KR101109587B1 - Method and apparatus for controling temperature of a fuser - Google Patents

Abstract

Disclosed are a temperature control method and apparatus for a fixing unit. The temperature control apparatus of the fixing unit includes a temperature sensing unit converting the temperature of the fixing unit into a first voltage and outputting the converted temperature, and converting the first voltage to a second voltage, the first voltage being a predetermined reference voltage. A third control to turn off the power of the fuser according to the voltage comparator for outputting the first control signal if greater than the first control signal or the second control signal output if the second control voltage exceeds the predetermined threshold voltage. And a power control unit for outputting a signal.

According to the present invention, by controlling the temperature of the fixing unit more stably and accurately, the printing quality can be improved and the safety can be increased, and the circuit reliability can be ensured by the simpler the disconnection detection circuit of the thermistor. .

Description

Method and apparatus for controlling temperature of a fuser {Method and apparatus for controling temperature of a fuser}

Figure 1a shows a conceptual diagram showing a temperature control device of a conventional fuser.

1B shows the relationship between the base-emitter voltage and the collector current of a transistor.

2 is a block diagram showing the configuration of the temperature control device of the fixing unit according to the present invention.

3 is a flowchart illustrating an embodiment of a temperature control method of a fixing apparatus according to the present invention.

<Brief description of the major symbols in the drawings>

200: temperature sensing unit 210: thermistor

220: connection state voltage generation unit 230: voltage comparison unit

240: reference voltage generation unit 250: power control unit

The present invention relates to a printing apparatus such as a printer, a facsimile or a multifunction apparatus (MFP), and more particularly, to a temperature control apparatus and a method of a fixing unit in a printing apparatus.

A conventional printing apparatus is provided with a fixing apparatus which applies a constant pressure and heat to the printing toner in order to fix the toner transferred to predetermined data on the printing paper. The fixing apparatus includes a fixing unit for applying a constant heat to the printing toner and a pressurizer for applying a constant pressure, and the fixing unit receives heat generated from the heating element and heat generated from the heating element for fixing the toner on the printing paper. And a fixing roller for transferring the printing paper.

Looking at the temperature control device of a conventional fuser as follows.

Figure 1a shows a conceptual diagram showing a temperature control device of a conventional fuser.

Thermistor 100 has a variable resistance value as the temperature of the fixing unit changes. The temperature detector 110 distributes the input voltage as the resistance value of the thermistor 100 changes to generate a temperature voltage corresponding to the current temperature. The disconnection detector 120 is turned off when the thermistor 100 is disconnected as a transistor, and the reference voltage generator 140 increases the reference voltage accordingly. The reference voltage generator 140 generates a reference voltage corresponding to a temperature for maintaining the fuser.

The voltage comparator 130 compares the temperature voltage generated by the temperature detector 110 with the reference voltage generated by the reference voltage generator 140, and outputs a logic level HIGH when the temperature voltage is higher than the reference voltage. If it is lower than this reference voltage, logic level LOW is output. If the disconnection detector 120 detects disconnection of the thermistor 100, the reference voltage generator 140 increases the reference voltage and accordingly the voltage comparator 130 outputs a logic level LOW.

The power controller 150 generates a signal for controlling the power of the fuser unit by performing a logical multiplication on the logic level output by the voltage comparator 130 or the main controller.

)에 대해 컬렉터 전류(

)가 지수 함수의 상관 관계를 가지고 있으므로 컬렉터와 연결된 기준전압 생성부(140)에서 기준 전압을 생성하는 데 영향을 미치게 된다. 이러한 기준 전압의 변동으로 인하여 정착기의 온도를 정확하게 제어하는 것을 저해하며 정착기의 오작동을 일으킬 수 있는 가능성이 있는 문제점을 갖는다.In general, thermistor 100 varies from thousands of ohms to millions of ohms with respect to temperature changes from 0 ° to 200 ° of the fuser. Accordingly, the transistor 120 connected to the thermistor 100 and the base 120 may have a voltage between base and emitter as shown in the graph of FIG.

