JP2003122231A - Copying machine with dew condensation preventing function - Google Patents

Abstract

PROBLEM TO BE SOLVED: To automatically turn on-off a heater for preventing dew condensation on the basis of a temperature in a device by using a simple configuration without allowing a user to turn on-off the heater for preventing dew condensation when the power source is automatically turned off in an auto-off mode. SOLUTION: A copying machine comprising a rectifying and smoothing circuit 12 for rectifying an AC power supply 11 to DC voltage, a DC-DC converter circuit 14 for converting the DC voltage to a rectangular voltage by switching on-off a transistor for voltage control to obtain a predetermined DC voltage, and a control circuit 13 for supplying an on-off signal to the transistor for voltage control, is provided with a dew condensation preventing heater 21 for preventing dew condensation by raising the temperature in the device, and a thermostat 22 which is arranged in the vicinity of the transistor 18 for voltage control and turns on the power to be supplied to the dew condensation preventing heater 21 when the temperature becomes lower than a pre-set temperature.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a copying machine having a dew condensation preventing function for preventing dew condensation by using a heater when power is turned off.

[0002]

2. Description of the Related Art In a copying machine, heat is trapped inside a casing forming the outer shape of the copying machine. Therefore, when the power switch is turned off in the winter when the outside air temperature is lowered, the temperature inside the apparatus is rapidly cooled to below zero degree by the outside air. Then, when the outside temperature suddenly rises due to heating or the like, dew condensation was generated inside the device. Then, in order to prevent such dew condensation, a dew condensation prevention heater is provided, and the dew condensation prevention heater is activated in conjunction with the turning off operation of the power switch so that the internal temperature of the device is controlled not to fall below zero degree.

However, due to the recent trend of energy saving, regardless of whether the power switch is turned on or off by the user, the power supply is automatically turned off when the power is turned on and is not used for a predetermined time (hereinafter referred to as "auto-off"). Mode.)). However, when the auto-off mode function is installed, the state of the manual power switch does not change, so the dew condensation prevention heater that is activated in conjunction with this does not operate, and there is a problem that dew condensation occurs inside the device. Therefore, as a countermeasure against dew condensation in a device having an auto-off mode function, the following method has been conventionally adopted.

That is, firstly, the dew condensation prevention heater is activated by a manual operation of the user without providing the activation of the dew condensation prevention heater with the OFF operation of the power switch, by separately providing a manual switch dedicated to the dew condensation prevention heater. There was a countermeasure.

Secondly, the activation of the dew condensation prevention heater is not interlocked with the OFF operation of the power switch, but it is monitored whether or not the mode is switched to the auto-off mode, and automatically in conjunction with the transition to the auto-off mode. There was a measure to operate the dew condensation prevention heater.

[0006]

However, according to the above-mentioned conventional technique, the following problems have occurred.

That is, in the case of the first measure, the user must perform the operation for preventing dew condensation, so that if the user forgets to turn on the manual switch dedicated to the dew condensation prevention heater, there is a problem that dew condensation occurs in the apparatus. there were. Further, if the power switch of the device is turned on and the manual switch dedicated to the dew condensation prevention heater is forgotten to be turned off, the temperature inside the device rises more than necessary, causing a problem.

Further, in the case of the above second measure, the dew condensation preventing heater is automatically operated in conjunction with the shift to the auto off mode, so that the dew condensation is irrespective of whether the temperature inside the apparatus has reached zero degrees or not. The prevention heater operates. Therefore, also in this case, there is a problem that the temperature in the apparatus rises more than necessary. Further, the auto-off mode is a mode in which the device automatically shifts when the device satisfies a predetermined condition for energy saving, and therefore frequently occurs. Therefore, there is a problem that the dew condensation preventing heater is frequently turned on and off in conjunction with the shift to the auto off mode. Furthermore, if a relay is used to turn on / off the dew condensation prevention heater, the relay has a life. Therefore, if it is turned on / off frequently, the life of the relay will be shortened.

