KR100987752B1 - apparatus for Power control Fusing lamp in Image Forming Device - Google Patents

Abstract

The fixing lamp power supply control device of the image forming apparatus according to the present invention can prevent damage to the rubber roller of the fixing unit or the system of the fixing unit by blocking the fixing unit at the time of abnormal high temperature generation of the fixing unit in the image forming apparatus. That is, damage to the fixing unit is installed by installing a protection device (power supply control device) for blocking the continuous supply of power to the fixing lamp due to an abnormality in the power supply unit for supplying power to the fixing lamp or an element occurrence. It is to prevent.

Description

Apparatus for Power control Fusing lamp in Image Forming Device}             

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 shows a schematic engine mechanism configuration of an image forming apparatus employing a contact developing method of a general electrophotographic processor.

Fig. 2 is a schematic block diagram of a fixing lamp power supply of the image forming apparatus according to the prior art.

3 is a block diagram showing a fixing lamp power supply control device of the image forming apparatus according to the present invention;

4 is a diagram showing the internal circuit configuration of the fixing lamp power supply control device shown in FIG.

* Description of the symbols for the main parts of the drawings *

100: engine control unit 110: power supply unit

120: fuser 121: fixing lamp

122: temperature sensing unit 130: power supply control unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fixing lamp power supply control apparatus of an image forming apparatus. In particular, the image forming apparatus of the image forming apparatus for preventing damage to a rubber roller of the fixing unit or a system of the fixing unit by blocking the fixing unit in case of abnormal high temperature occurs in the image forming apparatus. A fixing lamp power supply control device.

In general, electrophotographic development is widely employed in image forming apparatuses such as copiers, laser beam printers (LBPs), plain paper fax machines, and the like. The process according to the electrophotographic development method is made of a charging, exposure, development, transfer, fixing process and the like as known.

FIG. 1 is a diagram showing the schematic configuration of an engine mechanism of an image forming apparatus employing a general electrophotographic developing system, and showing a case of employing a contact charging system.

As shown in FIG. 1, the contact charging method is a charging method widely used to minimize ozone generation due to charging. The surface of the photosensitive drum has a constant surface potential on the photosensitive drum by contacting the conductive roller or brush used as the contact charger with the photosensitive drum. To form. In particular, Figure 1 shows an example of using a conductive roller of the contact charging method.

As shown in FIG. 1, the photosensitive drum 10 is rotated in an arrow direction by an engine driving motor (not shown), which is a main motor of the engine unit, corresponding to the progress of each process of the electrophotographic processor as described above.

First, in the charging process, the photosensitive drum 10, which is the photosensitive member, is charged by the charging roller 12, which is a contact charger, thereby forming a uniform charge on the photosensitive drum. At this time, the charging roller 12 has a negative potential by the negative charging voltage (VCH).

The photosensitive drum 10 is charged by contact with the charging roller 12 to have a negative surface potential. At this time, the surface potential of the photosensitive drum 10 is typically about -800V. Further, in the above state, the feed rollers 30 and 32 transfer the recording paper fed from the paper cassette not shown to the main body developing part.

Secondly, in the exposure process, the electrostatic latent image is formed on the photosensitive drum by exposing the charged photosensitive drum 10 as described above in correspondence to the original or image data. In this case, an electrostatic latent image is formed on the photosensitive drum 10 by exposing only a portion corresponding to an image area to be printed using an exposure apparatus (LSU) 14. In the unexposed part, the surface potential formed by electrification is maintained as it is, and the exposed part is changed in potential to form an electrostatic latent image having a potential difference between the non-exposed part and the exposed part.

Third, the developing process is to convert the developer into a visible image by attaching the developer to the electrostatic latent image formed on the photosensitive drum 10. That is, the developing roller 16 is generally applied with a developing bias voltage VD of about -450 V to have a negative potential, and the developer is attached to the developing roller 16. The amount of the developer attached to the developing roller 16 is controlled by a non-illustrated doctor blade, and applied to the developing roller in a fixed amount. Thereafter, the developer of the negative potential moved to the developing region is developed by attaching a part of the negative potential developer to the exposed region on the photosensitive drum 10 by the potential difference.

