JP2002350380A - Gas detector and air conditioner using the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce the change of sensitivity of detection for gas and effectively carry out the ventilation of an air conditioner by using a gas detector and the air conditioner employing the gas detector. SOLUTION: The gas detector is composed of a gas detecting section 100 and an introducing conduit 101. A partition plate 102 is disposed at the center of the introducing conduit 101. The periphery of a connection part between the gas detecting section 100 and the introducing conduit 101 is covered by an adiabatic seal rubber 105, and a gas permeable filter 103, to which a non- woven fabric 104 is affixed, is mounted on the aperture of the rubber 105, and a gas sensor 110 is mounted on a substrate 108 in a space inside the rubber 105. Even in the case the gas varies at the front of the introducing conduit 101 so that the flow velocity is increased, the gas to be introduced is divided by the partition plate 102. Therefore, the increase of flow velocity of the gas is restrained at the gas sensor 110, and the change of sensitivity for gas can be reduced.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention solves the problem of output fluctuation caused by a change in the ambient temperature of a semiconductor gas sensor or the application of wind, and more particularly, to the switching of air in automobiles and indoor air conditioners and the control of air purifiers. The present invention relates to a gas detection device for ventilation control that is suitable for the present invention.

[0002]

2. Description of the Related Art A technique relating to a semiconductor type gas sensor utilizing the electrical conductivity of a metal oxide semiconductor sintered material is disclosed in, for example, "Special Ceramic Sensor", p17-p25 (edited by Eresera Publishing Committee Co., Ltd., January 1980). 16th issue), and a special issue on transistor technology, “Semiconductor Sensor Application Circuits 1-6: The Same Difference Principle of Gas Sensors and Application Circuits” (June 1998, p250-p254), and the like. Here, as an example, FIG. 6 shows an outline of the technology disclosed in the June 1998 issue of the transistor technology (p. 251 mainly in FIG. 7A). In FIG. 6, reference numeral 110 denotes the whole semiconductor gas sensor, 113 denotes a sensor element (sensor resistance) of a gas detection unit, 114 denotes a heater, 120 denotes a sensor output voltage, and 121 denotes a load resistance.

The sensor resistance of the semiconductor gas sensor 110 and the heater 114 are structurally separated from each other by air or an insulator, and the positive side (or the negative side) of the sensor resistance is the heater 11.
Connected to 4. The negative side of the sensor resistance is the load resistance 12
1 is connected, and its load resistor 121 is connected to-of the power supply. This load resistance value is a value at which the power consumption of the element becomes equal to or less than the sensor design value, and is given in accordance with the sensor output condition in the electric amplifier circuit. With such a configuration, when a predetermined DC power is applied to the heater 114, the temperatures of the heater and the sensor resistor are stabilized at a certain temperature.

In such a semiconductor type gas sensor 110, in a clean atmosphere, oxygen present in the air is chemically adsorbed on the surface of the semiconductor element, so that the oxygen adsorbed on the contact crystal grain boundary of the ceramic material is produced. Creates a higher electrical barrier. When the gas contacts the semiconductor gas sensor 110, the gas causes an oxidation reaction with oxygen present on the sensor surface, and oxygen on the sensor surface decreases. As the oxygen on the sensor surface decreases, the electrical barrier created at the contact grain boundaries decreases. That is, when the gas comes into contact with the sensor, the sensor resistance value decreases, so that the amount of the gas is detected. Since the sensor output voltage is determined by the voltage division of the sensor load resistor 121, the amplifier circuit constant is determined according to the change width of the sensor resistance. Semiconductor type gas sensor 11
The output characteristics for a gas of 0 are measured under static conditions in which the ambient temperature condition does not change and the air flow rate hitting the sensor is low.

Next, the temperature of the heater 114 will be considered. When a constant voltage V _H is applied to the heater 114, the relationship between the heater resistance R _H and the current I _H flowing through the heater is I _H = V _H / R _H according to Ohm's law. This resistance value R
_H indicates that when a constant voltage is applied to the heater, the amount of heater heating due to Joule heat generated by the heater applied current I _H flowing through the heater resistor _RH is radiated to the heating heat conduction conditions to the gas detection unit and the surrounding air. This is the resistance value when a stable equilibrium state of heat determined by the heat transfer condition is reached. Joule heating value Q _H is _{Q H = V H · I H} = V H 2 / R H,.

