particles, per unit area of the surface of the charging roller.
-
-
18. The manufacturing method according to claim 16, wherein the first and second surface particles mixed in said second step are formed of either one material selected from an urethane resin material, an urethane-acryl resin material, an acrylic resin material and an acryl-styrene copolymer.
Specification