Regarding this problem, it is considered that a temperature sensor is provided in the apparatus and the dew condensation prevention heater is turned on / off in synchronization with the detection result. In this case, a separate component such as a temperature sensor is newly required. Therefore, there arises a problem that the number of parts increases and the cost increases.

Therefore, according to the present invention, when the power supply is automatically turned off in the auto-off mode, the user does not have to turn on / off the dew condensation prevention heater and the automatic operation is performed based on the temperature in the apparatus with a simple structure. Another object of the present invention is to provide a copying machine with a condensation prevention function that can turn on and off a condensation prevention heater.

[0011]

In order to solve the above-mentioned problems, the present invention maintains a predetermined temperature during operation in the normal mode, but after the transition to the auto-off mode or after the power switch is turned off, the predetermined temperature is maintained. A thermostat was installed in the vicinity of such a part, whose temperature drops below a predetermined value after a lapse of time, and the thermostat was used as an on / off switch of the dew condensation prevention heater.

[0012]

BEST MODE FOR CARRYING OUT THE INVENTION A copying machine with a dew condensation preventing function according to a first aspect of the present invention is a rectifying / smoothing circuit for converting an AC power supply into a DC voltage, and the DC voltage is converted into a rectangular voltage by turning on / off a voltage control transistor. DC to obtain a predetermined DC voltage
/ DC conversion circuit, a controller that supplies an on / off signal to the voltage control transistor, a dew condensation prevention heater that raises the temperature in the device to prevent dew condensation, and a preset temperature that is arranged near the voltage control transistor. A thermostat that is turned on to supply power to the dew condensation prevention heater is provided below.

By adopting such a configuration, since the thermostat is arranged in the vicinity of the voltage control transistor in the existing DC / DC conversion circuit, it is not necessary to manually turn on / off the dew condensation prevention heater, but also separately. Without providing a temperature sensor and increasing the number of parts, the dew condensation prevention heater can be turned on and off automatically based on the temperature inside the device with a simple configuration. As a result, it is possible to prevent the temperature inside the apparatus from rising more than necessary due to the dew condensation preventing heater and causing an abnormality.

Further, since the dew condensation prevention heater is turned on and off based on the temperature inside the apparatus using the thermostat, the dew condensation prevention heater cannot be turned on only by shifting to the auto-off mode, and when the temperature inside the apparatus falls. Only turn on the anti-condensation heater. As a result, it is possible to eliminate the inconvenience of frequently and unnecessarily turning on and off the dew condensation prevention heater as in the case of turning on and off the dew condensation prevention heater in conjunction with the shift to the auto-off mode.

Further, since the dew condensation preventing heater is turned on and off based on the temperature inside the apparatus, the dew condensation preventing heater is not turned on only by shifting to the auto off mode, and the thermostat is not frequently turned on and off unnecessarily. The life of the thermostat can be extended.

A copying machine with a dew condensation preventing function according to a second aspect of the present invention controls a fixing heater for supplying heat for fixing toner onto a recording sheet and a voltage supplied to the fixing heater by turning on / off a gate terminal. A triac, a dew condensation preventing heater that raises the temperature in the device to prevent dew condensation, and a thermostat that is arranged near the triac and that turns on and supplies power to the dew condensation preventing heater when the temperature falls below a predetermined set temperature. It was supposed to be equipped.

By adopting such a configuration, the thermostat is arranged in the vicinity of the triac for controlling the supply voltage of the existing fixing heater, so that it is not necessary to manually turn on / off the dew condensation preventing heater, but also a temperature sensor is separately provided. It is possible to automatically turn on / off the dew condensation preventing heater based on the temperature inside the apparatus with a simple configuration without providing the above and without increasing the number of parts. As a result, it is possible to prevent the temperature inside the apparatus from rising more than necessary due to the dew condensation preventing heater and causing an abnormality.