[0006] When the ambient temperature decreases or the flow velocity of air to the sensor increases, the amount of heat radiated by the sensor increases, so that the heater resistance _RH decreases. When a constant voltage is applied to the heater 114 and the heater applied current resistance _RH decreases, the Joule heat generation increases, so that the temperature converges to a certain temperature equilibrium condition determined by the ambient environment condition. Normally, the temperature of the sensor section is kept stable within the accuracy range of the sensor by the self-temperature compensation.

[0007]

The above-described semiconductor gas sensor is excellent in that it is small and has high sensitivity. However, the sensitivity and responsiveness of the semiconductor gas sensor, which is a site of reaction with the gas, to the gas to be detected is desired. In consideration of the above, the heating temperature of the heater (heater applied voltage value) is determined. For this reason, when the ambient temperature changes greatly or the air flow velocity (that is, the wind velocity) corresponding to the sensor gas detecting section changes greatly, the heat conduction / heat transfer conditions for heating the heater change, and the absolute humidity in the introduced gas changes. When this change occurs, the gas sensitivity changes, and there is room for improvement in stabilizing the operating temperature of the sensor and the gas sensitivity with a simple constant voltage application.

Further, the semiconductor gas sensor is excellent in that it is small and has high sensitivity. However, if a plurality of sensors are installed, the number of wirings increases and the cost burden increases. In particular, since the air conditioner is equipped with an external temperature sensor, the temperature sensor for temperature compensation of the outdoor gas sensor and the temperature detection function of the semiconductor gas sensor overlap, so there is room for improvement in cost.

Further, the semiconductor gas sensor is excellent in that it is small and has high sensitivity, but the gas sensitivity is specified in order to detect a target gas with a plurality of gas sensors.
For this reason, gas detection can be activated individually,
When a plurality of sensors are installed, inconsistencies occur in sensor signals, and in the case of a ventilation function, there is room for improvement in a ventilation processing method.

Accordingly, the present invention provides a gas detector for ventilation control using a semiconductor type gas sensor, in which a change in gas detection sensitivity is suppressed, and a heater heating temperature of the sensor is controlled to be constant so as not to change due to a change in ambient temperature. In addition, the output is corrected based on the temperature and the humidity so that the gas amount can be accurately detected. Further, it is another object of the present invention to apply such a gas detector to an air conditioner to control indoor ventilation and dehumidification.

[0011]

The present invention provides the following means in order to solve the above-mentioned problems.

(1) A gas introducing pipe section, and a gas detecting section which communicates with the gas introducing pipe section and houses a semiconductor gas sensor for heating a gas detecting semiconductor resistive film by a heater. A partition plate along the gas flow direction is inserted in the center of the gas sensor, and the periphery of the semiconductor type gas sensor in the gas detection unit is covered with a heat-insulating waterproof seal rubber, and a gas permeable membrane is formed in an opening of the seal rubber communicating with the gas introduction pipe. A gas detection device, characterized by being stuck.

(2) The semiconductor gas sensor is provided with a heater resistance control circuit for controlling a heater application voltage so that the resistance of the heater becomes a predetermined constant reference resistance, and is heated by the heater. (1) The gas detection device according to (1).

(3) The gas detection device according to (1), wherein the detection signal of the semiconductor gas sensor is corrected by using humidity detection means and ambient temperature detection means.

(4) An air conditioner using the gas detection device according to (3).

(5) The gas detection device is installed outdoors and another gas sensor is installed in the room to open and close the ventilation damper. The outdoor gas detection device removes dirt from the outdoor air. If the air contamination on the outdoor side is equal to or more than a predetermined level, the ventilation damper is not opened, and a gas sensor in the room detects an increase in carbon dioxide due to exhalation of a person in the closed room, and the increase is equal to or higher than a predetermined value The air conditioner according to (4), further comprising a forced ventilation function that opens the ventilation damper for a predetermined time.

In (1) of the present invention, a partition plate is placed at the center of a gas introduction pipe for gas introduction. In the introduction pipe, when a gas passes before the introduction section of the introduction pipe, Gas introduction and discharge are performed at the resulting differential pressure. At this time, even if the gas flow velocity on the front surface of the introduction pipe is increased, it is possible to suppress a remarkable increase in the gas flow velocity for introducing the gas to the gas detector in the gas introduction pipe. Thus, it is possible to suppress a change in gas sensitivity due to the gas flow rate of the gas detection unit.