Fourth, the transfer process is a process in which a developer adhered on the photosensitive drum 10 is transferred to a recording paper by the transfer roller 18. The transfer roller 18 is usually supplied with a transfer voltage VT of about +800 to + 1500 V to fix the developer on the photosensitive drum 10 toward the recording paper to be conveyed.

Fifthly, in the fixing process, the toner on the paper is melted on the recording paper while the transfer of the recording paper passes between the high temperature heat roller 20 and the high pressure pressure roller 22. It is the process of making. Thereafter, the fixing of the fixing sheet is discharged to the outside of the image forming apparatus, thereby completing copying or printing of one recording sheet. Here, the heat roller 20 includes a heat lamp 21 for converting electrical energy into thermal energy and maximizing fixability of an image to be printed.

A fixing apparatus power supply control apparatus of an image forming apparatus according to the related art having such an engine mechanism will be briefly described with reference to FIG. 2.

2 is a schematic block diagram of a fuser power supply control apparatus of an image forming apparatus according to the prior art.

As shown in FIG. 2, the fixing unit power supply control apparatus of the image forming apparatus includes an fixing unit 120 including an engine control unit 100, a power supply unit 110, a fixing lamp 121, and a temperature sensing unit 122. It may include. Here, the temperature detector 122 may include a dummymister.                         

The fixing lamp 121 is driven according to the power supplied from the power supply 110 to adjust the internal temperature of the fixing unit, and the temperature sensing unit 122 adjusts the temperature inside the fixing unit 120 according to the driving of the fixing lamp 121. The sensing signal is detected and provided to the engine controller 100.

The engine controller 100 compares the current internal temperature of the fuser 120 and the set temperature detected according to the temperature sensing signal provided from the temperature sensor 122 in the fuser 120 to supply power to the power supply 110 accordingly. It provides a control signal (ON / OFF).

Therefore, the power supply unit 110 is to supply or cut off the power to the fixing lamp 121 in accordance with the power supply control signal provided from the engine control unit 100.

For example, the engine controller 100 may provide a power supply control signal ON to the power supply 110 when the current temperature of the fixing unit 120 provided from the temperature sensor 122 is lower than the set temperature, and supply power. The supply unit 110 supplies power for driving the fixing lamp 121 according to the power supply control signal provided from the engine controller 100.

On the contrary, the engine controller 100 provides a power supply control signal OFF to the power supply 110 when the current temperature of the fixing unit 120 provided from the temperature sensor 122 is higher than the set temperature. Therefore, the power supply unit 110 is to cut off the power supply in order to stop the driving of the fixing lamp 121 according to the power supply control signal provided from the engine control unit 100.                         

However, despite providing a control signal (OFF) for shutting off the power supply from the engine control unit 100 to the power supply unit 110, the fixing lamp 121 continues due to a failure of the power supply unit 110 or an abnormality of the device. In some cases, power is supplied to the power supply. In this case, there is a problem in that the internal temperature of the fixing unit 120 rises due to the driving of the fixing lamp 121 to damage the pressing roller for fixing made of rubber due to the high temperature.

In addition, a large problem may be raised when fixing the image of the recording paper due to damage of the pressing roller.

Accordingly, the present invention has been made to solve the above-mentioned problems according to the prior art, the object of the present invention, the abnormality in the power supply unit or the abnormal occurrence of the element due to the blocking of the continuous supply of power to the fixing lamp The present invention provides a fixing lamp power supply control device of an image forming apparatus in which a protection device (power supply control device) is installed to prevent damage to the fixing unit. In other words, by protecting and blocking an abnormal high temperature of the fixing unit in the image forming apparatus, a fixing lamp power supply control apparatus of the image forming apparatus for preventing the system damage of the fixing unit rubber roller or the fixing unit.

