KR20000072436A - system for gas measuring - Google Patents

Abstract

PURPOSE: A gas gauge system is provided to confirm the number of a slot of an impeller outside and to detect an accumulatively integrated signal at a remote distance by adding up the measured number of the slot through an electronic circuit and displaying on a liquid crystal display screen. CONSTITUTION: An optical sensor detects the rotation number of an impeller rotated by gas let in from a gas inlet hole of a gas gauge(100). A signal detection circuit(222) of a gauge system detects a signal based on the rotation number. A controller(230) displays the signal through a displayer(240) after integrating and operating through an integrating circuit(224). Thereafter, the controller stores the integrated signal through a memory unit(226). Upon a user's demand, the controller transfers the signal through a transmitting and receiving circuit(228) or displays through the displayer.

Description

Gas metering system

The present invention relates to a gas metering system. In particular, in the home, commercial, and industrial fields using LPG and LNG (city gas), the gas consumption is integrated and displayed by using an optical sensor to combine and display the gas consumption, and to generate the next generation of meter reading. The present invention relates to a gas metering system for realizing a remote meter reading method.

In general, a gas meter for measuring the amount of gas used is a method of measuring the amount of gas used on the diaphragm principle. In other words, when the rubber membrane and the crankshaft are mechanically coupled and the rubber membrane expands according to the inflow of gas, the rubber membrane and the crankshaft are connected to one axis of the crankshaft moved to the left and right to generate rotational force and transfer the rotational force to the rotary number plate using the rotational force. do.

Such a conventional gas meter has a structure of high friction coefficient and all of the structures reduce reliability of the product due to an increase in error during long-term use, and increase production costs by using dozens of parts.

In addition, there is a problem in that a separate external device must be attached in order to send and receive a signal read remotely using an existing product to electronically read the meter. Even though a separate external device is attached to perform a meter reading remotely, Because of the structure, there is a problem that the reliability is lowered because it contains the error of the gas consumption which is a fundamental signal.

The present invention has been invented to solve the above problems, an object of the present invention is to overcome the disadvantages of the existing mechanical gas meter, the difficulty of electronic, high price, high error rate and the like, the next generation meter reading method remote meter reading In order to realize the electronicization of the meter to perform the operation, the number of slots of the impeller rotating according to the inflow of gas is measured by using an optical signal, and this is displayed on the integrated screen and the liquid crystal display through an electronic circuit, and confirmed and accumulated from the outside. An object of the present invention is to provide a system for remotely detecting an integrated signal.

1 is a cross-sectional view showing the structure of a gas meter applied to the system according to the present invention.

2 is a block diagram illustrating a configuration of a gas metering system according to the present invention.

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

100: main body 110: gas inlet

120: gas outlet 122: bent portion

130 impeller 132 wings

134: rotating shaft 140: rotating groove

150: installation worker 152: step

154: O-ring 156: see-through window

158: double penetration nut 160: optical sensor

200: weighing system 210: power supply device

220: signal processor 222: signal detection circuit

224: integration circuit 226: memory

228: transceiver circuit 230: controller

240: display device 250: external control panel

The present invention for achieving such an object,

An impeller having a plurality of vanes that are rotated according to the inflow of gas into the main body, and an optical sensor for detecting rotation of the impeller, the gas meter configured to detect gas consumption according to the number of revolutions of the impeller; And

It includes a metering system for detecting the number of revolutions of the impeller detected by the optical sensor, and converts it into an electronic signal, integrating, displaying and transmitting and receiving the electronic signal to a remote location.

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

1 is a cross-sectional view illustrating the structure of a gas meter according to the present invention, and FIG. 2 is a block diagram illustrating the configuration of a gas metering system according to the present invention.

As shown in FIG. 1, the gas meter according to the present invention has a gas inlet 110 formed at one side of the main body 100, and a gas outlet 120 formed at the other side of the gas inlet 110. The gas inlet 110 and the gas outlet 120 communicate with each other to form a U-shaped bent portion 122, and an impeller having a plurality of wings 132 at the center of the bent portion 1220 and a rotating shaft 134 at the center thereof. A circular rotating groove 140 is formed to allow the 130 to rotate. Therefore, when gas is introduced through the gas inlet 110, the impeller 130 is configured to rotate about the rotation shaft 134 in the circular rotation groove 140.

