JPH0531987B2 - - Google Patents

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to a facsimile device equipped with an image sensor, and particularly to a facsimile device that prevents condensation on the image sensor and its vicinity (hereinafter referred to as the vicinity of the reading section). It is related to the device.

[Conventional technology]

FIG. 3 is a block diagram showing a part of a conventional facsimile device. In the figure, 1 is an image sensor, 8 is a temperature sensor that detects the temperature inside the facsimile device, 9 is a temperature detection circuit, and temperature sensor 8 When a predetermined temperature (set temperature) is detected from the output signal, an output signal is output. Reference numeral 10 denotes a heater control circuit, which turns on and off a planar heater 11 attached to or near the image sensor 1 based on an output signal from the temperature detection circuit 9.

Next, the operation will be explained.

The temperature detection circuit 9 detects the temperature based on the output signal of the temperature sensor 8 installed inside the facsimile device, and when the detected temperature is below a predetermined temperature, the temperature detection circuit 9 controls the planar heater 1 via the heater control circuit 10.
1 is turned on, and if the detected temperature is higher than a predetermined temperature, the plane heater 11 is turned off via the heater control circuit 10.

Therefore, until the temperature detection circuit 9 detects a predetermined temperature, the area near the reading section is heated by the flat heater 11, thereby preventing dew condensation from forming near the reading section.

[Problem that the invention seeks to solve]

Since the conventional facsimile device is configured as described above, it is necessary to separately provide the temperature sensor 8 to the plane heater 11 to prevent dew condensation.
The control circuit becomes expensive and complicated.

Further, since the image sensor 1 is heated from the outside to prevent dew condensation, there are problems such as dew condensation on the image sensor 1 cannot be effectively prevented.

The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a facsimile device that can effectively prevent dew condensation near the reading section and that can have a control circuit configured at low cost.

[Means for Solving the Problems] The facsimile device according to the present invention uses an output signal of a temperature detection circuit that detects the temperature of a thermal head to control a light emitting diode array drive circuit that turns on and off a light emitting diode array in an image sensor. The structure is such that dew condensation near the reading section is prevented by control.

[Effect]

The facsimile device according to the present invention keeps the light emitting diode array lit when the temperature of the thermal head is lower than the temperature set in the temperature detection circuit.

〔Example〕

An embodiment of the present invention will be described below with reference to the drawings.

In Fig. 1, 1 is an image sensor, 1a is a light emitting diode array (hereinafter referred to as an LED array) in the image sensor 1, 2 is a power source for driving the LED array, and 3 is an LED array drive that turns on and off the LED array 1a. The circuit 4 indicates an LED array control circuit, which controls the LED array drive circuit 3.

5 is a thermal head, 5a is a thermal head 5
The temperature sensor 6 is attached to the temperature detection circuit, and when a predetermined temperature (set temperature) is detected from the output signal of the temperature sensor 5, the output signal is sent to the LED.
It is output to the array drive circuit 3.

First, before explaining the operation, a general dew condensation phenomenon will be explained. Dew condensation occurs on the device due to the temperature difference between the atmosphere and the device. That is, there is no problem when both the temperature of the device and the surroundings of the device are low, but when the temperature of the surroundings of the device rises rapidly and the temperature of the device does not follow the temperature of the surroundings of the device, condensation occurs.

Therefore, in the facsimile device, the conditions at the time of early heating start in a cold region in winter match the above-mentioned conditions for dew condensation.

Next, the operation will be explained.

For example, if the temperature of the temperature detection circuit 6 is set to 15°C and the LED array 1a is turned on until the temperature of the thermal head 5 reaches 15°C, the temperature around the facsimile device will increase due to heating during low temperatures in winter. Even if the temperature rises rapidly, the LED array 1a will continue to be lit until the temperature of the thermal head 5 reaches 15°C.

Therefore, the area near the reading section can be warmed by the heat generated by the LED array 1a, the temperature near the reading section follows the temperature around the facsimile device, and no condensation occurs.

When the temperature of the thermage head 5 reaches 15° C., the LED array 1a is turned on and off under control from the original LED array control circuit 4. This is to avoid excessive heating of the image sensor 1 and reduce power consumption by keeping the LED array 1a lit.

Furthermore, as a matter of course, the fuchsia device can be used even while the LED array 1a continues to be lit in order to raise the temperature near the reading section.

In the above embodiment, the LED array drive circuit 3 is provided with two input lines, but as shown in FIG. It may also be configured to supply the LED array drive circuit 3 with the LED array drive circuit 3.

In addition, although the output signal of the temperature detection circuit 6 is directly supplied to the LED drive circuit 3, the output signal of the temperature detection circuit 6 is once detected by, for example, a central processing unit (CPU), and then the output signal of the temperature detection circuit 6 is first detected by a central processing unit (CPU), and then the output signal is sent to the LED drive circuit 3 using an output port or the like. Even if it is supplied to the drive circuit 3, the same effect can be obtained.

〔Effect of the invention〕

As described above, according to the present invention, the light-emitting diode array drive circuit that turns on and off the light-emitting diode array in the image sensor is controlled by the output signal of the temperature detection circuit that detects the temperature of the thermal head, and Since the structure is designed to prevent dew condensation, the heat generated by the LED array can be used to heat the area near the reading section, which is extremely effective in preventing dew condensation.

In addition, facsimile devices that control the lighting and extinguishment of LED arrays and also perform thermal recording are almost always equipped with a temperature sensor and temperature detection circuit that detect the temperature of the thermal head. By using a temperature sensor and a temperature detection circuit of the thermal head, the prevention of dew condensation near the head can be easily constructed at low cost, which is an excellent effect.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing a part of a facsimile apparatus according to an embodiment of the present invention, FIG. 2 is a block diagram showing a part of a facsimile apparatus according to another embodiment of the invention, and FIG. FIG. 2 is a block diagram showing part of the device. In the figure, 1 is an image sensor, 1a is a light emitting diode array, 3 is a light emitting diode array drive circuit, 4 is a light emitting diode array control circuit, and 5 is a light emitting diode array drive circuit.
5a is a thermal head, 5a is a temperature sensor, and 6 is a temperature detection circuit. In addition, in the figure, the same reference numerals are the same,
or a significant portion.

Claims (1)

[Claims] 1. An image sensor, a light emitting diode array drive circuit that turns on and off a light emitting diode array in this image sensor, a light emitting diode array control circuit that controls this light emitting diode array drive circuit, and a thermal head equipped with a temperature sensor. and a temperature detection circuit that controls the light emitting diode drive circuit using an output signal based on a predetermined temperature from the output signal of the temperature sensor.