JP2003296987A - Dew condensation detector - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a dew condensation detector capable of exactly detecting dew condensation in a short time. <P>SOLUTION: The resistance value of a dew condensation sensor 1 is covered to a digital signal which is a voltage value by a conversion circuit 2 and an A/D conversion circuit 31. A reference voltage (threshold) outputted from a reference voltage generation circuit 32 and the digital signal from the A/D conversion circuit 31 are compared by a comparator circuit 33 to detect the generation of the dew condensation. When a discriminating circuit 34 judges that the atmospheric temperature detected by the atmospheric temperature sensor is higher than the temperature of the device detected by the device temperature sensor by a specified temperature or over, the circuit 34 lowers the reference voltage outputted by the reference voltage generation circuit 32. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dew condensation detecting device used in, for example, a portable video recording device.

[0002]

2. Description of the Related Art In a magnetic recording / reproducing apparatus having a rotary magnetic head such as a video tape recorder (VTR),
When the surface of the drum structure composed of the rotating drum and the fixed drum is condensed, the magnetic tape running in a state of sliding contact with the outer peripheral surface of the drum sticks to the outer peripheral surface of the drum structure, damaging the magnetic tape, Problems such as clogging of the head occur. Therefore, in this type of magnetic recording / reproducing apparatus, conventionally, a dew condensation detecting device is conventionally provided to stop the rotation of the drum structure when dew condensation is detected to protect the magnetic tape.

The dew condensation sensor used in the dew condensation detecting device changes its resistance value depending on the humidity, and detects the occurrence of dew condensation from this resistance value. When the temperature and humidity are both low and stable, and the temperature and humidity are changed, the resistance value of the dew condensation sensor increases with a time delay. Therefore, in the conventional dew condensation detecting device, dew condensation may occur inside the magnetic recording / reproducing device before it is determined that dew condensation has occurred.

Therefore, in order to detect the occurrence of dew condensation in a short time, the threshold value of the dew condensation sensor is changed when the temperature is low, as described in Japanese Utility Model Laid-Open No. Sho 60-79150 (Prior application 1). A method and a method of changing the threshold value immediately after power-on of the device have been proposed, as described in Japanese Patent Application Laid-Open No. 9-306056 (Prior application 2).

[0005]

However, dew condensation is that when a substance having a large heat capacity comes into contact with air having a temperature higher than its own temperature, the air is cooled and water vapor is deposited as water. Therefore, dew condensation does not always occur only when the temperature is low. Therefore, the method described in the prior application 1 cannot be said to be a good idea. Further, whether or not immediately after the power is turned on is not related to the condition that dew condensation is likely to occur, and the method described in the above-mentioned prior application 2 cannot be said to be a good measure.

For example, when warm air suddenly hits a device used indoors, when warm air is blown from an air conditioner, or during the rainy season or summer, a portable video recording device (camera with integrated VTR) ) If you take it out from a room with air conditioning to a hot and humid place while the power is on,
Condensation is likely to occur under conditions where the outside air temperature rises rapidly even if the temperature of the device is not low. The conventional dew condensation detecting device has a problem that dew condensation cannot be accurately detected in a short time.

The present invention has been made in view of such problems, and an object thereof is to provide a dew condensation detecting device capable of accurately detecting dew condensation in a short time.

[0008]

In order to solve the above-mentioned problems of the prior art, the present invention has the following problem. (A) Condensation has occurred or is likely to occur on an object whose dew condensation is to be detected. In a dew condensation detecting device for detecting such a situation, a dew condensation sensor (1) whose resistance value changes depending on humidity, and a conversion means (2, 3) for converting the resistance value of the dew condensation sensor into a voltage value.
1) and a voltage value output from the conversion means are compared with a predetermined threshold value to detect that condensation has occurred on the object or has reached a state where there is a possibility of dew condensation. (33), a first temperature sensor (4) that substantially detects the ambient temperature, a second temperature sensor (5) that substantially detects the temperature of the object, and the first
The ambient temperature detected by the temperature sensor of the second
When it is determined that the ambient temperature is higher than the temperature of the object by a predetermined temperature or more, it is determined whether or not the temperature of the object detected by the temperature sensor is higher than the temperature of the object by a predetermined temperature or more. And a threshold value changing means (32, 34) for lowering the threshold value of (3). In a dew condensation detecting device for detecting whether or not dew condensation has occurred, a dew condensation sensor (1) whose resistance value changes depending on humidity and a conversion means (2) for converting the resistance value of the dew condensation sensor into a voltage value. Three
1) and a voltage value output from the conversion means are compared with a predetermined threshold value to detect that condensation has occurred on the object or has reached a state where there is a possibility of dew condensation. (33), an ambient temperature sensor (4) that substantially detects the ambient temperature, a memory (35) that stores the ambient temperature detected by the ambient temperature sensor for a predetermined time, and the ambient temperature sensor By comparing the current atmospheric temperature with the atmospheric temperature stored in the memory for the predetermined period of time, it is determined whether the atmospheric temperature has risen by a predetermined temperature or more within the predetermined period of time, and Threshold value changing means (32, 34) for decreasing the predetermined threshold value when it is determined that the temperature has risen above the predetermined temperature within the predetermined time period.
The present invention provides a dew condensation detecting device comprising:

