KR200318401Y1 - Gas flux measurement apparatus of gas machinery and tools - Google Patents

Abstract

The present invention relates to a gas flow rate measuring device of a gas machine, by measuring the flow rate of the gas in real time by attaching a flow rate measuring device to the gas pipe so that the change in the gas flow rate according to the heat of the burner portion of the gas machine faster This makes it possible to devise useful tools for the validation and development of related parts.

In particular, the present invention is the flow rate measuring unit 10 for measuring the amount of gas flowing in, the temperature sensor 20 for detecting the temperature change according to the flow rate of the gas flowing in the flow measuring unit 10 and the change in pressure The detector 30 detects the temperature and pressure through the pressure sensors 21 and 22, the amplifier 40 amplifies the output of the detector 30, and the signal from the amplifier 40 is digital. A / D converter 50 for converting into a signal, a data analysis unit 70 for analyzing the data transmitted from the A / D converter 50, a key input unit 60 and a communication unit 80 Characterized in that made.

Description

Gas flux measurement apparatus of gas machinery and tools

The present invention relates to a gas flow rate measuring device of a gas machine, and more particularly, the flow rate of the gas in real time by attaching a flow rate measuring device to the gas pipe so that the change in the gas flow rate according to the calorific value of the burner portion of the gas machine faster It relates to a gas flow rate measuring device of a gas machine that can be measured by.

Conventionally, an integrated gas flow rate measuring device is used to measure a gas flow rate of a domestic gas appliance, and a gas flow rate flowing within a predetermined time is measured, and a volume flow rate per unit time is measured and corrected to atmospheric pressure.

The integrated gas flow measuring device is filled with water or oil with a low viscosity of about 2/3 in the chamber, and when gas enters the upper part of the drum consisting of 4 or 6 independent rooms, the pressure increases to expand the room. This action causes it to rotate about its axis.

As such, the gas introduced while the drum rotates is pushed out toward the outlet of the drum, and the rotation speed of the drum is linearly proportional to the flow rate.

Therefore, the flow rate can be known immediately by measuring the rotation speed. In a general integrated gas flow measuring device, the gas introduced into the gas inlet is introduced into the front of the cylindrical drum through a pipe which is blown through the front.

The drum is divided into three to five rooms, where water and oil seal the gas. The gas rotates while the gas enters and exits sequentially in the rooms each divided by the gas pressure difference. Since the amount of gas discharged at a time is constant, the number of revolutions is countered and delivered to measure the total flow rate value.

That is, the integrated gas flow rate measuring device measures the amount of gas to be replaced with water.

However, since the integrated gas flow rate measuring device displays the instantaneous flow rate using an analog gauge, it is inconvenient to grasp the integrated value, and the gas flow rate measured according to temperature and pressure, such as gas, is measured at standard temperature / atmospheric pressure. Not only is it inconvenient to convert to, but since the integration method is applied to the flow rate of the gas flow within a certain time, there is a problem that the accuracy changes according to the measurement time.

In addition, since the real-time measurement is difficult, there is a problem in that it takes a long time to test the performance of the gas equipment.

The purpose of the present invention is to solve various problems of the prior art as described above, and an object thereof is to provide a flow rate measuring device to a gas pipe so that a change in gas flow rate according to burner heat of the gas appliance can be confirmed more quickly. An object of the present invention is to provide a gas flow rate measuring device for a gas device, which enables measurement in real time.

1 is a block diagram of a gas flow rate measuring apparatus according to the present invention,

2 is a flowchart of a gas flow measuring apparatus according to the present invention.

<Description of the symbols for the main parts of the drawings>

10: flow measurement unit 20: temperature sensor

21: IN pressure sensor 22: OUT pressure sensor

30: detector 40: amplifier (AMP)

50: A / D conversion unit 60: key input unit

70: data analysis unit 80: communication unit

90: flow rate / calorie recording unit 100: flow rate / calorie display

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a gas flow rate measuring apparatus according to the present invention, the configuration of the gas flow rate measuring apparatus as shown in Figure 1 is a flow rate measuring unit 10 for measuring the amount of gas flowing in, and the flow rate measurement A detection unit 30 for detecting temperature and pressure through a temperature sensor 20 for detecting a temperature change according to the flow rate of the gas flowing in the unit 10 and pressure sensors 21 and 22 for detecting a change in pressure; An amplification unit 40 for amplifying the output of the detection unit 30, an A / D conversion unit 50 for converting the signal of the amplification unit 40 into a digital signal, and the A / D conversion unit 50 It comprises a data analysis unit 70, a key input unit 60 and a communication unit 80 for analyzing the transmitted data, the data analysis unit 70 is an electrical signal transmitted from the flow measurement unit 10 And a recording unit 90 for analyzing and recording the flow rate / calorie and the display unit 100 for displaying the flow rate / calorie.