Further, since the dew condensation preventing heater is turned on and off based on the temperature inside the apparatus using the thermostat, the dew condensation preventing heater cannot be turned on only by shifting to the auto off mode, and when the temperature inside the apparatus drops. Only turn on the anti-condensation heater. As a result, it is possible to eliminate the inconvenience of frequently and unnecessarily turning on and off the dew condensation prevention heater as in the case of turning on and off the dew condensation prevention heater in conjunction with the shift to the auto-off mode. Further, since the thermostat is not frequently turned on and off unnecessarily, the life of the thermostat can be extended.

A copying machine with a dew condensation preventing function according to a third aspect of the present invention controls a fixing heater for supplying heat for fixing toner to a recording sheet and a voltage supplied to the fixing heater by turning on / off a gate terminal. A transistor, a dew condensation preventing heater that raises the temperature in the device to prevent dew condensation, and a thermostat that is arranged in the vicinity of the transistor and that turns on and supplies power to the dew condensation preventing heater when the temperature falls below a predetermined set temperature. It was supposed to be equipped.

By adopting such a configuration, since the thermostat is arranged in the vicinity of the transistor for controlling the supply voltage of the existing fixing heater, the dew condensation prevention heater is not manually turned on and off, but a temperature sensor is separately provided. It is possible to automatically turn on / off the dew condensation preventing heater based on the temperature inside the apparatus with a simple configuration without providing the above and without increasing the number of parts. As a result, it is possible to prevent the temperature inside the apparatus from rising more than necessary due to the dew condensation preventing heater and causing an abnormality.

Further, since the dew condensation preventing heater is turned on and off based on the temperature inside the apparatus by using the thermostat, the dew condensation preventing heater cannot be turned on only by shifting to the auto-off mode, and when the temperature inside the apparatus drops. Only turn on the anti-condensation heater. As a result, it is possible to eliminate the inconvenience of frequently and unnecessarily turning on and off the dew condensation prevention heater as in the case of turning on and off the dew condensation prevention heater in conjunction with the shift to the auto-off mode. Further, since the thermostat is not frequently turned on and off unnecessarily, the life of the thermostat can be extended.

Embodiments of the present invention will be specifically described below with reference to the drawings.

(Embodiment 1) FIG. 1 is a configuration diagram of a portion related to a condensation prevention function of a copying machine with a condensation prevention function according to a first embodiment of the present invention. The copying machine shown in FIG. 1 has a control circuit 1 for an AC power source 11 via a rectifying / smoothing circuit 12.
3 is configured to be supplied with power. Between the rectifying / smoothing circuit 12 and the control circuit 13, a main DC / DC
The converter 14 and the standby DC / DC converter 15 are inserted in parallel, and the power supplied from the rectifying / smoothing circuit 12 to the control circuit 13 is supplied to the main DC / DC converter 14
Alternatively, it is converted into a rectangular wave DC voltage by the standby DC / DC converter 15, and further converted into a DC voltage of a constant value via the LC filters 24 and 25. In addition, AC power supply 11
A power switch 16 that is turned on and off by the user is provided between the rectifying and smoothing circuit 12. Power switch 16
When is turned off, the AC power supply 11 is disconnected from the rectifying / smoothing circuit 12, and the power supply to the control circuit 13 is cut off.

In the main DC / DC converter 14, the primary side of the transformer 17 and the voltage control transistor 18 are connected in the forward direction between the both terminals of the rectifying / smoothing circuit 12, and the secondary side of the transformer 17 is connected to the power supply terminal of the control circuit 13. Connected to. Then, the voltage control transistor 18 is on / off controlled between the collector and the emitter by a pulse signal applied to the base from the pulse generation circuit 19, and the control circuit 1
The rectangular wave DC voltage supplied to 3 is controlled. The pulse generation circuit 19 controls the on / off cycle of the pulse signal applied to the base of the voltage control transistor 18 by the on / off signal provided from the control circuit 13. Therefore,
The control circuit 13 controls the on / off cycle of the pulse signal applied to the voltage control transistor 18,
A rectangular wave DC voltage is generated, then converted into a DC voltage having a constant value via the LC filter 24, and supplied to the control circuit 13. In addition, the control circuit 1 shifts to the auto off mode.
It is realized by giving only the OFF signal from 3 to the pulse generation circuit 19 and stopping the pulse signal applied from the pulse generation circuit 19 to the base of the voltage control transistor 18. The standby DC / DC converter 15 is also the main D
It has the same configuration as the C / DC converter 14. However, although the operation of the main DC / DC converter 14 is completely turned off when shifting to the auto-off mode, the standby D
The operation of the C / DC converter 15 is not completely turned off even if it shifts to the auto-off mode.