[0009]

BEST MODE FOR CARRYING OUT THE INVENTION A dew condensation detecting device of the present invention will be described below with reference to the accompanying drawings. 1 is a block diagram showing a first embodiment of the dew condensation detecting device of the present invention, FIG. 2 is a characteristic diagram for explaining the operation of the dew condensation detecting device of the present invention, and FIG. 3 is a second diagram of the dew condensation detecting device of the present invention. FIG. 4 is a block diagram showing an embodiment, and FIG. 4 is a plan view showing a configuration example when the dew condensation detecting device of the present invention is provided in a portable video recording device.

<First Embodiment> In FIG. 1, a dew condensation sensor 1 is a sensor whose resistance value changes with humidity. The resistance value output from the dew condensation sensor 1 is input to the conversion circuit 2 and converted into a voltage value. The voltage value output from the conversion circuit 2 is a microcomputer (hereinafter, microcomputer).
Input to 3. The microcomputer 3 includes an A / D conversion circuit 31,
A reference voltage generation circuit 32, a comparison circuit 33, and a determination circuit 34 are provided.

The voltage value output from the conversion circuit 2 is A /
It is input to the D conversion circuit 31 and converted into a digital signal. The digital signal output from the A / D conversion circuit 31 is input to the comparison circuit 33. Reference voltage generation circuit 32
Generates either the first reference voltage or the second reference voltage and supplies the first reference voltage to the comparison circuit 33 according to the determination result of the determination circuit 34.

Further, the ambient temperature sensor 4 is substantially the ambient temperature (air temperature) of the device equipped with the dew condensation detecting device.
The ambient temperature sensor 4 outputs the detected output to the discriminating circuit 34. Device temperature sensor 5
Is a sensor for detecting the temperature of the target object which is the target for detecting the presence or absence of dew condensation. The detection output of the device temperature sensor 5 is input to the determination circuit 34. When the device provided with the dew condensation detecting device is a VTR such as a portable video recording device, the target object for detecting the presence or absence of dew condensation is a drum structure. Therefore, the device temperature sensor 5 may be attached to the drum structure or a portion having a temperature equivalent to that of the drum structure.

FIG. 2 shows a change in the resistance value of the dew condensation sensor 1 when the state A in which both the temperature and humidity are low and stable is changed to the state B in which the temperature and humidity are high. As can be seen from FIG. 2, the resistance value of the dew condensation sensor 1 rises with a time delay.

Returning to FIG. 1, in the comparison circuit 33, the digital signal input from the A / D conversion circuit 31 (that is, the value obtained by converting the resistance value of the dew condensation sensor 1 into a voltage value) is supplied from the reference voltage generation circuit 32. If it is higher than the input reference voltage, it is determined that dew condensation has occurred. In addition, although the expression "condensation has occurred" is used here, the term "condensation occurrence" means that dew condensation actually occurs on an object that is a detection target of dew condensation occurrence, and
It includes both that the condition reached when there was a possibility of dew condensation.

The comparison circuit 33 supplies a dew condensation detection signal to the display unit 6, and the display unit 6 displays a dew condensation warning. Here, in the normal state, the reference voltage generated by the reference voltage generation circuit 32 is the first reference voltage V shown in FIG.
It is 1. The display unit 6 does not have to be a display unit dedicated to displaying the warning about the occurrence of dew condensation, and may be a display unit that also displays other information of the VTR. Further, instead of being displayed on the display unit 6 or in addition to being displayed on the display unit 6, an alarm sound may be emitted by an alarm.

