KR19980023358A - Air volume measuring device - Google Patents

Abstract

The present invention relates to an air quantity measuring device that can automatically and accurately measure the amount of air (AIR) generated at a predetermined pressure per set unit time, the air output at a predetermined pressure from the driven air pump 20 is a pipeline In the air mass measurement device to be discharged to the measuring cylinder 40 installed in the interior of the water tank 100 through the 30, controlling the constant pressure valve 110 to maintain a constant air pressure in the accumulator 80 and Simultaneously generated from the microcomputer 50 for controlling the timer 60 for setting the driving time of the air pump 70 and the air pump 70 for driving air for a time set in the timer 60 to generate air An air compressor (90) for compressing the air transmitted to the (80), and the pressure of the air compressed in the accumulator (80) by the air compressor (90) to maintain a constant water tank through the pipe (120) Cylinder installed in 100) A static pressure valve 110 discharged to the 130, an amplifier 150 for amplifying a signal output from the water level sensor 140 whose position is changed by air introduced into the cylinder 130, and the amplification It is composed of an analog / digital converter 160 converting the converted signal into a digital signal to the microcomputer 50, the present invention automatically and accurately measures the amount of air generated at a constant pressure, the performance of the air pump Can accurately measure the amount of air generated by the air pump can be automatically measured to eliminate the trouble of the operator, and by measuring the exact amount of air can improve the reliability of the measuring device .

Description

Air volume measuring device

The present invention relates to an air mass measurement device, and more particularly, to an air mass measurement device that enables to accurately measure the amount of air generated at a constant pressure per set unit time.

As shown in FIG. 1, a conventional air quantity measuring apparatus generates air by a power supply device 10 for supplying power to an air pump 20 and power supplied from the power supply device 10. Air pump 20 and the generated air is composed of a pipe 30 connected to be supplied to the measuring cylinder 40 installed in the interior of the water tank (100).

In the conventional air flow rate measuring device as described above, when the operator who performs the measuring process operates the power supply device 10 to measure the air volume generated by the air pump 20, the output air is output from the operated power supply device 10. Power is transmitted to the air pump 20, the air pump 20 is driven by the transmitted power, is output with a predetermined pressure from the driven air pump 20 and the air through the conduit 30 It is discharged to the measuring cylinder 40 installed in the water tank 100.

Bubbles are generated and accumulated in the measuring cylinder 40 by the air discharged to the measuring cylinder 40 installed in the water tank 100.

Therefore, the operator performing the measuring process is generated by visually checking the scale engraved on the portion corresponding to the amount of air bubbles accumulated in the measuring cylinder 40 (that is, the water level inside the measuring cylinder 40). The amount of air was measured.

The conventional air volume measuring apparatus as described above performs a measurement process to measure the scale engraved on the portion corresponding to the amount of air bubbles accumulated in the measuring cylinder 40 (that is, the water level in the measuring cylinder 40). Since the operator is to check the amount of air generated by the naked eye to check, it was difficult to calculate the accurate measurement value because the width of the measurement deviation according to the eyesight of the operator performing the measurement process is too wide.

In addition, the pressure of the air generated and discharged from the air pump 20 can not be accurately calculated, there was also a problem that a bulky water tank 100 should be used.

The present invention has been made to solve the problems of the conventional air flow rate measurement device as described above, to provide an air flow rate measurement device that can automatically and accurately measure the amount of air generated at a certain pressure The purpose is.

In addition, another object of the present invention is to provide an air mass measurement device that can measure the exact performance of the air pump at the same time by accurately measuring the amount of air generated at a constant pressure.

1 is a block diagram of a conventional air flow measurement apparatus,

2 is a block diagram of the air quantity measuring apparatus according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: power supply device 20, 70: air pump (AIR PUMP)

30,120: Pipeline 40: Cylinder

50: MICOM 60: Timer (TIMER)

80: ACCUMULATOR 90: Air Compressor

100: water tank 110: static pressure valve

130: cylinder 140: water level sensor

150: amplifier

160: ANALOG DIGITAL CONVERTER: A / D converter

In order to achieve the above object, the present invention, the air output at a predetermined pressure from the driven air pump 20 is to be discharged to the measuring cylinder 40 installed inside the water tank 100 through the pipeline 30 In the air mass measurement device, the microcomputer 50 for controlling the constant pressure valve 110 for keeping the air pressure in the accumulator 80 constant and the timer 60 for setting the driving time of the air pump 70. ), An air compressor (90) for compressing the air generated from the air pump (70) which is driven for the time set in the timer (60) and generates air, and transmitted to the accumulator (80), and the air compressor (90). Constant pressure valve 110 to maintain a constant pressure of the air compressed in the accumulator 80 to discharge to the cylinder 130 installed in the water tank 100 through the pipe line 120, and the cylinder ( Water level sensor whose position is changed by the air flowing into 130) And an amplifier 150 for amplifying the signal output from the 140 and an analog / digital converter 160 for converting the amplified signal into a digital signal and transmitting the digital signal to the microcomputer 50. Is achieved.