On the other hand, the dew condensation prevention device 20 is connected to the AC power supply 11 without the power switch 16. The dew condensation prevention device 20 is provided with a dew condensation prevention heater 21 that is supplied with power from the AC power supply 11, and a thermostat 22 that is provided between the AC power supply 11 and the dew condensation prevention heater 21 and that functions as a switch that turns on and off the power supply to the dew condensation prevention heater 21.
Composed of and. The thermostat 22 is installed near the voltage control transistor 18. The installation position of the thermostat 22 is preferably a place where the temperature change of the voltage control transistor 18 can be detected with high accuracy. Further, the thermostat 22 opens its contacts when the temperature exceeds an arbitrary set value from the low temperature side, and the dew condensation prevention heater 2
The power supply to 1 is stopped, and the power supply is disconnected. On the other hand, when the temperature falls below the set value from the high temperature side, the contacts are closed and power is supplied to the dew condensation prevention heater 21. The set value is set to a desired temperature by the manufacturer or the user.

Further, the fixing control circuit 23 is connected to the AC power supply 11 via the power switch 16. The fixing control circuit 23 is a circuit that controls the fixing operation based on an on / off signal from the control circuit 13. When the power switch 16 is turned off, the power supply is cut off together with the control circuit 13.

Next, the operation of the copying machine configured as described above will be described with reference to FIG. FIG. 2 is a diagram showing the relationship between the temperature of the thermostat 22 and the energization state of the dew condensation preventing heater 21 when the normal mode is switched to the auto off mode.

As shown in FIG. 2, when the copying machine operates in the normal mode and shifts to the auto-off mode at time T1, the control circuit 13 causes the pulse generating circuit 19 to operate as shown in FIG. The ON signal of a) is given. The pulse generation circuit 19 outputs a pulse signal to the voltage control transistor 18 while the ON signal is applied. The voltage control transistor 18 is driven by the pulse signal, outputs a rectangular waveform output waveform as shown in FIG. 2B, and supplies a DC voltage to the control circuit 13 via the transformer 17 and the LC filter 24. .

Since a current is flowing while the voltage controlling transistor 18 is driven, the voltage controlling transistor 18 maintains a predetermined temperature. Therefore, the thermostat 2 installed near the voltage control transistor 18 to monitor the temperature of the voltage control transistor 18
The temperature of 2 also maintains a high temperature exceeding the set temperature K as shown in FIG. Then, as shown in FIG. 2D, while the temperature of the thermostat 22 exceeds the set temperature K, the power supply to the dew condensation prevention heater 21 is stopped.

On the other hand, when the normal mode is switched to the auto-off mode at time T1, the ON signal given from the control circuit 13 to the pulse generating circuit 19 changes to the OFF signal as shown in FIG. 2 (a). As a result, the pulse generation circuit 19 stops the output of the pulse signal, so that the driving of the voltage control transistor 18 is stopped and the supply of the main side DC voltage of the control circuit 13 is stopped as shown in FIG. 2B. It When the driving of the voltage control transistor 18 is stopped,
Since no current flows, the temperature gradually decreases immediately after that. As a result, the temperature of the thermostat 22 starts to decrease as the temperature near the voltage control transistor 18 decreases. When the driving of the voltage control transistor 18 is not restarted as it is, the temperature of the thermostat 22 continues to decrease as shown in FIG. 2C, and falls below the set temperature K at a certain point (T2). When the temperature of the thermostat 22 falls below the set temperature K, the thermostat 22 is turned on as shown in FIG. 2D, and as a result, the dew condensation prevention heater 21 and the AC power supply 11 are connected to each other to start energization. When the dew condensation prevention heater 21 is energized, the dew condensation prevention heater 21 keeps the inside of the copying machine at a predetermined temperature thereafter.