According to an aspect of the fixing lamp power supply of the image forming apparatus according to the present invention for achieving the above object, the temperature sensing unit for detecting the current temperature inside the fixing unit according to the driving of the fixing lamp, in the temperature sensing unit A control unit for generating a first power supply control signal for supplying power to the fixing lamp according to the detected current temperature in the fixing unit, and supplying power to the fixing lamp according to the first power supply control signal generated from the control unit A power supply controller configured to generate a second power supply control signal for supplying power, a power supply supplying power to the fixing lamp according to a first power supply control signal generated from the controller and a second power supply control signal generated from the power supply controller; It may include a supply.

The power supply control unit may include a transistor that is turned on / off according to a first power supply control signal generated from the control unit and provides the second power supply control signal to the power supply unit according to a switching result.

The power supply unit includes a photo triac including a photo diode and a triac, wherein a first terminal of the photo diode of the photo triac is connected to a control unit, and a second terminal of the photo diode is an output terminal of a transistor of the power supply controller. Connected with

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The power supply unit supplies power to the fixing lamp when a first power supply control signal generated from the controller and a second power supply control signal provided from a transistor of the power supply controller are input.

Hereinafter, a fixing lamp power supply control device of an image forming apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a block diagram of a fixing lamp power supply control device of the image forming apparatus according to the present invention, and FIG. 4 is a diagram showing an internal circuit configuration of the fixing lamp power supply control device shown in FIG.

As shown in FIG. 3, the fixing lamp power supply control device of the image forming apparatus may include an engine controller 100, a power supply unit 110, a fixing unit 120, and a power supply control unit 130. Here, the fixing unit 120 includes a fixing lamp 121 and a temperature sensor 122.

In addition, the power supply unit 110 may include a photo triac PT1 as shown in FIG. 4, and the power supply control unit 130 may include a switching element, that is, a transistor Q1. Can be.

The fixing lamp 121 is driven according to the power supplied from the power supply 110 to adjust the internal temperature of the fixing unit, and the temperature detecting unit 122 adjusts the temperature inside the fixing unit 120 according to the driving of the fixing lamp 121. The sensing signal is detected and provided to the engine controller 100.

The engine controller 100 compares the current internal temperature of the fuser 120 and the set temperature detected according to the temperature sensing signal provided from the temperature sensor 122 in the fuser 120 to supply power to the power supply 110 accordingly. It provides a control signal (ON / OFF).

Therefore, the power supply unit 110 is to supply or cut off the power to the fixing lamp 121 in accordance with the power supply control signal provided from the engine control unit 100.

At this time, the engine control unit 100 provides the same control signal as the power supply control signal provided to the power supply unit 110 to the power supply control unit 130. Accordingly, the power supply control unit 130 switches the transistor Q1 shown in FIG. 4 according to the control signal provided from the engine control unit 100 to provide a corresponding signal to the power supply unit 110.

As a result, in order to supply power to the fixing lamp 121, the power supply unit 110 supplies power and cuts off the power according to a power supply control signal provided from the engine control unit 100 and a control signal provided from the power supply control unit 130. It will perform the action. That is, even if a control signal is provided from the engine control unit 100 to supply power to the fixing lamp 120 from the power supply unit 110, when the control signal for power supply is not input from the power supply unit 130, the fixing lamp The power is not supplied to 121.

This operation will be described in more detail with reference to FIG. 4.

The engine controller 100 may supply a control signal (for example, an OFF signal) to cut off the power supply when the current temperature detection signal inside the fixing unit 120 provided from the temperature detector 122 is higher than the set reference temperature. The photodiode cathode terminal of the phototriac PT1 in the supply unit 110 and the base terminal of the transistor Q1 of the power supply control unit 130 are respectively supplied.