Further, the gas sensor is covered with rubber having both heat insulation and waterproof seal, and a gas permeable film, for example, Teflon (registered trademark) is provided in an opening of the rubber for supplying gas from the outside to the gas sensor. (Described as a membrane filter), and a waterproof and dust-removing function is provided. Since the gas permeable membrane is thin, a nonwoven fabric or the like may be provided with a bonding strength. Further, a non-woven fabric or a fiber-based filter may be packed in the gas introduction pipe to improve drip-proofness and waterproofness.

In (2) of the present invention, the gas detector of the semiconductor gas sensor is heated by a platinum heater. Therefore, when the heater heating temperature decreases due to the ambient temperature, the heater resistance decreases. The heater control circuit measures the heater resistance value by measuring the voltage of the heater heating unit in accordance with the heater heating timing, and converts the heater temperature into the heater temperature based on the previously measured relationship between the heater temperature and the resistance value. In accordance with this, the heater heating amount is controlled to keep the heater temperature constant. As this method, there are a method of controlling the applied voltage and a method of controlling the applied voltage supply time.

In (3) of the present invention, the gas sensitivity of the semiconductor gas sensor is particularly affected by the absolute humidity. For this reason, the absolute humidity is measured using the temperature and humidity measuring means, and the output of the semiconductor gas sensor is corrected, so that the gas amount can be accurately detected.

In (4) of the present invention, by utilizing the functions of the temperature detection unit and the humidity detection unit in the gas detection unit and applying it to the ventilation and dehumidification control of the air conditioner, it is placed in another housing. Wiring for transmitting the sensor signal is unnecessary and can be combined into one. The signal transmission method may be wired with multi-core cables as many as the number of sensors, or if the data exchange method between the microcomputer on the air conditioner side and the microcomputer on the receiver side is determined using the microcomputer in the gas detection unit, Serial transfer is possible, and data transfer is possible regardless of the number of signals to be transmitted.

Of course, two or more types of gas sensors are installed,
Two or more types of gas sensor outputs may be detected. For example, in a vehicle air conditioner, strong measures demanded against exhaust gas of the car, when it is desired to measure separate from the diesel vehicles for waste gas and gasoline vehicles exhaust gas for NO _X based gas as diesel, For gasoline vehicles, a gas sensor that reacts strongly for THC-based gas may be mounted. In a home or commercial air conditioner, a gas sensor for detecting hydrogen from cigarette smoke or carbon dioxide accompanying human breathing may be mounted.

According to (5) of the present invention, in the air conditioner, a gas sensor that reacts to hydrogen in tobacco smoke in response to air contamination of tobacco in the room may be mounted in the room. When the response of this hydrogen concentration is higher than the drift of the sensor, it is hydrogen from a person. At this time, if the outdoor air detected by the outdoor gas sensor is clean, the ventilation damper is operated to perform ventilation. It controls a damper for switching between inside and outside air for vehicles, a ventilation fan for home use, and a ventilator for commercial use. or,
If the outdoor air detected by the outdoor gas sensor is not clean, forced ventilation is performed without operating the ventilation damper.
This allows the indoor air to be kept constantly clean.

[0024]

Embodiments of the present invention will be specifically described below with reference to the drawings. FIG. 1 is a sectional view of a gas detector according to a first embodiment of the present invention. In FIG. 1, the gas detection device is a device applied to a vehicle,
It comprises a gas detection unit 100 and an introduction pipe unit 101.
A partition plate 102 is placed in the introduction pipe portion 101 in the gas flow direction, and the gas is guided into the inside by being divided into two.

The gas detecting section 100 is covered with a heat-insulating rubber seal 105 for insulating and waterproofing a gas inlet around a connecting portion with the introduction pipe section 101, and a gas permeable filter 103 is provided at the inlet. . The gas permeable filter 103 is made of a thin permeable membrane such as a membrane filter, etc., and since this membrane is thin, it is attached to the nonwoven fabric 104 to have strength. The film made of the gas permeable filter 103 and the nonwoven fabric 104 is attached to a flange at the periphery of the entrance opening of the heat insulating seal rubber 105 which has both heat insulation and waterproof sealing, covers the opening, and has a waterproof and dust removing function. The base of the heat-insulating seal rubber 105 is attached to the electric circuit board 108 to form a sealed space, in which the semiconductor gas sensor 1 is mounted.
10 is attached to the electric circuit board 108. An electric circuit section 107 is attached to the electric circuit board 108.

