KR20000027183A - Bias supplying structure of developing - Google Patents

Abstract

PURPOSE: A bias supplying structure of developing is provided to decrease a number of component and save a separate manufacturing cost by injecting and forming a magnet and a rotating axis as one body. CONSTITUTION: A rotating axis(32) is formed to a center of both sides of a magnet member(30). Both sides of the rotating axis(32) is made as a plastic material. A flange(36) for forming a transmission hole(34) is inserted into a center of the rotating axis(32). A coil spring(38) for providing a bias is contacted to an inner surface of a front end of a sleeve(16) of the magnet member(30). Upper and lower coils(40,42) of the coil spring(38) are connected as one body. One end of the lower coil(42) is contacted to an external surface of the front end of the sleeve(16).

Description

Bias application structure of developer roll

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a bias supplying structure of development of a development roll, and more particularly, to a coil spring for bias application so that the magnet member and the rotating shaft of the development roll are integrally injected and formed and directly contacted thereto. In order to accurately induce the application of a stable bias, and by structurally changing the material of the flange by the application of a direct bias, it is possible to simplify the assembly work while reducing the cost and overall price.

In general, the structure of a copier and a laser print included in an electrophotographic apparatus has a premise difference, but the light of the light source is scanned on the photosensitive drum as the shaped image, and thus the electrostatic photosensitive parts of the photosensitive drum are excited. Toner, which acts only as ink, is buried, and when the paper passes the lower part of the photosensitive drum, the toner on the photosensitive drum is attached to the paper to form an image and is discharged.

At this time, the toner is supplied from a toner cartridge and is in a powder form, and by itself, the toner does not directly adhere to the charged photosensitive drum. The developing roller performs a single catalytic action to stick the toner to the charged photosensitive drum. Will be done.

1 is a view illustrating a conventional developing roll 10. First, a circular magnet member 14 is coupled to an outer surface of a rotating shaft 12 having a predetermined length and having a conductivity, and the magnet member 14 is coupled thereto. The outer surface of the) is coated with a sleeve 16 made of an aluminum material, the conductive shaft 18 is coupled to each of the rotating shafts 12 drawn from both sides of the magnet member 14, the rotating shaft 12 In order to smoothly rotate the inside of the flange 18 has a structure in which the bearing 20 is built.

Therefore, in order to apply a bias to the developing roll 10, first, the biasing plate (not shown) in contact with the other end of the conductive rotary shaft 12 is first applied to the rotary shaft 12, The developing bias is applied in this order of the bearing 20, the flange 18, and the sleeve 16, and finally develops.

By the way, the developing roll 10, first, by using the conductive rotating shaft 12 and the conductive flange 18 and the plurality of bearings 20 on both sides of the magnet member 14 to apply a bias, the number of parts Due to the increase in fabrication and assemblability is deteriorated, and also due to the production of the rotating shaft 12 and the flange 18 using the conductive material has increased the manufacturing cost of the parts, there was a problem that can not reduce the cost.

In addition, when assembling and using a flange made of a plastic material instead of the conductive flange 18 to reduce the cost, severe wear occurs due to friction with the sleeve 16 surface of the developing roll 10, and accordingly the life of the product There was a problem that the shortening and bias application is unstable.

In order to solve the above problems, the magnet and the rotating shaft of the developing roll are integrally injected and formed, and via the bias spring coil spring so as to be in direct contact with each other, stable bias is applied accurately and the number of parts It is an object of the present invention to provide a bias applying structure of a developing roll to reduce the cost while simplifying the assembly work.

The present invention for achieving the above object is inserted into a rotating shaft having a conductivity inside the magnet member forming a circular shape to a certain length, the outer surface of the magnet member is coated with a sleeve made of aluminum material, both sides of the magnet member In the bias applying structure of the developing roll combined with the conductive flange to the rotating shaft drawn from the rotation shaft, the rotating shaft is protruded and formed integrally with the center of both sides of the magnet member, the plastic shaft of the through shaft formed on both sides of the rotating shaft A flange is inserted between the flange and the sleeve of the corresponding magnet member, the one end of which is pressed and contacted to the front end surface of the sleeve while the bias spring coil penetrates the through hole of the flange. Stable bias of spring It is characterized by being able to reduce the cost while simplifying the assembly work by making the application good, and by forming the rotating shaft integrally with the magnet member and changing the material of the flange to plastic.

1 is a cross-sectional view showing a bias applying structure of a conventional developing roll

2 is a cross-sectional view showing a bias applying structure of a developing roll according to the present invention.

3 is a perspective view showing a coil spring for bias application of FIG.

