DE2335718C3 - Heating device for photographic, in particular electrophotographic, copiers - Google Patents

Description

The invention relates to a heating device for photographic, in particular electrophotographic, copiers, with a resistance heating element and a control device to keep a certain one constant Temperature.

It is usually necessary that the fixing heater a xerographic copier generates a heating temperature which is within certain Limits. If the heating temperature is excessively high, the copies may be damaged, which pass through the fuser heater unit. On the other hand, if the temperature is too low, nothing will be done sufficiently Melting the developer powder onto the copies.

A problem that often arises when using the copier is the drop in the AC supply voltage. This causes the heating elements of the fixing heater unit to emit less heat, see above that the temperature in the fixing heater unit drops. For example, it has been found that when there is a voltage drop of around 15%, the fuser heating unit of a copier machine developed too little V.'arm to still to ensure sufficient melting.

It is therefore the object of the present invention to provide a heating device for photographic copiers create, which develops enough heat to ensure a clean fixation of the copy to be produced. So it should / .. B. in an electrophotographic copier, the developer powder also in a voltage drop in the network cleanly on the copy be melted. The heating unit is also supposed to be veriiinismal emiauii uuu umig m uci ι IciSicnüng Sciil.

According to the invention, this is achieved in a copier of the type mentioned in that the heating element is connected in parallel with a further heating element, in whose circuit there is a current control valve is arranged, and by a control circuit for the valve, the control voltage of the level of the input voltage depends on the heating device

An embodiment of the invention will now be described with reference to the drawing. It shows

ίο F i g. 1 is a simplified side view of an electrophotographic Copier using a heater according to the present invention, and

F i g. 2 is a schematic circuit diagram of the heating device according to FIG. 1.

The in F i g. 1 shown schematic representation of an electrophotographic copier shows a photoconductive drum 11, a developing powder unit 13, a cleaning brush 15, an optical system 17, an image transfer unit 19 and a heater 21. The manner in which the copier according to FIG. 1 produces images from developing powder on copier paper 23 is known and is therefore not explained in detail. The copies 23 bearing images of developing powder are placed under the heater 21 passed through, which develops heat to melt the developer powder onto the copy sheets 23. It should be noted that the heating device has a first heating element 25 and a further heating element 27 owns.

As can be seen from the electrical circuit diagram of FIG. 2 as can be seen are the heating element 25 and the Another heating element 27 is applied in parallel to the supply voltage of the terminals 29. In series with the other Heating element 27 is connected to a flow control valve 31 in the form of a triac.

The current flow through the current control valve 31 is controlled by a control voltage which is applied to the valve control voltage terminal 33 appears, controlled. This control voltage is generated by a voltage divider and Control circuit 35 supplied, which has a fixed resistor 37, a photo resistor 39 and a parallel thereto switched capacitor 41 contains. The conductivity of the photoresistor 39 is determined by the action on it incident light increases.

A light source, e.g. B. a lamp 43 is also connected to the terminals 29 for the mains voltage. A solid-state element, for example a gallium arsenide diode, could also be used as the light source will. Solid-state elements of this type have the advantage that they are practically not subject to aging. the The lamp responds to the supply voltage and generates a light intensity that is proportional to the supply voltage is. A potentiometer 45 is connected in series with the lamp 43 in order to increase the sensitivity of the lamp 43 adjust. The lamp 43 and photoresistor 39 are spatially arranged next to one another that the light of the lamp 43 can fall onto the photoresistor 39, thereby increasing the conductivity of the photoresistor raise.

In operation, when the mains voltage is normal, a normal current flows through the Heating element 25. so that it radiates the desired amount of energy in the form of heat. As a result

<> 5 / the heater 21 constricts enough heat to generate the Melt developing powder onto the copy paper 23. With this size of the supply voltage cr-.4; .. ι.,. "" "λί

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ability of the photoresistor 39 to be kept relatively high, so that the peaks of the control signal at the valve control voltage terminal 33 have relatively low amplitudes. Therefore, the flow control valve 31 is not operated, so that no current flows through the further heating element 27

When the supply voltage drops, the lamp 43 generates less light, but when less light is on the photoresistor 39 falls so the resistance of the same increases. This causes the amplitude peaks of the control signal at the valve control voltage terminal 33 increase. At a certain value of the Mains voltage, for example 10% below the setpoint, is determined by the control voltage at the valve control voltage terminal 33 the current control valve (triac) 31 is put into operation and current flows through the other Heating element 27, which therefore generates heat. This heat is in addition to the heat generated by the heating element 25 generates effectively so as to increase the amount of heat generated by the heater 21 will. Therefore, when the mains voltage drops in the vicinity of a value in which the heating element 25 does not is more able to generate enough heat, the triac 31 is switched on so that the heating element 27 generates additional heat. It can be seen that the heating device according to the invention is simple i <nd represents a cheap device to compensate for the voltage drop

In the present embodiment, the control of the triac 3ί has basically binary or El N-A US character. In the area of about 10% The triac can, for example, have a voltage drop or of approximately 108 volts at a nominal voltage of 120VoIt can only be put into operation during part of a period. The components of the monitoring and Control circuit are chosen so that the area of the supply voltage over which this type of Operation is limited. As a result, no current can flow in a typical embodiment through the heating element 27 when the supply voltage is greater than 108 volts, but it does Current flow takes place during each period when the supply voltage drops below 108 volts.

Here 1 sheet of drawings

Claims (5)

Patent claims: 1. Heating device for photographic, in particular electrophotographic copiers, with a Resistance heating element and a control device to keep a certain temperature constant, characterized in that a further heating element (27) is parallel to the heating element (25) is switched, in whose circuit a current control valve (31) is arranged, and by a control circuit for the valve, its control voltage depends on the level of the input voltage of the heating device. 2. Heating device according to claim 1, characterized in that the control voltage for the valve (31) is taken from a voltage divider, one branch of which is one of the input voltage the heating device has dependent resistance. 3. Heating device according to claim 2, characterized in that the voltage-dependent resistor of the voltage divider is a photoresistor (39) fed by the input voltage Lamp (43) is illuminated. 4. Heating device according to claim 2 or 3, characterized in that the valve (31) is a triac is. 5. Heating device according to claim 2, 3 or 4, characterized in that in its resistance A capacitor connected in parallel with the branch of the voltage divider that is dependent on the input voltage is.