As described above, by disposing the thermostat 22 in the vicinity of the voltage control transistor 18 in the existing DC / DC converter 14, the dew condensation prevention heater 21 is not turned on / off manually, but the temperature is separately set. Since no sensor is provided, the dew condensation prevention heater 21 can be automatically turned on / off based on the temperature inside the apparatus with a simple configuration without increasing the number of parts. As a result, it is possible to prevent the dew condensation prevention heater 21 from raising the temperature in the apparatus more than necessary and causing an abnormality.

Further, by using the thermostat 22 to turn on / off the dew condensation preventing heater 21 based on the temperature inside the apparatus, the dew condensation preventing heater 21 cannot be turned on only by shifting to the auto-off mode, and the temperature inside the apparatus can be controlled. Only when the temperature drops, the dew condensation prevention heater 21 is turned on. As a result, the condensation prevention heater 21 is interlocked with the transition to the auto-off mode.
It is possible to eliminate the inconvenience of frequently and unnecessarily turning on and off the dew condensation preventing heater 21 as in the case of turning on and off.

Further, by turning on / off the dew condensation preventing heater 21 based on the temperature inside the apparatus, the dew condensation preventing heater 21 is not turned on only by shifting to the auto-off mode, and the thermostat 22 is frequently turned on / off unnecessarily. Since it does not occur, the life of the thermostat 22 can be extended.

(Second Embodiment) Next, a copying machine according to a second embodiment of the present invention will be described.

FIG. 3 is a block diagram of a portion related to the condensation prevention function of the copying machine with the condensation prevention function according to the second embodiment. The same parts as those of the copying machine according to the first embodiment described above are designated by the same reference numerals to avoid duplication of description.

The copying machine of this embodiment is provided with a dew condensation prevention device 3
0 is connected to the AC power supply 11 without the power switch 16. The dew condensation prevention device 30 includes a dew condensation prevention heater 31 which is supplied with power from the AC power supply 11, and an AC power supply 1
1 and a dew condensation prevention heater 31 and a thermostat 32 that functions as a switch for turning on and off the power supply to the dew condensation prevention heater 31. Details of the installation position of the thermostat 32 will be described later.

Further, the fixing control circuit 33 is connected to the AC power supply 11 via the power switch 16. The fixing control circuit 33 includes a fixing heater 34 including an AC-driven fixing lamp that generates heat for fixing the toner onto the recording paper, and a triac 35 interposed between the fixing heater 34 and the AC power supply 11. Composed. The triac 35 is supplied with an on / off signal from the control circuit 13 to the gate terminal, and turns on / off the gate terminal input to turn on / off the AC voltage applied to the fixing heater 34 to keep the temperature of the fixing heater 34 constant. I am trying.

Here, the installation position of the thermostat 32 is preferably a place where the temperature change of the triac 35 of the fixing control circuit 33 can be detected with high accuracy. In the present embodiment, the dew condensation prevention device 3 is provided near the triac 35.
A thermostat 32 of 0 was installed.

Next, the operation of the present embodiment configured as described above will be described with reference to FIG. FIG. 4 is a diagram showing the relationship between the driving state of the fixing heater 34, the temperature of the thermostat 32, and the energization state of the dew condensation preventing heater 31 when the normal mode is switched to the auto-off mode.