Collector current for

) Has an exponential correlation, which affects the generation of the reference voltage in the reference voltage generator 140 connected to the collector. Due to such a change in the reference voltage, there is a problem that inhibits the precise control of the temperature of the fixing unit and may cause a malfunction of the fixing unit.

In addition, when the thermistor 100 is disconnected, the reference voltage generator 140 raises the reference voltage and the voltage comparator 130 controls to turn off the power of the fuser by outputting a logic level LOW. By detecting the disconnection of the thermistor 100 has a problem of controlling the power supply of the fuser.

The technical problem to be achieved by the present invention is to stably generate a voltage that is a reference for controlling the power of the fuser to control the temperature of the fuser accurately and to detect the disconnection of the thermistor by a simple circuit configuration to control the power of the fuser It is to provide a temperature control method and apparatus of the fixing unit.

The temperature control apparatus of the fixing unit according to the present invention for achieving the above object, converts the temperature of the fixing unit to a first voltage and outputs, and converts the first voltage to a second voltage as the temperature of the fixing unit changes A temperature sensing unit configured to output a first control signal when the first voltage is greater than a predetermined reference voltage and a second control output when the first control signal or the second voltage exceeds a predetermined threshold voltage And a power control unit for outputting a third control signal to turn off the power of the fuser according to the signal.

The voltage comparator may include a reference voltage generator for generating the reference voltage by dividing a power supply voltage by a first resistor and a grounded second resistor, and a comparator for comparing the first voltage and the reference voltage.

The temperature sensing unit is configured to vary the resistance value as the temperature of the fixing unit changes, and to output the first voltage by using a thermistor which outputs the first voltage and by using third and fourth resistors to output the second voltage. It is preferable to include a state voltage generator.

The power control unit may include a logic inverter connected to the connection state voltage generator, a logic product operator configured to perform a logical multiplication on an output of the logic inverter and the first control signal, and output the third control signal. .

The temperature control method of the fixing unit according to the present invention for achieving the above object, the step of converting the temperature of the fixing unit as the temperature of the fixing unit to generate a first voltage, by dividing the first voltage to divide the second voltage Generating a first control signal when the first voltage is greater than a predetermined reference voltage and by a second control signal generated by generating the first control signal or the second voltage above a predetermined threshold voltage. It characterized in that it comprises the step of turning off the power of the fuser.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the temperature control method and apparatus of the fuser according to the present invention.

2 is a block diagram illustrating a configuration of a temperature control device of the fuser according to the present invention, wherein the temperature control device of the fuser includes a temperature sensor 200, a voltage comparator 230, and a power controller 250. It is done by The temperature sensor 200 includes a thermistor 210 and a connection state voltage generator 220. The voltage comparator 230 includes a reference voltage generator 240 and a comparator 245. The power control unit 250 includes a logical product operator 260 and a logic inverter 270.

The thermistor 210 has a variable resistance value as the temperature of the fixing unit changes. The thermistor 210 has a high resistance value when the temperature of the fixing unit is inversely proportional to the temperature of the fixing unit, and a low resistance value when the temperature of the fixing unit is high.

)에 의해 입력 전압(

)을 분배하여 정착기의 온도에 상응하는 온도 전압(

)을 생성한다. 온도 전압(

)은 다음 식과 같이 입력 전압(

)을 분배하여 얻을 수 있다.The temperature sensing unit 200 may include a resistor as the current applied to the thermistor 210 changes.

Input voltage by

), So that the temperature voltage (

). Temperature voltage (

) Is the input voltage (

Can be obtained by distributing

는 써미스터(210)의 저항 값이다.here,

Is the resistance value of the thermistor 210.

)을 생성한다. 기준 전압(

)은 다음 식과 같이 입력 전압(

)이 저항

와 저항

에 의하여 분배하여 얻을 수 있다.The reference voltage generating unit 240 has a reference voltage corresponding to the temperature of a fixing roller suitable for fixing the toner on the printing paper.

). Reference voltage

) Is the input voltage (

Resistance

With resistance

Can be obtained by dispensing.

