JP2588165B2 - Developing device - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a developing device for visualizing an electrostatic latent image formed on the surface of an electrostatic latent image carrier by an electrophotographic copying process or the like. is there.

(Conventional technology) Conventionally, as a developing method, a magnetic roller is fixedly mounted on an outer peripheral surface of a developing sleeve made of aluminum or the like, and is supplied by a rotating developer stirring roller (for example, a bucket roller or a screw roller). While holding the developer, the developer is transported to a development area facing the electrostatic latent image carrier, and the electrostatic latent image carried on the surface of the electrostatic latent image carrier is visualized. Things are provided.

By the way, in general, in a developing device, since the developer passing through the developing area, that is, the toner concentration after the development is reduced, the developer is once separated from the outer peripheral surface of the developing sleeve, and the new developer is removed. Is supplied to the outer peripheral surface of the developing sleeve, that is, the developer needs to be replaced.

Therefore, conventionally, a means has been taken in which a scraper is pressed against the outer peripheral surface of the developing sleeve on the downstream side of the developing area to scrape off the developer after development.

(Problems to be Solved by the Invention) However, in many cases, fine irregularities are formed on the outer peripheral surface of the developing sleeve by sandblasting or the like in order to improve the transportability of the developer. When the scraper is pressed against the outer peripheral surface of the developing sleeve, the wear of the developing sleeve is remarkable, and the developer is buried in the minute concave portion in the pressed portion, and this solidifies due to aging. It becomes uneven.

Therefore, in the case of using a developing sleeve having minute irregularities on the surface, the developer whose toner concentration has decreased on the developing sleeve surface cannot be scraped off with a scraper, and the replacement of the developer becomes insufficient. Thus, there has been a problem that density unevenness and density reduction occur in a copied image.

Further, in the conventional apparatus, there is a problem that the provision of the scraper limits the installation position of the stirring roller and the like, and the apparatus becomes large.

(Means for Solving the Problems) The present invention has been made in order to solve the above problems, and has been developed in such a manner that an outer circumferential portion of a magnetic roller built in a developing sleeve of the conventional sleeve rotating type developing device extends axially. N exists,
The S pole is sequentially magnetized in the circumferential direction, and the magnetic pole located at a portion facing the stirring roller is a magnetic pole of the same polarity adjacent in the circumferential direction, and is located on the upstream side of the same magnetic pole in the developer transport direction. The center of the magnetic pole is located in the range of 20 ° or more and 60 ° or less on the upstream side of the horizontal plane in the developer transport direction around the axis of the developing sleeve, while the center of the magnetic pole located on the downstream side is the head height regulating member. It is provided so as to be located in the range of 20 ° or more and 60 ° or less on the upstream side and on the downstream side of the horizontal plane about the axis of the developing sleeve.

(Example) Hereinafter, an example of the present invention will be described with reference to the drawings.

In FIG. 1, (1) shows a photoreceptor drum, (2) shows a developing device according to the present invention, and this developing device (2) has a photoreceptor in a space formed by a casing (3) and a cover (4). A developing sleeve (6) is sequentially arranged rearward from the drum (1) side,
A stirring roller (11) and a supply roller (16) are provided.

The photoreceptor drum (1) is a cylindrical body having an organic photoreceptor layer on the surface, and the surface is irradiated with light from an optical system (not shown) to form an electrostatic latent image at a peripheral speed of 150 mm / sec. a
It can be driven to rotate in the direction.

The developing sleeve (6) is made of a non-magnetic conductive material (for example, aluminum) in a cylindrical shape, and has fine irregularities formed on the surface by sandblasting, and a developing gap: Ds = They face each other at an interval of 0.6 mm and can be driven to rotate at a rotation speed of 143.64 rpm in the direction of arrow b.

The developing sleeve (6) has a built-in magnetic roller (7) provided with a magnetic pole on the outer peripheral portion, and a developing material (usually a mixture of carrier and toner) is formed on the outer peripheral surface by the magnetic force of the magnetic roller (7). ) Is held and transported to a developing area (A) facing the photoconductor drum (1) to develop the electrostatic latent image formed on the photoconductor drum (1).

The gap between the casing (3) and the gap: D = 1.0 mm is maintained at the lower part of the developing sleeve (6).

Magnetic roller (7) has an outer diameter 24.5 mm, the magnetic pole on the outer peripheral portion (N ₁ to N _3), alternately (S ₁ to S _4), and, on the back side of the developing region (A), Magnetic poles (S ₂ ) and (S ₃ ) of the same polarity are provided adjacently above and below the portion closest to the stirring roller (11), the magnetic pole (N ₁ ) is 900G, and the other magnetic poles (N ₂ , N
_3, S ₁ ~S ₄₎ are as 500-600 g.

