KR910006449Y1 - Device which controls gas level in gas alarm - Google Patents

Abstract

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Description

Gas sensitivity level regulator of gas alarm

1 shows a gas detection circuit portion of a conventional gas alarm.

Figure 2 is a simplified diagram showing a gas sensitivity level control method of the gas alarm of the present invention.

3a, b is an overall circuit diagram of the gas sensitivity level regulator according to the present invention.

* Explanation of symbols for main parts of the drawings

RS: Gas Sensor VR: Variable Resistance

OP ₁ : OP amplifier U ₁ : 4-bit counter

G ₁ to G ₁₆ : Gate SW1 to SW16: Relay switch

The present invention relates to a gas sensitivity level regulator of a gas alarm, and in particular, to perform a sequential switching operation using a 4-bit counter and to adjust the accurate gas sensitivity level through a meter connected to the OP amplifier in a plurality of gas alarms.

The gas sensing circuit in the conventional gas alarm has a distribution voltage of Vcc according to the resistance of the resistance R ₂ and the gas sensor RS applied to the positive and negative input terminals of the OP amplifier as shown in FIG. The distribution voltage by the over-resistance R ₁ and the variable resistance VR is controlled to be balanced. When the gas sensor RS detects gas, such a bridge circuit is broken and an output signal is generated through the OP amplifier. .

At this time, the predetermined gas sensitivity level of the gas detection circuit is controlled by the variable resistance VR. For example, in order for the gas alarm to detect 2000 ppm of LPG, a gas alarm is put in a test tube having the same gas concentration. Manually adjust the variable resistor to balance the bridge circuit.

Conventionally, when adjusting the equilibrium state, the operator inserts the gas alarms into the test container one by one and rotates the variable resistance of the detection circuit by using a tool such as a screwdriver, and manually adjusts them until an alarm sounds, and then removes them again. There was an inconvenience to be had.

In addition, such a sensational control method has a drawback that even the most skilled person cannot guarantee the accuracy and guarantee the uniform quality of the whole product.

Therefore, in order to adjust the equilibrium accurately, if the variable resistance VR is adjusted so that the scale of the potentiometer is '0' by connecting the (+) and (-) input terminals of the op amp to a potentiometer, etc. It has much higher accuracy than the control method.

As a control method using such a measuring mechanism, as shown in FIG. 2, the positive input terminal and the negative input terminal of the OP amplifier OP1 in the alarm using the commercially available tester IC cap 10 as shown in FIG. Is connected to the potentiometer 20, and then the constant resistance is adjusted so that the scale of the potentiometer 20 is at " 0 "

However, there is a problem in that productivity and efficiency are deteriorated if one is arbitrarily adjusted in mass production, and therefore, an apparatus capable of adjusting several alarms at once is desired.

The present invention was devised to meet the above requirements, and is connected to the common potential of the OP amplifiers of a plurality of gas sensing circuits, and the input stage of each OP amplifier is sequentially connected by a sequential switching operation using a 4-bit counter. The present invention will be described in detail with reference to the accompanying drawings to adjust the gas sensitivity level by selecting.

3a and b show the overall circuit diagram of the gas sensitivity level regulator according to the present invention. In FIG. 3a, a 4-bit counter U ₁ having a pushbutton switch SW _P connected to an input terminal PL and four output stages of the counter U ₁ is shown. Relay switch SW1 to SW16 of FIG. 3b of each output terminal of the selection circuit selection circuit generation circuit including gates G ₁ to G ₁₆ and inverters, which combine a signal output from Q ₁ to Q ₄ to generate one output signal. It is connected to the input terminal of the relay drive unit including a and at the same time are mutually connected to the (-) input terminal of the potentiometer 20. In addition, an output terminal of the selection signal of FIG. 3a is connected to the negative input terminal of the OP amplifiers OP1 to OP16 of the plurality of gas sensing circuits through the relay switches SW1 to SW16, and the plurality of OP amplifiers OP1 to OP16. The positive input terminal of is connected to the positive input terminal of the potentiometer 20 in common.

The operation of the gas sensitivity level regulator as described above is as follows.

In other words, allowing the insert 16 to the gas alarm constant gas concentration is injected into test folk operator presses the switch SW _P drawn from a 4-bit counter U ₁ random pulse is applied to the counter U _1. Therefore, whenever one pulse is applied to the input terminal PL of the counter U ₁ , a counter output corresponding thereto is generated at the output terminals Q ₁ to Q ₄ . For example, if the switch SW _P is pressed once, the output signal of 0000 is displayed at the output terminals Q ₁ to Q ₄ , and if it is pressed twice, the output signals of 1111 are displayed in order, 0001, 3 times, 0010, and 16 times. The signal is supplied to the input terminals of the gates G ₁ to G ₁₆ of the selection signal generating circuit so that the selection circuit is generated at the output terminal of the selected gate to drive the relay driver connected thereto. -) By connecting the input terminal to the potentiometer 20 and turning on the light emitting diode connected to one end of the relay switch, the operator checks the input terminal of the corresponding op amp to be adjusted by turning on the light emitting diode and at the same time By observing the scale, it is possible to precisely adjust the equilibrium state of the selected gas detection circuit.

As described above, according to the gas sensitivity level regulator of the present invention, a plurality of OP amplifier input terminals are connected with a potentiometer, and a selection signal of an input terminal to be inspected is sequentially generated to adjust the equilibrium state of the corresponding gas sensing circuit by observing the scale of the meter. By doing so, the operator can eliminate the inconvenience of operating one by one, and there is an advantage that can adjust the sensitivity of the gas detector accurate and uniform beyond the conventional sensory adjustment method.

Claims (1)

In the device for adjusting the equilibrium state of the gas detection circuit in the gas alarm, by combining the signals output from the output terminal Q ₁ ~ Q ₄ of the 4-bit counter U ₁ to the pulse input one by one through the pushbutton switch SW _P The output terminal of the selection circuit generating circuit including the gates G ₁ to G ₁₆ and the inverter generating one signal output is connected to the input terminal of the relay driving unit including the relay switches SW1 to SW16 and at the same time to be in common with each other. It is connected to the (-) input terminal of, the output terminal of the selection signal generating circuit is connected to the (-) input terminal of the OP amplifier (OP1 ~ OP16) in the plurality of gas detection circuit through the relay switch SW1 ~ SW16, A gas sensitivity level regulator of a gas alarm, characterized in that the (+) input terminal of the OP amplifiers (OP1 to OP16) is connected in common and connected to the (+) input terminal of the potentiometer 20.