The gas detecting device having the above-described structure is installed in a suction duct of an air conditioner for a vehicle, and gas is introduced into a semiconductor gas sensor 110 serving as a gas detecting unit via a gas permeable filter 103, as described later. You. Gas inlet pipe 1
In 01, two flow paths separated by the gas partition plate 102 are formed. The gas is introduced into the gas detection unit 100 at the boundary between the two flow paths.

FIG. 2 is a configuration diagram showing an air conditioner of a vehicle to which the gas detection device for ventilation control according to the first embodiment is applied. In the figure, 300 is a car, 201 is an air intake duct, 202 is an inside / outside air switching damper, 203 is a blower fan, and 204 is an evaporator. The gas detection device including the gas detection unit 100 and the introduction pipe unit 101 includes:
It is attached to the suction duct 201 as shown.

In the above configuration, the suction duct 201
The flow velocity of the air flowing through the air duct changes due to the influence of the vehicle speed, and the opening / closing state of a switching damper 202 for switching between the inside air circulation and the outside air behind the suction duct 201, the blower fan 2
03 also changes. According to the gas detector 100, the partition plate 102 is inserted into the center of the introduction pipe 101, and the introduction and discharge of the gas are performed in the introduction pipe 102 by the differential pressure generated when the gas passes through the front surface of the inlet. It is. At this time, even if the flow velocity passing in front of the gas introduction pipe section 101 changes, the differential pressure generated in the introduction pipe section 101 is suppressed to be smaller than that without the partition plate 102, and the change in the gas flow velocity reaching the gas detection section 100. Becomes smaller. As a result, reliable gas replacement can be performed at a low flow rate.

This gas detection device for ventilation control detects the concentration of exhaust gas outside the vehicle, controls the inside / outside air switching damper 202 when the concentration is high, and closes the damper when the concentration is high. It is installed to stop outside air introduction and switch to inside air circulation mode.

In the first embodiment of the present invention,
The gas detector of the semiconductor gas sensor is heated by a platinum heater. Therefore, when the heater heating temperature decreases due to the ambient temperature, the heater resistance decreases. Although not shown, a circuit for controlling the heater resistance is provided. In this circuit, the heater resistance value is measured by measuring the voltage of the heater heating unit in accordance with the heater heating timing, and the heater temperature and resistance measured in advance are measured. The value is converted into a heater temperature based on the relationship between the values. In accordance with this, the heater heating unit is controlled to control the heater heating amount,
The heater temperature can be controlled to an appropriate constant temperature.
As a method of controlling the heater heating unit, there are a method of controlling the applied voltage and a method of controlling the applied voltage supply time, and any method may be used.

Next, a gas detector according to a second embodiment of the present invention will be described with reference to FIGS. 3, reference numerals 100 to 104, 107, 108, 110
Is the same member as in the first embodiment shown in FIG. 1. In the second embodiment, a nonwoven fabric filter 119 is provided at the inlet of the introduction pipe section 101, and the drip-proof filter inside the introduction pipe section 101 is provided.
It is waterproof. Further, in addition to the gas sensor 110, a temperature sensor 111 and a humidity sensor 112 are attached to the electric circuit board 108 of the gas detection unit 100, and these sensors 110, 111 and 112 are covered with a heat insulating resin tube 106. .

A non-woven fabric 104 is attached around the upper opening of the heat-insulating resin tube 106 via a sealing O-ring 105a, and a gas permeable filter 103 having strength is attached. An inflow opening is formed. Further, the mounting base of the heat insulating resin tube 106 to the electric circuit board 108 is also mounted via the sealing O-ring 105b. Other configurations are the same as those of the first embodiment shown in FIG.

In the above configuration, as in the first embodiment shown in FIG. 1, a partition plate 102 is provided in the introduction pipe portion 101, and the gas detection portion 10 is provided through a gas permeable filter 103.
The gas is introduced into the semiconductor gas sensor 110 of the zero. As shown in FIG. 3, the gas detection device including the gas detection unit 100 and the introduction pipe unit 101 is attached to the front of or behind the radiator or condenser at the front of the vehicle. A temperature sensor for an air conditioner is usually mounted at the position of the gas detection device, but the gas detection device of the present invention is mounted instead of the temperature sensor for the air conditioner, and a gas detection device having the same function as the air temperature sensor is used. It detects the temperature and humidity of the exhaust gas of the outside air.

