JPH0592610A - Image formation apparatus - Google Patents

Abstract

PURPOSE:To provide an image formation apparatus that is capable of supplying toner at high speed to locations near an aperture and is capable of providing therewith images in constantly stabilized density. CONSTITUTION:The title apparatus is a device that is constructed by providing an aperture electrode body 2 for supply of toner 3 to the underside of a toner case 4 storing the toner 3, and images are formed with this apparatus on image- receiving paper 16 which is positioned in opposition to the aperture electrode body 2 and is controlled for passage over an aperture formed to the aperture electrode body 2. As a cylindrical member 13 is provided to a position near the aperture 9 of the aperture electrode body 2, the amount of toner particles flowing through the aperture 9 can be increased.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image forming apparatus,
In particular, the present invention relates to a non-contact direct modulation type image forming apparatus used in a copying machine, a printer or the like.

[0002]

2. Description of the Related Art An image forming apparatus generally includes a toner carrier and an aperture electrode body. The toner carrier carries charged toner and supplies the charged toner near the aperture electrode body. Further, the aperture electrode body modulates the flow of the charged toner when an image signal is applied. Then, the modulated toner is projected onto the image receiving paper to form an image or the like.

As the above-mentioned toner carrier, in order to prevent the toner from passing through the aperture regardless of the electric field,
In recent years, a toner has been proposed in which the toner contacts the aperture electrode body.

In such an apparatus, the recording density is 30
When trying to achieve a recording speed of 10 ppm at 0 dpi,
The image signal applied to the aperture electrode body causes the toner to pass through the aperture at a speed of about 2.08 × 10 ⁻⁵ g / s or more, and it is necessary to supply the toner to the vicinity of the aperture at this speed.

[0005]

However, in the above-mentioned apparatus, there is a problem that toner supply is not in time, image output is faint, and sufficient output density cannot be obtained.

The present invention has been made in view of the above-mentioned problems, and provides an image forming apparatus capable of supplying toner at a high speed in the vicinity of an aperture and always obtaining an image having a stable density. The purpose is to

[0007]

SUMMARY OF THE INVENTION According to the present invention, an aperture electrode body for supplying toner particles is provided on the lower surface of a toner case that stores toner, and an image receiving paper is positioned facing the aperture electrode body. An image forming apparatus for forming an image on the image receiving paper by controlling passage of an aperture formed in the aperture electrode body, characterized in that a cylindrical member is arranged in the vicinity of the aperture of the aperture electrode body. .

[0008]

The image signal indicating whether or not the toner particles pass through the aperture of the aperture electrode body is transmitted to the aperture electrode body. In this state, the aperture electrode body is vibrated in order to supply the toner onto the image receiving paper. At this time, by providing the cylindrical member near the aperture, the flow rate of the toner particles passing through the aperture can be increased. As a result, the toner supply efficiency can be improved and the recording speed can be increased.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT An embodiment of the present invention will be described below with reference to the accompanying drawings. FIG. 1 is a schematic diagram of an image forming apparatus according to the present invention. Reference numeral 1 in the drawing denotes an electrode roller, and an aperture electrode body 2 is provided above the electrode roller 1 in the drawing. The aperture electrode body 2 is provided with a toner case 4 that stores the toner 3. Further, a toner cover 5 is provided above the toner case 4 to prevent the toner 3 from scattering. The aperture electrode body 2 has a reference electrode 6, an insulating layer 7, and a control electrode 8 which are sequentially stacked from the top in the figure. Further, as shown in FIG. 2, the aperture electrode body 2 is formed with a plurality of apertures 9 through which the toner 3 passes. Here, by setting the printing resolution to 300 dpi, the pitch of the apertures 9, 9, ... Is formed to 85 microns and the diameter of the apertures 9 is 50 microns. Further, the ultrasonic transducer 1 is provided below the insulating layer 7.
0 are provided in close contact with each other, and an oscillator circuit 11 is connected to the ultrasonic oscillator 10. The reference electrode 6 is grounded, and the control electrode 8 is connected to a control voltage drive circuit 12 that generates a voltage according to an image signal.

Further, a cylindrical member 13 having an inner diameter similar to that of the aperture 9 is provided so as to face each aperture 9 while being buried in the toner 3. An ultrasonic transducer (not shown) is built in the cylindrical member 13,
The cylindrical member 13 vibrates by the oscillation signal of the oscillation circuit 14 connected to this ultrasonic transducer. The material of the cylindrical member 13 is selected such that when the toner 3 comes into contact with it, the toner 3 is charged to a polarity advantageous to the charging characteristics required of the toner 3. For example, if the toner 3 is required to be positively charged, it is preferable to select a material such as polyethylene that is easily negatively charged on the charging train. By selecting the material of the cylindrical member 13 in this way, it is possible to prevent problems due to defective charging characteristics of the toner 3.