As shown in FIG. 4, when the copying machine operates in the normal mode and shifts to the auto-off mode at time T1, the control circuit 13 causes the pulse generation circuit 19 to operate as shown in FIG. The ON signal of a) is given. The pulse generation circuit 19 outputs a pulse signal to the voltage control transistor 18 while the ON signal is applied. The voltage control transistor 18 is driven by the pulse signal, outputs a rectangular wave output waveform as shown in FIG. 4B, and a DC voltage is supplied to the control circuit 13 via the transformer 17 and the LC filter 24. It On the other hand, the fixing control circuit 33 which receives the on / off signal from the control circuit 13
Then, an ON / OFF signal is applied to the gate terminal of the triac 35, and an AC voltage may or may not be applied to the fixing heater 34 as shown in FIG. 4C. As a result, the amount of heat generated by the fixing heater 34 is stabilized, and the heat required for fixing is generated. At this time, since the temperature of the triac 35 has risen to a high temperature exceeding the set temperature K of the thermostat 32 due to the current flowing between the terminals, the thermostat installed near the triac 35 as shown in FIG. 4D. The temperature of 32 has also risen to a temperature exceeding the set temperature K and is in an off state. When the thermostat 32 is off, the dew condensation preventing heater 31 remains in a non-energized state.

On the other hand, when the normal mode is switched to the auto-off mode at time T1, as shown in FIG. 4 (a), the control circuit 13 causes the pulse generation circuit 19 and the fixing control circuit 33 to operate.
The ON signal and the ON / OFF signal given to the switch change to the OFF signal. As a result, the pulse generation circuit 19 stops the output of the pulse signal, so that the driving of the voltage control transistor 18 is stopped as shown in FIG.
The supply of the main side DC voltage is also stopped. Further, in the fixing control circuit 33, since the supply of the on / off signal given to the triac 35 is completely stopped, the triac 35 is completely turned off and the application of the AC voltage to the fixing heater 34 is also completely stopped. . As a result, power consumption during standby can be suppressed.

When the triac 35 is completely turned off at the time T1, the temperature of the triac 35 gradually decreases, and if it does not return to the normal mode, it falls below the set temperature K of the thermostat 32 at the time T2. Figure 4
As shown in (e), when the temperature in the vicinity of the triac 35 falls below the set temperature K, the thermostat 32 is turned on to start energizing the dew condensation prevention heater 31. As a result, after switching to the auto off mode, the triac 3
When the temperature in the vicinity of 5 falls below the set temperature K, the dew condensation preventing heater 31 is energized to prevent the temperature inside the device from dropping to a predetermined temperature or lower.

As described above, by disposing the thermostat 32 near the triac 35 in the existing fixing control circuit 33, the dew condensation preventing heater 31 is not manually turned on and off, and a separate temperature sensor is not provided. It is possible to automatically turn on / off the dew condensation preventing heater 31 based on the temperature inside the device with a simple configuration without increasing the number of parts. As a result, it is possible to prevent the dew condensation prevention heater 31 from raising the temperature in the apparatus more than necessary and causing an abnormality.

Further, by using the thermostat 32 to turn on / off the dew condensation preventing heater 31 based on the temperature inside the apparatus, the dew condensation preventing heater 31 cannot be turned on only by shifting to the auto-off mode, and the temperature inside the apparatus can be controlled. The condensation prevention heater 31 is turned on only when the temperature is lowered. As a result, the dew condensation prevention heater 31 is interlocked with the shift to the auto-off mode.
It is possible to eliminate the inconvenience that the dew condensation prevention heater 31 is frequently turned on and off unnecessarily as in the case of turning on and off. Furthermore, since the thermostat 32 is not frequently turned on and off unnecessarily, the life of the thermostat 32 can be extended.

(Third Embodiment) Next, a copying machine according to a third embodiment of the present invention will be described.

FIG. 5 is a block diagram of a portion related to the condensation prevention function of the copying machine with the condensation prevention function according to the third embodiment. The same parts as those of the copying machine according to the second embodiment described above are designated by the same reference numerals to avoid duplication of description.