As shown in FIG. 3, two flow paths are formed in the gas introduction pipe section 101 partitioned by the gas partition plate 102. The gas flows between the two flow paths and the gas detector 100.
Will be introduced. The flow velocity of the air flowing near the radiator section at the front of the vehicle changes due to the influence of the vehicle speed. Even if it changes, the differential pressure generated in the introduction section is kept small, and the change in gas flow velocity reaching the gas detection section 100 becomes small. As a result, reliable gas replacement can be performed at a low flow rate.

Also in the second embodiment, the gas detecting device for ventilation control performs the damper control of the inside / outside air switching damper 202 when the external exhaust gas concentration is high, and closes the damper to increase the exhaust gas concentration. At times, it is installed to stop the introduction of outside air and switch to the inside air circulation mode.

FIG. 5 is a functional block diagram of the gas detector according to the second embodiment described above. In the figure, two semiconductor gas sensors are used, and the detection signals from these gas sensors 110
0, the heater 111 is controlled by a signal from the microcomputer 250 by the gas sensor control circuit.
Further, detection signals from the temperature sensor 111 and the humidity sensor 112 incorporated in the heat insulating resin tube 106 of the gas detection unit 100 are also input to the microcomputer 250.

In the above configuration, the microcomputer 250 takes in the outputs of the temperature sensor 111 and the humidity sensor 112 and calculates the absolute humidity. Also, signals from the gas sensors (1) and (2) are fetched, and these signals are corrected with the calculated absolute humidity. Further, the microcomputer 250 includes the gas sensors (1),
The voltage of the heater 114 in (2) can also be controlled by a heater control pulse, and the heater heating temperature can be controlled to an appropriate temperature.

The output signals, temperature signals, and humidity signals of the gas sensors (1) and (2) corrected by the microcomputer 250 are converted into serial signals, digitally encoded, and transmitted to an air conditioner controller board (not shown). The air conditioner controller board receives the signal and obtains the temperature, humidity, and exhaust gas concentration outside the vehicle.

In some air conditioners, a gas sensor that reacts to hydrogen in tobacco smoke against air contamination of tobacco indoors is installed in the room. This sensor reacts to hydrogen gas. It reacts with hydrogen gas contained in human breath even when there is no cigarette. Hydrogen is also contained in human breath, and if this hydrogen concentration has a response higher than the drift of the sensor, it is hydrogen from human. For this reason, in vehicles, the inside / outside air switching damper 2
When 02 is closed and the inside air circulation mode is set, the hydrogen gas concentration in the vehicle increases. Therefore, when a certain threshold value is exceeded, the inside / outside air switching damper 202 is opened to introduce outside air. When smoking cigarettes,
The forced ventilation is based on the output of the gas sensor in the vehicle. At this time, the concentration of gas is detected by the outdoor gas sensor 110, and when the outdoor air is clean, the inside / outside air switching damper 202 is opened.

Although FIG. 5 shows an example in which two gas sensors are installed, two or more types of gas sensors may be installed to detect the outputs of two or more types of gas sensors. For example, in a vehicle air conditioner, strong measures demanded against exhaust gas of the car, when it is desired to measure separate from the diesel vehicles for waste gas and gasoline vehicles exhaust gas for NO _X based gas as diesel, For gasoline vehicles, a gas sensor that reacts strongly for THC-based gas may be mounted.
Further, in a home or commercial air conditioner other than the above-described car, a gas sensor for detecting hydrogen from cigarette smoke or carbon dioxide accompanying human breathing may be mounted.

[0041]

According to the gas detecting apparatus of the present invention, there are provided (1) a gas detecting device which contains a semiconductor gas sensor which communicates with a gas introducing pipe and which heats a gas detecting semiconductor resistance film by a heater. And a partition plate along the gas flow direction is inserted into the center of the gas introduction pipe section, and the periphery of the semiconductor type gas sensor in the gas detection section is covered with a heat-insulating waterproof seal rubber. It is characterized in that a gas permeable membrane is attached to the opening communicating with the part.

With the above configuration, in the introduction pipe section, gas is introduced and discharged at a differential pressure generated when the gas passes before the introduction section of the introduction pipe section. At this time, even if the gas flow velocity on the front surface of the introduction pipe is increased, it is possible to suppress a remarkable increase in the gas flow velocity for introducing the gas to the gas detector in the gas introduction pipe. Thus, it is possible to suppress a change in gas sensitivity due to the gas flow rate of the gas detection unit. In addition, the gas sensor is covered with rubber that has both heat insulation and a waterproof seal, and a gas permeable membrane (for example, a membrane filter) is attached to an opening of the rubber for supplying gas from the outside to the gas sensor.