<Description of the symbols for the main parts of the drawings>

10: developing roll 12,32: rotating shaft

14,30: magnet member 16: sleeve

18,36: flange 20: bearing

34: through hole 38: coil spring

40: upper coil 42: lower coil

2 to 3 show a bias applying structure of the developing roll of the present invention, and the same reference numerals as those of FIG. 1 refer to the same parts, so a description thereof will be omitted and different points from those of FIG. Only the description will be given.

2 and 3, first of all, the rotating shaft 32 integrally injected therein is formed at both centers of the circular magnet member 30, and the rotating shaft 32 is non-magnetically formed. It is formed, the two sides of the rotary shaft 32 is made of a plastic material and in the center there is fitted a flange 36 having a through hole 34.

In addition, the bias spring coil spring 38 is in contact with the inner surface of the front end of the sleeve 16 of the magnet member 30 corresponding to the through hole 34 of the flange 36. The coil for the upper and lower coils (40, 42) is made to be integrally connected to the structure is divided into a predetermined distance.

Therefore, the upper coil 40 is for the state to be drawn out from the through hole 34 of the flange 36, the lower coil 42 passes through the through hole 34 of the flange 36, the rotating shaft 32 While winding the outer surface, the diameter range is adhesively enlarged, so that one end of the lower coil 42 is provided to contact the outer surface of the front end of the sleeve 16.

At this time, the end of the lower coil 42 is in contact with the stretched state, the compression action occurs, accordingly the end of the lower coil 42 is in contact with the contact surface of the sleeve 16 in a pressure-contacting state. In order to apply a bias to the developing roll 10, first, it is applied from the upper coil 40 of the bias coil spring 38.

The bent portion 42a, which is an end portion of the lower coil 42 connected integrally, is formed to be slightly bent to prevent loosening, jointing, abrasion, etc. of the coil spring 38 and finally applied to the sleeve 16. .

Therefore, the conventional developing roll 10 is composed of the rotary shaft 12 and the magnet member 14 separately, the manufacturing cost increases according to the increase in the number of assembling work and the individual manufacturing, and the flange 18 also for bias By using a conductive material, the manufacturing cost of the component was increased and the cost could not be reduced. However, in the present invention, the bias coil spring 38 having the upper and lower coils 40 and 42 integrally connected to the sleeve 16 By applying in a state of being in direct contact with the surface of the c), the bias can be applied in a more accurate and stable state, and the magnet member 30 and the rotating shaft 32 are integrally injected and formed to manufacture, And the manufacturing cost can be reduced, and the flange 36 can lose its conductive function, so it is made of plastic material, thereby reducing the manufacturing cost of parts and thus the overall product cost Which it will be reduced.

As described above, the present invention can reduce the number of parts and reduce the individual manufacturing cost by integrally injecting and forming the magnet and the rotating shaft of the developing roll, and by directly contacting the sleeve of the developing roll with the bias spring coil spring, the bias It is possible to apply more precisely and stably. Also, by directly applying bias, the material of flange is changed to plastic. Therefore, the assembly work is simple and the manufacturing cost of material parts can be reduced. have.

Claims (3)

The magnet member 14 is formed in a circular shape with a predetermined length is inserted into the rotating shaft 12 having a conductivity, the outer surface of the magnet member 14 is assembled with a sleeve 16 made of an aluminum material, the magnet member 14 In the bias applying structure of the developing roll 10 in which the conductive flange 18 is coupled to the rotating shaft 12 drawn from both sides of the Rotating shaft 32 protrudes and is formed integrally with both centers of both sides of the magnet member 14, and both sides of the rotating shaft 32 are fitted with a plastic flange 36 having a through hole 34. Between the flange 36 and the sleeve 16 of the corresponding magnet member 14, one end of the sleeve is formed in a state where the bias spring coil 38 passes through the through hole 34 of the flange 36. 16) A bias applying structure for a developing roll, characterized in that it is made to be pressed and contacted to the front end surface. The method of claim 1, The bias applying coil spring 38 is formed integrally, and upper and lower coils 40 and 42 are partially formed on the upper and lower portions, and the lower coil 42 is in a state in which a range of diameters is gradually expanded. A bias applying structure for a developing roll, characterized in that formed. The method according to claim 1 or 2, The bending portion 42a is bent at the end portion of the lower coil 42 of the coil spring 38 so as to prevent the sleeve 16 from loosening, abrasion, and coupling when the sleeve 16 is rotated in the opposite direction of the winding direction of the lower coil 42. The bias application structure of the developing roll characterized by the above-mentioned.