The copying machine according to the third embodiment is different from the above-described second embodiment only in the structure of the fixing control circuit, and the other structures are the same. That is, in the present embodiment,
In this example, a transistor 41 is used in the fixing control circuit 40 instead of the triac. The fixing heater 34 is composed of an AC drive type film heater.
The alternating voltage shown in (c) is applied.

Thermostat 32 of dew condensation prevention device 30
Is installed near the transistor 41. This allows
The temperature near the transistor 41 becomes the temperature of the thermostat 32.

Then, as shown in FIG. 4D, the temperature exceeds the set temperature K of the thermostat 32 while the transistor 41 is on / off driven in the normal mode.
When switching to auto off mode or power switch 16
When the switch is turned off, the temperature gradually lowers and becomes lower than the set temperature K of the thermostat 32 after a lapse of a predetermined time. Therefore, the same operational effect as that of the second embodiment using the triac 35 can be obtained.

In Embodiments 2 and 3, the fixing heaters 32 and 34 are AC drive type heaters. However, the present invention is also applicable to DC drive type fixing heaters (for example, electromagnetic induction heaters). In this case, an AC / DC converter is provided between the AC power supply 11 and the fixing control circuits 33 and 40.

[0051]

As described above in detail, according to the present invention, when the power is automatically turned off in the auto off mode, the user does not have to turn on / off the dew condensation preventing heater and the inside of the apparatus has a simple structure. It is possible to provide a copying machine with a condensation prevention function that can automatically turn on / off the condensation prevention heater based on the temperature.

[Brief description of drawings]

FIG. 1 is a configuration diagram of a copying machine according to a first embodiment of the present invention.

FIG. 2 is a waveform chart of each part at the time of shifting to an auto-off mode in the copying machine according to the first embodiment.

FIG. 3 is a configuration diagram of a copying machine according to a second embodiment of the present invention.

FIG. 4 is a waveform chart of each part at the time of shifting to an auto off mode in the copying machine according to the second embodiment.

FIG. 5 is a configuration diagram of a copying machine according to a third embodiment of the present invention.

[Explanation of symbols]

11 AC power supply 12 Rectification smoothing circuit 13 Control circuit 14 Main DC / DC converter 15 Standby DC / DC converter 16 power switch 17 transformers 18 Voltage control transistor 20, 30 condensation prevention device 21, 31 Dew condensation prevention heater 22, 32 thermostat 23, 33, 40 Fixing control circuit 35 TRIAC 41 transistor

Claims (3)

[Claims] 1. A rectifying / smoothing circuit for converting an AC power supply into a DC voltage, and a DC / DC for converting the DC voltage into a rectangular voltage by turning on / off a voltage control transistor to obtain a predetermined DC voltage.
A conversion circuit, a controller that supplies an on / off signal to the voltage control transistor, a dew condensation prevention heater that raises the temperature in the device to prevent dew condensation, and a temperature set below a preset temperature that is arranged near the voltage control transistor. When this happens, a copying machine with a condensation prevention function equipped with a thermostat that turns on and supplies power to the condensation prevention heater. 2. A fixing heater for supplying heat for fixing toner to a recording sheet, a triac for controlling a voltage supplied to the fixing heater by turning a gate terminal on and off, and a dew condensation for increasing a temperature in the apparatus to prevent dew condensation. A copying machine with a dew condensation prevention function, comprising: an anti-condensation heater; and a thermostat which is arranged in the vicinity of the triac and turns on to supply power to the dew condensation prevention heater when the temperature falls below a predetermined set temperature. 3. A fixing heater for supplying heat for fixing toner to a recording sheet, a transistor for controlling a voltage supplied to the fixing heater by turning a gate terminal on and off, and a dew condensation for increasing a temperature in the apparatus to prevent dew condensation. A copying machine with a dew condensation prevention function, comprising: an anti-condensation heater; and a thermostat, which is arranged in the vicinity of the transistor and turns on when the temperature falls below a predetermined set temperature to supply power to the dew condensation prevention heater.