In (2) of the present invention, the gas detector of the semiconductor gas sensor is heated by a platinum heater. The heater control circuit measures the heater resistance value by measuring the voltage of the heater heating unit in accordance with the heater heating timing, and converts the heater temperature into the heater temperature based on the previously measured relationship between the heater temperature and the resistance value. In accordance with this, the heater heating amount is controlled, and the heater temperature can be controlled to be constant.

In (3) of the present invention, the gas sensitivity of the semiconductor gas sensor is particularly affected by the absolute humidity. For this reason, the absolute humidity is measured using the temperature and humidity measuring means, and the output of the semiconductor gas sensor is corrected, so that the gas amount can be accurately detected.

According to (4) of the present invention, the temperature detection unit and the humidity detection unit function in the gas detection unit are used to apply to ventilation and dehumidification control of an air conditioner, so that the sensor put in another housing is used. Wiring for transmitting signals is unnecessary and can be combined into one.

According to (5) of the present invention, in the air conditioner, a gas sensor that reacts to hydrogen in tobacco smoke against air contamination of tobacco in the room may be mounted in the room. It is also included in the exhaled air, and if this hydrogen concentration has a response higher than the drift of the sensor, it is hydrogen from a person, and at this time, if the outdoor air detected by the outdoor gas sensor is clean, Operate the ventilation damper to ventilate. It controls a damper for switching between inside and outside air for vehicles, a ventilation fan for home use, and a ventilator for commercial use.

[Brief description of the drawings]

FIG. 1 is an internal sectional view of a gas detection device according to a first embodiment of the present invention.

FIG. 2 is a configuration diagram when the gas detection device according to the first embodiment of the present invention is applied to a vehicle.

FIG. 3 is an internal sectional view of a gas detection device according to a second embodiment of the present invention.

FIG. 4 is a configuration diagram when a gas detection device according to a second embodiment of the present invention is applied to a vehicle.

FIG. 5 is a functional block diagram of a gas detection device according to a second embodiment of the present invention.

FIG. 6 is a schematic configuration diagram of a conventional semiconductor gas sensor.

[Explanation of symbols]

 REFERENCE SIGNS LIST 100 gas detection unit 101 introduction pipe unit 102 partition plate 103 gas permeable filter 104 nonwoven fabric 105 heat insulating seal rubber 106 heat insulating resin tube 110 gas sensor 111 temperature sensor 112 humidity sensor 119 nonwoven fabric filter 201 suction duct 202 inside / outside air switching damper 250 microcomputer

 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Inventor Toru Yamaguchi 3-1-1 Asahicho, Nishibiwajima-cho, Nishi-Kasugai-gun, Aichi Prefecture F-term (Ref.) 2G046 AA03 AA05 AA12 AA13 BA01 BA09 BD01 BD06 BE01 BE08 BF01 BG03 BG04 BH10 BJ02 BJ04 DB05 DC02 DC03 DE03 EA02 EA04 EA10 EA11 EB06 EB07 FA01 FB02 FE31 3L061 BA01

Claims (5)

[Claims] 1. A gas introduction pipe section, and a gas detection section that communicates with the gas introduction pipe section and houses a semiconductor gas sensor that heats a gas detection semiconductor resistance film with a heater, and includes a gas detection section inside the gas introduction pipe section. A partition plate along the gas flow direction is inserted in the center, and the periphery of the semiconductor type gas sensor in the gas detection unit is covered with a heat-insulating waterproof seal rubber, and a gas permeable membrane is formed in an opening of the seal rubber communicating with the gas introduction pipe. A gas detector characterized by being stuck. 2. The semiconductor gas sensor is provided with a heater resistance control circuit for controlling a heater application voltage so that the resistance of the heater becomes a predetermined constant reference resistance, and the heater is heated by the heater. The gas detection device according to claim 1, wherein 3. The gas detection device according to claim 1, wherein the detection signal of the semiconductor gas sensor is corrected using humidity detection means and ambient temperature detection means. 4. An air conditioner using the gas detection device according to claim 3. 5. The gas detection device is installed outside the room, and another gas sensor is installed in the room to open and close the ventilation damper. The outside gas detection device detects contamination of outdoor air. If the air stain on the outdoor side is equal to or more than a predetermined level, the ventilation damper is not opened, and a gas sensor in the room detects an increase in carbon dioxide due to exhalation of a person in the closed room. The air conditioner according to claim 4, further comprising a forced ventilation function that opens the ventilation damper for a predetermined time.