KR19990000883A - Dual Heat Fusing Unit Structure of Laser Beam Printer - Google Patents

Abstract

The present invention relates to an apparatus for changing a fixing unit structure of a laser beam printer, and in particular, a thermal coupler is attached to each of the heat roller and the press roller of the fixing unit to simultaneously heat the heat roller and the press roller to solve the problem of initial fixability and to warm up. This reduces the up time and minimizes power waste.

Description

Dual Heat Fusing Unit Structure of Laser Beam Printer

The present invention relates to an apparatus for modifying a fixing apparatus of a laser beam printer, and more particularly, a dual heating fixing apparatus structure of a laser beam printer for heating the fraser roller and the heat roller simultaneously to reduce the warm-up time of the laser beam printer and to improve the initial fixing property. It is about.

In general, a laser beam printer (LBP) is a device for recording an electrical signal output from a computer (not shown) onto a sheet of paper so that printing is performed by scanning a laser beam onto a drum to generate a photocurrent in the drum. It is.

The structure of the laser beam printer includes a paper feeder 20 for supplying paper and a charging unit 50 for charging the surface of the photosensitive drum 80 with a constant charge when paper is supplied by the paper feeder 20. ), A developing unit 60 for attaching toner to the electrical latent image of the photosensitive drum generated by the light source incident through the lens, a transfer unit 70 for attaching toner to the paper, and a photosensitive drum 80 ) And a conveying unit for guiding the conveyance of the sheet of paper formed by electric force when passing between the transfer unit 70 and the fixing unit 90 guided by the conveying unit to adsorb the image of the sheet to form a complete image. It consists of the printer main body 10 containing ().

In the laser beam printer according to the above configuration, when the paper accommodated in the paper feed unit 20 is supplied one by one between the photosensitive drum 80 and the transfer unit 70, the photosensitive drum 80 of the charging unit 50 rotates. An electric latent image is formed by exposing the tube to the surface of the photosensitive drum while exposing the surface to a constant charge and exposing the tube to the surface of the photosensitive drum.

In this manner, when an electrical latent image is formed on the photosensitive drum, the developer 60 attaches toner to the latent image, and at the same time, the transfer unit 70 operates to transfer the toner attached to the electrical latent image of the photosensitive drum 80 onto the paper. Since it is attached, a certain type of image is formed on the paper.

The paper in which the image is formed in a certain form is moved to the fixing unit 90 under the guidance of the conveying unit by the continuous rotation of the photosensitive drum 80. At this time, the image formed on the paper is melted while passing through the fixing unit 90. Adsorption results in a complete image.

With this configuration and action, a series of printing processes are finished, and in the process of forming a complete image in the fixing unit 90, the heat roller 91 with the heat lamp 93 to fuse the toner to the paper 21. ) Was heated and the temperature was controlled by the thermal couple 92, and then the paper was fixed to the heat roller 91 by the press roller 94 as a compression roller.

Since this conventional technique cannot adjust the temperature of the presser roller 94, there is a problem in the initial fixability before the presser roller 94 is sufficiently heated, and thus warming up for driving the presser roller 94. (Warming Up) Since the time is long, a lot of power is consumed.

In addition, as the laser beam printer becomes smaller and faster, the heat roller 91 having a smaller size cannot supply sufficient heat or have a temperature that is too high to be used.

An object of the present invention is to attach a thermal couple to the heat roller and the Fraser roller, respectively, to apply a heat source to the Fraser roller, thereby solving the initial fixability problem and reducing the warm-up time to the maximum.

In order to achieve the above object, a thermal coupler is attached to the heat roller and the press roller of the fixing unit, respectively, so that the heat roller and the press roller are heated simultaneously.

In addition, in order to reduce power consumption when the heat roller lamp and the Fraser roller lamp are simultaneously heated, the driving frequency of the heat roller lamp and the Fraser roller lamp is the same, and there is another characteristic that the phases are different from each other.

1 is a perspective view showing the internal configuration of a laser beam printer according to the prior art,

Figure 2 is a perspective view showing the configuration of the fixing unit according to Figure 1,

3 is a perspective view showing an internal configuration according to the present invention,

Figure 4 is a perspective view showing the configuration of the fixing unit according to the present invention,

5 is a waveform diagram illustrating a method for implementing the present invention.

Thus, with reference to the accompanying drawings in detail as follows.

3 to 5 illustrate an embodiment of the present invention, wherein the paper 21 having an image formed in a predetermined shape by an electrical latent image of the photoconductive drum 80 is guided by a conveying unit by the continuous rotation of the photosensitive drum. Since it is fused and adsorbed while passing through the fixing unit 90, the configuration of the fixing unit 90 in which a complete image is formed, the thermal couples 92 and 96 are attached to the heat roller 91 and the fraser roller 94, respectively. The temperature of the heat roller 91 and the press roller 94 at the same time.

That is, the paper 21 picked up by the pickup roller 30 from the paper feeder 20 by the printing signal is transferred between the photosensitive drum 80 and the transfer roller 70 by the ledge roller 40. At this time, in the developing device 60, when the toner adheres to the electrical latent image of the photosensitive drum 80, the transfer roller 70 transfers the toner to the paper.

In this way, the toner-attached paper 21 is transferred to the fixing unit 90 to adjust the temperature at the thermal couples 92 and 96 attached to the heat roller 91 and the fraser roller 94, respectively. After being fixed by the heat and pressure of the roller 91 and the press roller 94, the discharge is discharged through the medium roller 100.

At this time, since the temperature of the paper 21 to be discharged is almost at or below the temperature between the heat roller 91 and the press roller 94, the temperature of the press roller is a heat roller if the melting point of the toner is around 130 ° C. The temperature of about 150 ~ 170 ° C is suitable before and after, and the temperature of the presser roller is about 80 ° C before and after, in order to maintain the temperature of printing paper at about 100 ~ 120 ° C.

In addition, the temperature control of the heat lamp of the heat roller 91 and the Fraser roller 94 is

Since the pulse width modulation (PWM) is executed, the maximum power consumption of the printer device is the power consumption of the heat lamp + the fryer roller if the heat lamp 93 and the fraser lamp 97 operate at the same time. The power consumption of the lamp is consumed.

Therefore, control is performed in the same manner as in the waveform diagram of FIG. 5 in order to prevent much power consumption.

In the section in which the heat lamp of the heat roller is On, the heat lamp of the Fraser roller is turned off and in the section in which the heat lamp of the Fraser roller is On, the heat lamp of the heat roller is Off. .

In other words, the driving frequency of the heat roller lamp and the Fraser roller lamp are the same, and the phase difference is used to reduce the power burden by maximizing power consumption.

As described above, by attaching a thermal couple to the heat roller and the Fraser roller, respectively, the heat roller and the Fraser roller are simultaneously heated to solve the problem of initial fixability and to reduce the power-up time while reducing the warm-up time. It has the effect of minimizing waste.

Claims (2)

In the laser beam printer, A dual heating fuser structure of a laser beam printer, characterized in that a thermal coupler is attached to each of the heat roller and the press roller to simultaneously control the temperature of the heat roller and the press roller. The method of claim 1, A dual heating fuser structure of a laser beam printer for minimizing power consumption by equalizing the driving frequency of the heat roller lamp and the Fraser roller lamp.