KR20000014224U - Fixture for Electrophotographic Processor - Google Patents

Abstract

The present invention relates to a device for reducing the static electricity generated in the fixing device of the apparatus using an electrophotographic method, the conductive idler is applied a positive voltage on one side of the pressure roller rotating in engagement with the heating roller By installing a roller, the surface of the pressure roller is positively charged to counteract the static electricity having the (−) charge, thereby preventing malfunction of the device.

Description

Fixture for Electrophotographic Processor

The present invention relates to a fixing unit of an apparatus using an electrophotographic method, and more particularly to a fixing apparatus of an electrophotographic processor having a configuration for reducing the static electricity generated by frictional charging of the heating roller and the pressure roller.

BACKGROUND ART In general, an apparatus using an electrophotographic method such as a copier, a facsimile, a laser beam printer (LBP), or the like is used to print a toner image formed on a paper in an image forming unit by high temperature and high pressure. A fixing unit is provided for fixing to the. The fixing unit includes a heating roller that generates heat at a high temperature and a pressure roller that is in contact rotation with a predetermined pressing force on the heating roller.

1 is a configuration diagram of a general electrophotographic processor, which includes a paper feeding unit 110 for feeding paper, an image forming unit 120 for forming an image on paper fed from the paper feeding unit, and an image forming unit. And a fixing unit 130 for fixing an image on the paper and a discharge unit 140 for discharging the paper fixed by the fixing unit.

The paper feeding unit 110 is provided with a pick-up roller 112 for feeding a plurality of sheets of paper stacked in a paper feed cassette 111 of a predetermined shape into a main body in place of the main body. A registration roller 113 for aligning the front end of the paper fed by the pickup roller 112 is provided to rotate in engagement with the idle roller below it.

In addition, the image forming unit 120 is configured in a certain cartridge (Cartridge) is installed to be replaced when all the toner is used. The image forming unit 120 receives a digital image signal from an exposure unit (LSU) of the main body 121 and an organic photo conductor (OPC) 122 for forming an electrostatic latent image (OPC) 122. ) Is rotatably installed. The photosensitive drum 122 has a charge roller 127 for charging the photosensitive drum with a high voltage before an exposure process and a transfer roller installed on a main body to form an image on a sheet of paper. 123 and a developing roller 124 for applying toner to the electrostatic latent image formed on the photosensitive drum are configured to rotate in engagement. In addition, a supply roller 126 for supplying the toner of the toner loading part 125 is engaged with the developing roller 124 with a constant contact amount and rotates. The developing roller 124 and the supply roller 126 are rotated in the same direction to frictionally charge the toner and then supplied to the developing roller 124. On the upper side of the developing roller 124, a blade (Doctor Blade) 128 for regulating the applied toner layer on the developing roller is fixed at one end on the frame, and the other end is installed to contact the developing roller.

The fuser 130 melts the toner particles on the paper by pressing a pressure roller 131 having a predetermined pressing force to fix the toner image on the paper formed by the image forming unit 120. The high temperature heating roller (Heating Roller) 132 for fusion is configured to engage and rotate.

2 is a block diagram showing a configuration of a fixing unit according to an embodiment of the prior art. Looking at the fixing unit in more detail, the inside of the heating roller 132 of Teflon (Teflon) material is supplied with power to generate high temperature heat. The halogen lamp 132a for applying to the surface of the heating roller 132 and the pressure roller 131 is installed.

The pressure roller 131 of the silicon material has a compression coil spring below the bushing 134 supporting the shaft of the pressure roller 131 to be in contact with the heating roller 132 with a predetermined pressing force. 133 is installed.

Therefore, the paper P loaded in the paper feed cassette 111 is fed on the main body by the pickup roller 112 and aligned by the registration roller 113. Thereafter, the paper is transferred to the image forming unit 120, and after the image is formed, the paper is fixed while passing through the fixing unit 130 and discharged through the discharge unit 140.

As described above, however, when the pressure roller made of silicon and the heating roller made of Teflon are rotated with a constant nip, frictional charging occurs, causing static electricity, and as a result, the system is down by the static electricity. It became. In addition, since the surface of the pressure roller is charged with (−) by the static electricity, a problem arises in that a positively charged stake on the paper to be transported adheres to the surface of the pressure roller and causes contamination.

An object of the present invention to solve the above problems is to provide a fixing apparatus of an electrophotographic processor having a configuration capable of reducing the amount of static electricity generated in the fixing unit.

Another object of the present invention is to provide a fixing apparatus of an electrophotographic processor that can prevent the surface of the press roller from being contaminated by the stake on the paper to be conveyed.

In order to achieve the above object, the present invention provides a fixing part of an electrophotographic processor including a heating roller having a heat lamp for generating high temperature heat, and a pressure roller installed to rotate by engaging with the heating roller at a predetermined pressing force. In one embodiment, the pressure roller is characterized in that the conductive roller is applied to rotate to be applied to the (+) voltage.

1 is a block diagram of a general electrophotographic processor.

2 is a block diagram of a fixing unit according to an embodiment of the prior art.

3 is a block diagram of a fixing unit according to an embodiment of the present invention.

<Explanation of symbols for main parts of drawing>

131: pressure roller 132: heating roller

133: conductive roller

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used for the same components, even if displayed on different drawings. In describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

3 is a configuration diagram of the fixing unit according to an embodiment of the present invention, the fixing unit 130 according to the present invention is a heating roller 132 and the pressing roller 131 rotates in engagement with the heating roller 132 and It consists of a conductive roller 133 is configured to rotate in engagement with one side of the pressure roller.

Although not shown, a heat lamp such as a halogen lamp is installed inside the heating roller 132 to generate a high temperature by receiving power from the main body. In addition, a temperature sensing device (Thermostat) for maintaining and controlling an appropriate fixing temperature and a thermal fuse (Thermistor) for preventing overheating are installed at an upper side of the heating roller 132 to short-circuit the power when the heating roller is overheated. It will play a role.

In addition, the pressing roller 131 is configured to rotate in contact with the heating roller 132 and the predetermined nip (Nip) by the pressing means not shown. The pressurizing means generally has a configuration in which a coil spring is used to press the bushing supporting the press roller.

Thereafter, the conductive roller 133 is installed to rotate in engagement with one side of the pressure roller 131. The conductive roller 133 is configured to apply positive charge to charge the surface of the pressure roller 131 made of silicon with positive charge. The conductive roller 133 is composed of an idle roller is installed to rotate together in accordance with the rotation of the pressure roller 131.

Accordingly, the static electricity having negative charges generated by the friction rollers of the silicon pressure roller 131 and the Teflon heating roller 132 is a positive charge applied by the conductive roller 133. As a result, the amount of static electricity is reduced.

As described above, the fixing device according to the embodiment of the present invention is to charge the surface of the pressure roller by the (+) charge by the conductive roller to cancel the static electricity having the (-) charge to prevent the malfunction of the device, (+) There is an effect that the stake on the sheet having electric charges does not contaminate the press roller.

Claims (2)

In the fixing unit of the electrophotographic processor consisting of a heating roller having a heat lamp for generating a high temperature heat, and a pressure roller is installed to rotate in engagement with the heating roller at a constant pressing force, Fixing apparatus of the electrophotographic processor, characterized in that the one side of the pressure roller is installed so that the conductive roller is applied to rotate (+) voltage is engaged. The method of claim 1, The conductive roller is a fixing device of the electrophotographic processor, characterized in that the idle roller.