Therefore, the magnetic force between the magnetic poles (S ₂ ) and (S ₃ ) becomes zero, and the developer cannot be held on the developing sleeve (6).

When the angles of the magnetic poles (S ₂ ) and (S ₃ ) with respect to the horizontal plane (H) passing through the center of the magnetic roller (7) are (θ ₁ , θ ₂ ), these angles (θ ₁ ),
From the experiment, (θ ₂ ) is calculated as follows: 20 ° ≦ θ ₁ ≦ 60 °, 20 ° ≦ θ ₂ ≦ 6
It is set within the range of 0 ゜.

That is, when the angles (θ ₁ ) and (θ ₂ ) are equal to or less than 20 °, the developer that has passed through the development area (A) and is conveyed to the side of the stirring roller (11) is The developing sleeve (6) is again combined with the minute unevenness formed on the surface.
May be held on the surface of the

When the angle (θ ₂ ) is 60 ° or more, the ability of the bucket (14) of the stirring roller (11) to supply the developer to the surface of the developing sleeve (6) decreases.

Further, when the angle (θ ₁ ) is larger than 60 °, the developer pool (X) between the developing sleeve (6) where the magnetic pole (S ₂ ) is located and the casing (3) increases, and the stirring roller ( 11) Recovery efficiency of the developer to the side decreases.

Furthermore, when the angle (θ ₁ + θ ₂ )> 60 °, the supply and recovery of the developer can be performed more favorably.

From the above, in the present embodiment, θ ₁ = 40 ° and θ ₂ = 50 ° are set as shown in FIG.

The stirring roller (11) is a bucket roller in which a stirring member having a blade (13) is fitted on a support shaft (12), has an outer diameter of 34 mm, and has a developer stirring conveyance path (10) (hereinafter, stirring path). That)
The developer in the stirring path (10) is rotatably driven in the direction of arrow c at a rotation speed of 179.55 rpm. A part thereof is supplied to the surface of the developing sleeve (6) by the bucket (14).

The stirring roller (11) is installed so as to be substantially horizontal with the developing sleeve (6).

The supply roller (16) is a screw roller provided in a developer supply transport path (15) (hereinafter referred to as a supply path) formed by a partition plate (5) provided behind the stirring roller (11). The toner and the developer supplied from the toner replenishing tank not to be mixed are transported in the front direction in the figure while mixing and stirring.

In the partition plate (5), a passage communicating the stirring path (10) and the supply path (15) is formed in the front and rear sides in the drawing, and the stirring path (10) is stirred by the stirring roller (11). The developer conveyed to the back side passes through the passage, is fed into the supply path (15), is conveyed to the front side by the supply roller (16) through the supply path (15), passes through the passage on the front side, and again. Stirrer (1
0).

Further, a spike height regulating member (8) is formed at an upper portion of the casing (3).
The developing sleeve (6) at the downstream side of the magnetic pole (S ₃ ) with an interval of the ear height regulation gap Db = 0.5 mm from the developing sleeve (6).
The developer conveyed by the developing sleeve (6) is cut off by cutting the developer so as to regulate the amount of the developer conveyed.

Further, (9) is a smoke-prevention mylar, which is made of a polyethylene film (thickness: 0.1 mm) and is attached to the upper part of the casing (3) facing the photosensitive drum (1). The dust powder generated from around the developing sleeve (6) is prevented from scattering upward.

In the developing device (2) having the above configuration, the developer is supplied with toner from a toner replenishing tank (not shown).
The supply roller (16) and the stirring roller (11) are mixed and stirred while being conveyed through the supply path (15) and the stirring path (10), so that the toner having an improved charged position is stirred by the stirring roller (11). It is supplied to the surface of the developing sleeve (6).

Here, the transfer of the developer in the developing sleeve (6) will be described with reference to FIG.

The developer having a reduced toner content remaining on the surface of the developing sleeve (6) via the developing area (A) is transferred to the developing area (A).
The magnetic pole (S ₂ ) is transported upward from below to the rear side of the
Is released from the magnetic pole and separates from the surface of the developing sleeve (6).

Then, the developer detached from the developing sleeve (6) is collected on the side of the stirring roller (11) in the developer collecting area (B), and is mixed with the developing side in the stirring path (10) by the stirring roller (11). Is done.