가 접지되어 있으므로 기준 전압을 보다 안정적으로 생성시킬 수 있다.As illustrated, when the thermistor 210 is disconnected, the reference voltage generator 240

Is grounded, resulting in a more stable generation of reference voltage.

)을 저항

와

에 의해 분배하여 전원 제어부(250)에서 써미스터(210)의 단선을 감지할 수 있도록 써미스터(210)의 연결 상태를 나타내는 연결상태 전압(

)을 제공한다. 상기 단선은 써미스터(200) 자체의 고장, 용접 불량, 리드(lead) 선 불량 등에 의해 유발될 수 있다.The connection state voltage generator 220 generates a temperature voltage generated by the temperature sensor 200 (

Resistance)

Wow

Connection state voltage indicating the connection state of the thermistor 210 so as to be distributed by the power control unit 250 to detect the disconnection of the thermistor 210

). The disconnection may be caused by failure of thermistor 200 itself, poor welding, poor lead wire, or the like.

)과 기준전압 생성부(220)에서 생성된 기준 전압(

)을 비교한다. The voltage comparator 230 is a temperature voltage generated by the temperature sensor 200 (

) And the reference voltage generated by the reference voltage generator 220

).

)이 기준 전압(

) 보다 높다면, 전원 제어부(250)에 논리 레벨 HIGH를 출력하고, 온도 전압(

)이 기준 전압(

) 보다 낮다면 전원 제어부(250)에 논리 레벨 LOW를 출력한다. Comparator 245 is a temperature voltage (

) Is the reference voltage (

If higher than), the logic level HIGH is output to the power supply controller 250, and the temperature voltage (

) Is the reference voltage (

If lower than), the logic level LOW is output to the power supply controller 250.

The main controller (not shown) of the printing apparatus outputs a logic level HIGH or LOW in order to control the power supply of the fuser by software judgment with respect to external factors of the power supply control device of the fuser of the present invention.

)이 소정의 한계 전압을 초과하면 정착기의 전원을 오프하는 제어 신호를 생성한다. The power control unit 240 generates a signal for controlling the power of the fuser according to the resistance value of the thermistor 210 which varies according to the current temperature of the fuser, whether the thermistor 210 is disconnected, and the judgment of the main controller (not shown). . In addition, the power controller 240 disconnects the thermistor 210 and outputs the connection state voltage (outputted from the connection state voltage generator 220).

) Exceeds a predetermined threshold voltage, generates a control signal to turn off the fuser.

)을 반전시켜 논리 곱 연산기(260)에 출력한다. 상기 논리 곱 연산기(260)는 비교기(245), 주 제어기(미도시) 및 논리 반전기(270)로부터 입력된 논리 레벨을 연산하여 정착기의 전원 제어 신호를 생성한다.The power control unit 240 includes a logic product operator 260 and a logic inverter 270. The logic inverter 270 is a connection state voltage generated by the connection state detection unit 220 (

) Is inverted and output to the logical product operator 260. The logic product operator 260 calculates a logic level input from the comparator 245, the main controller (not shown), and the logic inverter 270 to generate a power control signal of the fuser.

When the logic level input from the comparator 245, the main controller (not shown), and the logic inverter 270 are all high, the logic product operator 260 generates a control signal for turning on the power of the fuser. At least one of the input logic levels generates a control signal that turns off the power of the fuser when the logic level is LOW.

)은 다음 식과 같이 된다.If disconnection of the thermistor 210 occurs, the resistance value of the thermistor 200 becomes infinite and the temperature voltage (

) Becomes the following equation.

)이 기준 전압(

)을 초과하여 전압 비교부(230)는 전원 제어부(250)에 논리 레벨 HIGH를 출력하여 정착기의 전원을 온(ON) 하는 제어 신호를 생성한다. 그러나 연결상태전압 생성부(240)의 연결상태 전압(

)은 다음 식과 같이 된다.In this case, the temperature voltage (

) Is the reference voltage (

The voltage comparator 230 outputs a logic level HIGH to the power control unit 250 to generate a control signal for turning on the power of the fuser. However, the connection state voltage of the connection state voltage generator 240 (

) Becomes the following equation.