The transistor Q1 of the power supply control unit 130 is turned off according to the OFF signal provided from the engine control unit 100, so that current does not flow to the photodiode of the phototriacc PT1.

Therefore, the photo triac PT1 of the power supply unit 110 is not driven so that power is not supplied to the fixing lamp 121.

On the contrary, when the current temperature detection signal inside the fixing unit 120 provided from the temperature sensing unit 122 is lower than the set reference temperature, the engine control unit 100 controls a control signal (eg, to supply power to the fixing lamp 121). ON signal) is supplied to the photodiode cathode terminal of the phototriac PT1 in the power supply unit 110 and the base terminal of the transistor Q1 of the power supply control unit 130, respectively.

The transistor Q1 of the power supply control unit 130 is turned on according to the control signal ON provided from the engine control unit 100 so that a conduction current is supplied to the photodiode anode terminal of the phototriac PT1 of the power supply unit 110. do.

Accordingly, the photo triac PT1 of the power supply unit 110 is activated according to a signal provided from the engine control unit 100 and a signal provided from the power supply control unit 130 to supply power to the fixing lamp 121. will be.

As a result, power is supplied to the fixing lamp 121 only when the currents i1 and i2 flow through the photodiode anode and the cathode terminal of the phototriac PT in the power supply 110, respectively, and the phototriac PT1. When the current flows only to the anode terminal of the photodiode and no current flows to the cathode terminal due to an abnormality of the device, the power supply to the fixing lamp 121 is cut off to prevent an increase in temperature in the fixing unit 120.                     

For example, when supplying a control signal for blocking the power supply from the engine control unit 100 to the fixing lamp 121 to the power supply unit 110 and the power supply control unit 130, the phototri of the power supply unit 110 If an abnormality of the PT1 device occurs, power is continuously supplied to the fixing lamp 121 in the conventional case, but in the present invention, the phototriac PT1 of the power supply unit 110 is a power supply control unit. Since it is connected to the 130, it is possible to control the power supply to the fixing lamp 121 in accordance with the signal provided from the power supply control unit 130.

Therefore, even when an abnormality occurs in the power supply unit 110, the power supply to the fixing lamp 121 is controlled according to a signal provided from the power supply control unit 130.

The fixing lamp power supply control apparatus of the image forming apparatus according to the present invention as described above can prevent the damage of the rubber roller of the fixing unit or the system of the fixing unit by blocking the protection in case of abnormal high temperature of the fixing unit in the image forming apparatus. That is, damage to the fixing unit is installed by installing a protection device (power supply control device) for blocking the continuous supply of power to the fixing lamp due to an abnormality in the power supply unit for supplying power to the fixing lamp or an element occurrence. It can be prevented.

Claims (5)

In the fixing lamp power supply of the image forming apparatus, A temperature sensor configured to detect a current temperature inside the fixing unit according to the driving of the fixing lamp; A controller configured to generate a first power supply control signal for supplying power to the fixing lamp according to a current temperature inside the fixing unit detected by the temperature sensing unit; A power supply controller configured to generate a second power supply control signal for supplying power to the fixing lamp according to the first power supply control signal generated from the controller; And a power supply unit configured to supply power to the fixing lamp according to a first power supply control signal generated from the controller and a second power supply control signal generated from the power supply controller. The method of claim 1, The power supply controller may include a transistor that is turned on / off according to a first power supply control signal generated from the controller and provides the second power supply control signal to the power supply according to a switching result. Fusing lamp power supply. delete The method of claim 1, The power supply unit includes a photo triac including a photo diode and a triac, wherein a first terminal of the photo diode of the photo triac is connected to a control unit, and a second terminal of the photo diode is an output terminal of a transistor of the power supply controller. A fixing lamp power supply of the image forming apparatus connected with the. The method of claim 4, wherein The power supply unit, A fixing lamp power supply of an image forming apparatus, which supplies power to the fixing lamp when a first power supply control signal generated from the controller and a second power supply control signal provided from a transistor of the power supply controller are input.

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