The above and other objects and features of the present invention can be more clearly understood by the embodiments described in detail with reference to the accompanying drawings.

2 of the drawings is a block diagram of the air mass measurement device according to the present invention.

Hereinafter, an operation relationship of the air mass measuring device according to the present invention will be described.

The operator who performs the measurement process sends the driving time (eg, '1' time) of the air pump 70 and the pressure of the air to be discharged to the exhaust port of the positive pressure valve 110 to the MICOM 50. In the setting (SETTING) state to operate the air mass flow measuring apparatus of the present invention.

By the data DATA input by the operator, the microcomputer 50 transmits a control signal to the timer 60 to drive the air pump 70 for a predetermined time (eg, '1' time). The timer 60 receiving the control signal from the microcomputer 50 transmits the control signal to the air pump 70 so that the air pump 70 can be driven only for a set time (eg, '1' time). ), And the air pump 70 receiving the control signal is driven for a set time (for example, '1' time).

Air is generated from the driven air pump 70, and the air generated from the air pump 70 is transferred to an accumulator 80, and the air is transferred to the accumulator 80. Is compressed by an air compressor 90.

The air compressed in the accumulator 80 by the air compressor 90 is transferred to the positive pressure valve 110.

In this case, the positive pressure valve 110 maintains the compressed air transferred from the accumulator 80 at a constant pressure (that is, a predetermined pressure set by the operator) by the control signal transmitted from the microcomputer 50. The air maintained at the predetermined constant pressure is discharged to the cylinder 130 installed in the water tank 100 through the conduit 120 connected to the exhaust port of the positive pressure valve 110, and discharged to the cylinder 130. The position of the water level sensor 140 installed in the cylinder 130 is changed by the pressure of air.

The corresponding signal is output from the variable level sensor 140 to the position corresponding to the pressure of the air discharged to the cylinder 130 and transmitted to the amplifier 150, and the signal transmitted to the amplifier 150 is amplified. And an analog / digital converter (ANALOG / DIGITALCONVERTER) 160, and the amplified analog signal transmitted to the analog / digital converter 160 is converted into a digital signal and transmitted to the microcomputer 50.

By the signal transmitted to the microcomputer 50, the microcomputer 50 is the area (S) of the cylinder 130 and the signal output by the water level sensor 140 (that is, the water level in the cylinder 130 ( 'L') will process the data.

Therefore, the operator can know that the data calculated by the microcomputer 50 is the amount of air generated from the air pump 70.

As described above, the present invention automatically and accurately measures the amount of air generated at a constant pressure, so that the performance of the air pump can be accurately measured, and the amount of air generated from the air pump can be automatically measured. It can eliminate the hassle of, and can measure the exact amount of air can improve the reliability of the measuring device.

Claims (1)

In the air volume measuring device is such that the air output at a predetermined pressure from the driven air pump 20 is discharged to the measuring cylinder 40 installed inside the water tank 100 through the conduit 30, The microcomputer 50 for controlling the constant pressure valve 110 for maintaining a constant air pressure in the accumulator 80 and controlling the timer 60 for setting the driving time of the air pump 70, and the timer ( An air compressor (90) for compressing the air generated from the air pump (70) which is driven for the time set in (60) and generates air and transmitted to the accumulator (80), and by the air compressor (90) 80 is a constant pressure valve 110 and the air introduced into the cylinder 130 to maintain a constant pressure of the compressed air therein to discharge to the cylinder 130 installed in the water tank 100 through the pipeline 120 An amplifier 150 for amplifying the signal output from the water level sensor 140 whose position is converted by the controller, and an analog / digital converter 160 for converting the amplified signal into a digital signal and transmitting the digital signal to the microcomputer 50. Air mass measurement device, characterized in that consisting of.