)가 전원 제어부(250)의 논리 반전기(270)를 통과하면 논리 레벨 LOW가 출력된다. 이에 의하여 논리 레벨 LOW가 전원 제어부(250)의 논리 곱 연산기(260)에 입력되여 정착기의 전원을 오프(OFF)하는 제어 신호를 생성한다. In this case, the connection voltage (

Is passed through the logic inverter 270 of the power control unit 250, the logic level LOW is output. As a result, the logic level LOW is input to the logic multiplier 260 of the power control unit 250 to generate a control signal for turning off the power of the fuser unit.

3 is a flowchart illustrating an embodiment of a temperature control method of a fixing apparatus according to the present invention.

First, as the current temperature of the fixing unit changes, the resistance value of the thermistor 210 is changed (step 300).

The current applied to the thermistor 210 is changed by the resistance value of the thermistor 210 which is varied in step 300 to generate a temperature voltage corresponding to the temperature of the fixing unit (step 310).

In operation 310, the temperature voltage generated in operation 310 is divided by a resistor to determine whether the connection state voltage indicating the connection state of the thermistor 210 exceeds a predetermined limit voltage (operation 320). The limit voltage refers to a voltage generated when the thermistor is disconnected.

If the connection state voltage exceeds the predetermined threshold voltage in operation 320, the controller 110 controls to turn off the power of the fixing unit (operation 330).

If the connection state voltage does not exceed the predetermined threshold voltage in step 320, it is determined whether the temperature voltage exceeds the reference voltage (step 340).

If the temperature voltage exceeds the reference voltage in step 340, the controller 110 controls to turn on the power of the fuser (step 350).

If the temperature voltage does not exceed the reference voltage in step 340, the controller 110 controls to turn off the power of the fuser (step 360).

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. I will understand that. Therefore, the true technical protection scope of the present invention will be defined by the appended claims.

According to the method and apparatus for controlling the temperature of the fixing apparatus according to the present invention, stably generate a voltage that is a reference for controlling the power supply of the fixing apparatus to accurately control the temperature of the fixing apparatus, and detect the disconnection of the thermistor by a simple circuit. Control the power.

In this way, the temperature of the fixing unit can be more stably and accurately controlled to improve print quality and safety, and the circuit reliability can be ensured by the simpler disconnection detection circuit.

Claims (7)

In the apparatus for controlling the temperature of the fixing unit, A temperature sensor for outputting a first voltage for controlling the temperature of the fixing unit by converting the temperature of the fixing unit as the temperature of the fixing unit changes; A voltage comparison unit configured to compare the first voltage with a predetermined reference voltage and output a first control signal for detecting a temperature higher than or equal to a reference temperature of the fixing unit; A connection state voltage generation unit configured to output a second control signal for detecting disconnection of a temperature sensing unit using the first voltage; and And a power control unit for turning off the power of the fuser according to the first control signal or the second control signal. The method of claim 1, wherein the voltage comparison unit A reference voltage generator configured to distribute a power supply voltage by a first resistor and a second grounded resistor to generate the reference voltage; And And a comparator for comparing the first voltage and the reference voltage. The method of claim 1, wherein the temperature sensing unit And a thermistor for outputting the first voltage by varying a resistance value as the temperature of the fuser changes. The method of claim 1, The connection state voltage generator includes a logic inverter, And the second control signal is a signal obtained by logically inverting a second voltage obtained by distributing the first voltage using third and fourth resistors. In the apparatus for controlling the temperature of the fixing unit, Generating a first voltage controlling the temperature of the fixing unit by converting the temperature of the fixing unit as the temperature of the fixing unit changes; Outputting a second control signal for detecting disconnection by logically inverting the second voltage divided by the first voltage; Outputting a first control signal that senses a temperature above a reference temperature of the fuser by comparing the first voltage with a predetermined reference voltage; And And turning off the power of the fuser according to the first control signal or the second control signal. The method of claim 1, And the power control unit turns off the power of the fuser according to a result of a logical product operation of the first control signal or the second control signal. The method of claim 1, The power control unit is a fuser temperature control device, characterized in that the logical multiplier.

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