If the ambient temperature detected by the ambient temperature sensor 4 is higher than the device temperature detected by the device temperature sensor 5 by a predetermined temperature difference or more, dew condensation is likely to occur. Therefore, the determination circuit 34 generates a second reference voltage V2 (see FIG. 2) lower than the first reference voltage V1 when determining that the ambient temperature is higher than the device temperature by a predetermined temperature difference or more.
The reference voltage generation circuit 32 is controlled. As a result, the comparison circuit 33 determines that dew condensation has occurred when the digital signal input from the A / D conversion circuit 31 exceeds the second reference voltage V2.

Therefore, when the threshold value for determining whether or not condensation has occurred is the first reference voltage V1, the time until the occurrence of condensation is detected is T1, whereas the threshold value is At the second reference voltage V2, the time required to detect the occurrence of dew condensation is T2, which is shorter than T1. Therefore, according to the first embodiment, dew condensation can be accurately detected in a short time.

<Second Embodiment> In the second embodiment shown in FIG. 3, the same parts as those in the first embodiment shown in FIG. 1 are designated by the same reference numerals and the description thereof may be omitted. In FIG. 3, the detection output of the ambient temperature sensor 4 is the microcomputer 3 '.
Is input to the discrimination circuit 34 and the memory 35. Memory 35
Keeps storing the detection output (temperature data) for a predetermined time (for example, 1 minute) obtained from the ambient temperature sensor 4. The determination circuit 34 compares the current temperature data input from the atmosphere temperature sensor 4 with the current temperature data and the temperature data input from the memory 35 a predetermined time past (for example, one minute before), and determines the current ambient temperature. Determines whether the temperature rises by a predetermined temperature or more (for example, 5 ° C. or more) from the ambient temperature before the predetermined time.

When the discriminating circuit 34 discriminates that the ambient temperature has risen above a predetermined temperature, the discriminating circuit 34 controls the reference voltage generating circuit 32 so as to generate the second reference voltage V2 lower than the first reference voltage V1. As a result, the comparison circuit 33 causes the A /
When the digital signal input from the D conversion circuit 31 exceeds the second reference voltage V2, it is determined that dew condensation has occurred.

Therefore, when the threshold value for determining whether or not condensation has occurred is the first reference voltage V1, the time until the occurrence of condensation is detected is T1, whereas the threshold value is At the second reference voltage V2, the time required to detect the occurrence of dew condensation is T2, which is shorter than T1. Therefore, according to the second embodiment, dew condensation can be accurately detected in a short time. The second embodiment can reduce one temperature sensor as compared with the first embodiment.
Since the memory 35 may be the one built into the microcomputer 3 ', the second embodiment is less expensive than the first embodiment.

Here, when the dew condensation detecting device of the present invention is mounted on a portable video recording device, the place where the dew condensation sensor 1 and the ambient temperature sensor 4 in the first and second embodiments are provided in the portable video recording device. explain.

FIG. 4 is a side plan view of the portable video recording device, showing a state in which the side panel is removed. Figure 4
In the main deck 11, a cassette housing 12 and a drum structure 13 equipped with a rotary magnetic head are provided.
And a loading motor 14 is attached. The dew condensation sensor 1 is attached to the main deck 11 at a position closer to the cassette housing 12 than the drum structure 13. When a tape cassette, which is a recording medium, is mounted or replaced, air flows into the device through the cassette housing 12. Since the dew condensation sensor 1 is attached in the vicinity of the cassette housing 12, it is possible to detect the occurrence of dew condensation before the dew condensation occurs on the drum structure 13 or immediately when the dew condensation occurs.

The ambient temperature sensor 4 is attached to a predetermined position outside the main deck 11, for example. Since the ambient temperature sensor 4 measures the air temperature, it may be attached to a portion having good followability with respect to changes in the air temperature. A metal such as the drum structure 13 has a large heat capacity and has poor followability to changes in the air temperature. Therefore, the drum structure 13 is attached to a member having a smaller heat capacity. A preferable example of the member having a small heat capacity is a printed circuit board. Since the printed circuit board has a small heat capacity and a small thermal conductivity, it easily follows changes in the air temperature. Although not shown here, the device temperature sensor 5 includes the drum structure 1
3 or a member having a heat capacity equivalent to that of the drum structure 13.