At this time, the flow rate measuring unit 10 is a fluid flowing through a narrow area of the cross-section based on the continuous equation of fluid dynamics flows at a higher speed than a fluid flowing through a wide area, where the speed is faster based on the Benulouis equation Since the pressure is smaller than that of the slow speed, the pressure difference between the two places can be used to measure the velocity of the fluid.

2 is a flow chart of a gas flow rate measuring apparatus according to the present invention, the pressure sensor (21, 22) formed in the flow rate measuring unit 10 when the gas flows into the flow measuring unit 10 as shown in FIG. When the pressure difference detected at the inlet / outlet is sent to the detection unit 30, the detection unit 30 electrically signals the differential pressure, which is the pressure difference between the two locations, through a pressure transduse (S110). Subsequently, the amplifier 40 has a built-in current or voltage amplifier circuit for amplifying weak electric signals due to the differential pressure. The amplifier 40 amplifies the transmitted signal and converts the analog signal into a digital signal by the A / D converter 50. (S111). The converted digital signal is amplified by a proportional electrical signal according to the flow rate in the data analysis unit 70 and the electrical signal is converted by the data analysis unit 70 and indicated by the temperature sensor attached to the flow rate measurement unit The value is converted into a flow rate (S112) and a heat amount (S113) for each gas and displayed in real time in an analog or digital manner.

At this time, the flow rate / calorie recording unit 90 formed in the data analysis unit 70 has a recorder capable of recording the flow rate signals collected in real time to record the flow rate and calories in real time (S115), the flow rate / calorie display unit ( 100) displays the flow rate and calorific value in real time to enable checking (S116).

In addition, the signal value obtained from the data analysis unit 70 is to be transmitted to the communication unit 80 is provided with an output terminal module that can be input through the USB port of the PC can calculate the flow rate / heat.

In this way, if the flow rate measuring device is attached to the gas pipe in order to grasp the gas flow rate of the domestic gas equipment in real time, the amount of gas flowing into the gas flow rate measuring device is measured in real time by opening the gas valve, It can record and transmit data to PC or external device through communication unit.

In the above described and illustrated with respect to the preferred embodiment of the present invention, but is not limited to the above-described embodiment of the present invention, without departing from the gist of the present invention claimed in the claims are common in the field Various modifications may be made by those skilled in the art, and such modifications are intended to fall within the scope of the appended claims.

As described above, according to the present invention, the flow rate can be evaluated in real time during the performance test of household gas appliances, the test period can be shortened, and the fluctuation of the flow rate can be immediately confirmed, so that the influence of burner calories can be determined more quickly. .

In addition, when the proportional valve is applied, the flow rate can be checked in real time, which is effective for the verification and development of related parts.

Claims (2)

Flow rate measuring unit 10 for measuring the amount of gas flowing in, Temperature sensor 20 for detecting the temperature change according to the flow rate of the gas flowing in the flow measuring unit 10 and pressure sensor for detecting the change in pressure ( A detection unit 30 for detecting temperature and pressure through 21 and 22, an amplifying unit 40 for amplifying the output of the detection unit 30, and A for converting a signal of the amplifying unit 40 into a digital signal. / D conversion unit 50, a data analysis unit 70 for analyzing the data transmitted from the A / D conversion unit 50, characterized in that it comprises a key input unit 60 and the communication unit 80 Device for measuring gas flow of gas equipment The method of claim 1, wherein the data analysis unit 70 The gas flow rate measurement of the gas device further comprises a recording unit 90 for analyzing the electrical signal transmitted from the flow rate measuring unit 10 to record the flow rate / calories, and the display unit 100 for displaying the flow rate / calories Device