Reference numeral 15 in FIG. 1 is a supply tray for supplying the image receiving paper 16 into the image forming apparatus. Further, reference numeral 17 in FIG. 1 denotes a paper discharge tray, and the image receiving paper 16 on which an image is formed is discharged and stocked. Further, a heat roller 18, which is a heat fixing device, and a backup roller 19 are arranged between the discharge tray 17 and the electrode roller 1, and the image receiving paper 16 coated with the toner 3 is thermally fixed. Do.

The operation of the image forming apparatus thus configured will be described below. In a normal state (when the print start signal is not transmitted), the toner 3 stored in the toner case 4 is blocked at the upper part of the aperture 9 of the aperture electrode body 2 and does not fall from the aperture 9.

When the print start signal is transmitted, the image receiving paper 16 is taken out from the supply tray 15, conveyed inside the apparatus, and supplied to the upper part of the electrode roller 1. Further, when a print start signal is input to the oscillation circuit 11, the oscillation circuit 11 operates and the vicinity of the aperture 9 of the aperture electrode body 2 vibrates. Due to this vibration, the toner 3 above the aperture 9 starts to flow. At this time, the toner 3 supplied to the aperture 9 is a voltage applied to the control electrode 8 from the control voltage drive circuit 12 in which an electric field for passing the toner 3 or an electric field for preventing the toner from passing is formed. Selectively passes through the aperture 9. Then, the toner 3 that has passed through the aperture 9 is attracted by the electrostatic force of the electrode roller 1 and adheres to the image receiving paper 16 to form a toner image according to the image information. The image receiving paper 16 on which the toner image is formed is conveyed toward the heat roller 18 and the backup roller 19 of the heat fixing device, the toner 3 is heated, and the toner image is fixed on the image receiving paper 16. This image receiving paper 1
The sheet 6 is discharged to the sheet discharge tray 17.

By the way, when the toner 3 starts to flow,
The toner 3 passes through two routes inside the cylinder 13 (arrow A in FIG. 3) and outside the cylinder (arrow B in FIG. 3), and the toner 3 flows into the aperture 9. As a result, the toner 3 can be supplied to the aperture 9 more efficiently than when there is no cylindrical member. That is, in general, the cylindrical member 13 is called a Sandstrom cylinder, and as shown in FIG. 3, the diameter of the aperture is D ₀ , the aperture and the cylindrical member 13 are
Assuming that the distance between and is h, by setting h / D ₀ to about 1, as shown in FIG. 4, it is possible to increase the flow rate by about 1.6 times as compared with the case without the cylindrical member ( From the powder engineering experiment manual (published by Nikkan Kogyo Shimbun). Further, by vibrating the cylindrical member 13 with the oscillation signal of the oscillation circuit 14, the toner 3 can be more efficiently supplied.

In the above embodiment, the cylindrical member has been described as the cylindrical member, but the cylindrical member is not limited to the cylindrical member, and may be, for example, a rectangular cylindrical member or a truncated cone shape. Further, the surface of the cylindrical member may be coated to improve the fluidity and charging property of the toner 3. Further, although the cylindrical member 13 is vibrated independently in the above-described embodiment, the cylindrical member 13 is integrated with the aperture electrode body 2, and the cylindrical electrode 13 is vibrated by vibrating the aperture electrode body 2. Good.

[0016]

As described above, the present invention has the effects that the toner can be supplied at a high speed and the image output having a stable density can always be obtained.

[Brief description of drawings]

FIG. 1 is an internal schematic diagram of an image forming apparatus according to the present invention.

FIG. 2 is a perspective view of the vicinity of an aperture electrode body of the image forming apparatus according to the present invention.

FIG. 3 is a sectional view illustrating a cylindrical member of the image forming apparatus according to the present invention.

FIG. 4 is a diagram showing a flow increase ratio of the image forming apparatus according to the present invention.

[Explanation of symbols]

 2 ... Aperture electrode body 3 ... Toner (toner particles) 9 ... Aperture 13 ... Cylindrical member 16 ... Image receiving paper

Claims (1)

[Claims] 1. An aperture electrode body for supplying toner particles is provided on a lower surface of a toner case that stores toner, and an image receiving paper is positioned so as to face the aperture electrode body and is formed on the aperture electrode body. An image forming apparatus for forming an image on the image receiving paper by controlling passage of an aperture, wherein a cylindrical member is disposed in the vicinity of the aperture of the aperture electrode body.