In the example shown in FIG. 4, the ambient temperature sensor 4 is provided inside the apparatus, but the ambient temperature sensor 4 may be provided so as to face the outside of the housing so that the outside air may come into direct contact therewith. In this case, it may be provided in a portion that does not interfere with the operation of the portable video recording device, for example, in the recess 15 on the lower surface of the portable video recording device.

The present invention is not limited to the present embodiment described above, and various modifications can be made without departing from the gist of the present invention. The dew condensation detecting device of the present invention can be used not only in a portable video recording device but also in other devices.

[0026]

As described in detail above, the dew condensation detecting device of the present invention, when it is determined that the ambient temperature is higher than the temperature of the object of which dew condensation is detected by a predetermined temperature or more, The threshold value for detecting the occurrence of dew condensation is lowered, or the threshold value is lowered when it is determined that the ambient temperature rises above a predetermined temperature within a predetermined time, so that the dew condensation can be performed in a short time. Can be accurately detected.

[Brief description of drawings]

FIG. 1 is a block diagram showing a first embodiment of the present invention.

FIG. 2 is a characteristic diagram for explaining the operation of the present invention.

FIG. 3 is a block diagram showing a second embodiment of the present invention.

FIG. 4 is a plan view showing a configuration example when the present invention is provided in a portable video recording device.

[Explanation of symbols]

1 Condensation sensor 2 Conversion circuit (conversion means) 3,3 'microcomputer 4 Ambient temperature sensor 5 Device temperature sensor 6 Display 31 A / D conversion circuit (conversion means) 32 reference voltage generating circuit (threshold variable means) 33 comparison circuit (detection means) 34 Discrimination circuit (threshold variable means) 35 memory

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Masahiko Hamada             3-12 Moriya-cho, Kanagawa-ku, Yokohama-shi, Kanagawa             Local Victor Company of Japan, Ltd. (72) Inventor Yuichi Ishiguro             3-12 Moriya-cho, Kanagawa-ku, Yokohama-shi, Kanagawa             Local Victor Company of Japan, Ltd. (72) Inventor Masanari Sato             3-12 Moriya-cho, Kanagawa-ku, Yokohama-shi, Kanagawa             Local Victor Company of Japan, Ltd.

Claims (2)

[Claims] 1. A dew condensation detecting device for detecting whether or not there is a possibility that dew condensation has occurred on a target object, the dew condensation sensor of which resistance changes with humidity, and the dew condensation sensor. A state in which dew condensation has occurred or is likely to occur on the object by comparing the voltage value output from the conversion means with a predetermined threshold value, and a conversion means for converting the resistance value of the object into a voltage value. A first temperature sensor that substantially detects the ambient temperature, a second temperature sensor that substantially detects the temperature of the object, and a first temperature sensor It is determined whether the ambient temperature detected by the second temperature sensor is higher than the temperature of the object detected by the second temperature sensor by a predetermined temperature or more, and the ambient temperature is higher than the temperature of the object. Even when it is determined to be higher than a predetermined temperature, condensation detecting apparatus characterized by being configured and a threshold changing means for decreasing the predetermined threshold value. 2. A dew condensation detecting device for detecting whether or not dew condensation has occurred on an object as a dew condensation detection target, the dew condensation sensor having a resistance value which varies depending on humidity, and the dew condensation sensor. A state in which dew condensation has occurred or is likely to occur on the object by comparing the voltage value output from the conversion means with a predetermined threshold value, and a conversion means for converting the resistance value of the object into a voltage value. Detection means for detecting that the ambient temperature has been reached, an ambient temperature sensor for substantially detecting the ambient temperature, a memory for storing the ambient temperature detected by the ambient temperature sensor for a predetermined time, and the ambient temperature sensor By comparing the current ambient temperature with the ambient temperature stored in the memory for the predetermined time period, the ambient temperature is kept within the predetermined time period. And a threshold value changing means for lowering the predetermined threshold value when it is determined whether or not the ambient temperature has risen by a predetermined temperature or more within the predetermined time. A dew condensation detecting device characterized in that it is equipped with.