At this time, the magnetic poles (S ₂ ) and (S ₃ ) of the same polarity are sufficiently separated from each other, and the magnetic pole (S ₂ ) on the upstream side is provided sufficiently below the horizontal plane. The reduced developer is not retained on the surface of the developing sleeve (6) again.

Meanwhile, the developer conveyed by the bucket (14) of the stirring roller (11), the developing sleeve in the vicinity of the magnetic pole (S ₃₎ of the magnetic roller in the developing agent supply region (C) (7) (6 ), And is conveyed by the developing sleeve (6) in the direction of the arrow (b) and used for development.

Since the magnetic pole (S ₃ ) is provided on the upstream side of the spike height regulating member (8), the supply of the developer is not impaired.

(Effects of the Invention) As is apparent from the above description, the developing device according to the present invention is configured such that N and S poles extending in the axial direction are sequentially attached to the outer peripheral portion of the magnetic roller provided in the developing sleeve in the circumferential direction. The magnetic pole located at the portion facing the stirring roller is magnetized to be the same magnetic pole adjacent in the circumferential direction, and the center of the magnetic pole located on the upstream side of the same magnetic pole in the developer transport direction is the axis of the developing sleeve. The center of the magnetic pole located in the range of 20 ° or more and 60 ° or less on the upstream side of the horizontal plane with respect to the horizontal plane, and the center of the magnetic pole located on the downstream side is located on the upstream side of the ear height regulating member and the center of the axis of the developing sleeve. It is configured to be located in the range of 20 ° or more and 60 ° or less downstream of the horizontal plane.

Therefore, when the developer transported by the developing sleeve passes through the magnetic pole on the upstream side of the magnetized portion of the same polarity, it easily separates from the surface of the developing sleeve, is collected by the stirring roller, and is mixed and stirred by the stirring roller. While the developer is mixed with the developer, a new developer is efficiently supplied to the developing sleeve by the stirring roller.

In addition, since the interval between the magnetized portions of the same polarity is such that the developer that has passed through the developing region is not retained on the developing sleeve again, the used developer having the reduced toner concentration is not repeatedly used. . Therefore, a clear copy image without density unevenness and density reduction can be obtained.

Further, since the magnetic pole of the same-polarity magnetized portion is at an angle of 60 ° or less with respect to a horizontal plane, it does not hinder the supply of the developer to the developing sleeve and impairs the function of collecting the developer to the stirring roller side. Thus, the developer can be satisfactorily collected and supplied.

Moreover, since there is no need to provide a scraper or the like for scraping off the developer from the developing sleeve, the size of the developing device and the manufacturing cost can be reduced.

[Brief description of the drawings]

FIG. 1 is a sectional view showing an embodiment of the developing device according to the present invention, and FIG. 2 is a sectional view showing the arrangement of magnetic poles of a magnetic roller and the flow of a developer. DESCRIPTION OF SYMBOLS 1 ... Photoreceptor drum, 2 ... Developing device, 3 ... Casing, 4 ... Cover, 5 ... Partition plate, 6 ... Developing sleeve, 7 ... Magnetic roller, 11 ... Stirring roller, 16 ... Supply roller.

 ──────────────────────────────────────────────────続 き Continuation of the front page (72) Inventor Hidetoshi Kawabata 2-30 Azuchicho, Higashi-ku, Osaka Osaka International Building Minolta Camera Co., Ltd. (56) References JP-A-55-101969 (JP, A) Showa 50-33048 (JP, U)

Claims (1)

(57) [Claims] A developer agitating roller containing a magnetic roller in a fixed state and a developer agitating roller housed in a substantially horizontal state, and rotating them in the same direction so that a developer agitating roller is provided on the surface of the developing sleeve; The developer whose supply amount has been regulated by the spike height regulating member is conveyed from above to below in a developing area opposed to the electrostatic latent image carrier, and is carried on the surface of the electrostatic latent image carrier. A developing device for visualizing the electrostatic latent image thus formed, wherein N and S poles extending in the axial direction are sequentially magnetized in the circumferential direction on the outer periphery of the magnetic roller, and the stirring is performed. The magnetic pole located at the portion facing the roller is a magnetic pole of the same polarity adjacent in the circumferential direction, and the magnetic pole center located on the upstream side of the same magnetic pole in the developer transport direction is
With the axis of the developing sleeve as the center, while being located in the range of 20 ° or more and 60 ° or less on the upstream side in the developer transport direction from the horizontal plane,
The center of the magnetic pole located on the downstream side is provided in the range of 20 ° or more and 60 ° or less on the upstream side of the ear height regulating member and on the downstream side of the horizontal plane about the axis of the developing sleeve. A developing device.