An installation hole 150 having a step 152 and a screw thread (not shown) is formed at a predetermined position in the upper center portion of the rotary groove 140, and a rubber material for preventing gas leakage at the top of the step 152. O-ring 154 is placed, a transparent viewing window 156 of the transparent material is formed on the top of the O-ring 154, the double-penetration nut 158 is pressed so that the viewing window 156 and the O-ring 154 can be crimped. Has a pressed formation.

In the center of the double-penetration nut 158, an optical sensor 160 is formed to detect an optical signal reflected through the impeller 130 rotating inside the main body.

That is, the gas meter according to the present invention has an impeller 130 that is rotated in accordance with the inflow of gas in the main body 100, the installation hole 150 is formed on the upper portion of the impeller 130, the installation hole 150 There is formed a rubber O-ring 154 to prevent gas leakage to the outside and a transparent viewing window 156 through which light can pass, and a thread is formed to compress the O-ring 154 and the viewing window 156. By fixing with the double through-type nut 158 to prevent the leakage of gas.

In addition, the impeller 130 rotated by the gas introduced through the gas inlet 110 is rotated by the optical sensor 140 formed at the center of the double through-type nut 158 through the viewing window 156. The amount of gas used is detected by detecting the number of blades.

The rotation speed of the impeller 130, that is, the gas usage amount detected by the optical sensor 160 of the gas meter 100 having such a configuration, is applied to the metering system 200 as shown in FIG. 2. The metering system 200 is an external control unit 250 for receiving a signal processing unit 220, a control unit 230 and a display device 240 and the user's key operation is operated by receiving power through the power supply device 210 It is composed of

Here, the metering system 200 integrates a signal detection circuit 222 for detecting a signal applied by the optical sensor 160 of the gas meter 100 and a signal applied by the optical sensor 160 of the gas meter 100. The integrated circuit 224, the memory unit 226 for storing the signal applied from the optical sensor 160 of the gas meter 100, and the transmission and reception circuit 228 for transmitting and receiving data to the outside, respectively, the control device ( 230 is configured to transmit and receive signals.

The display device 240 is connected to an output side of the control device 230, and the external manipulator 250 for receiving a user's manipulation is configured to transmit and receive a signal with the control device 230 or the display device 240.

Therefore, when the optical sensor 160 detects the rotational speed of the impeller 130 rotating according to the gas introduced from the gas inlet 110 of the gas meter 100, the signal detection circuit 222 of the metering system rotates. According to the detection of the signal, the control unit 230 integrates and calculates the signal through the integration circuit 224 and then displays it through the display device 240 to perform the basic procedure of gas metering.

Subsequently, the control device 230 stores the signal accumulated through the memory unit 226 for a predetermined time, and when the user requests through the external control unit 250, the remote unit via the transmission / reception circuit 228. Is transmitted to or displayed through the display device 240.

As described above, the gas metering system according to the present invention has a high error rate, which is a disadvantage of the conventional mechanical (diaphragm) in integrating / metering the amount of gas (LPG, LNG) used for home, commercial, and industrial purposes. And over time, the reduced reliability and costly fabrication of accessories that wear out due to friction can be overcome. In particular, due to the characteristics of highly flammable gas, it has a structure that can completely eliminate the explosion risk that can occur when electronically measuring the gas meter.Even a simple structure using an optical sensor detects and accumulates accurate usage, integration, display and remote control. Sending and receiving is possible.

Although the preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, the present invention is not limited thereto and may be improved or modified by those skilled in the art within the scope of the technical idea of the present invention.

Claims (3)

Impeller 130 having a plurality of wings 132 rotated in accordance with the inflow of gas in the main body 100 and an optical sensor 160 for detecting the rotation of the impeller 130 is located in the rotational speed of the impeller A gas meter for detecting gas usage accordingly; And Weighing system 200 for detecting the number of revolutions of the impeller 130 detected by the optical sensor 160, converting it into an electronic signal, integration, display and transmission and reception of the electronic signal to a remote location Gas metering system comprising a; According to claim 1, The gas meter is a circular rotary groove 140 is formed between the gas inlet 110 and the gas inlet 120 formed on one side of the main body 100, the circular rotary groove An impeller 130 having a plurality of wings 132 is formed to rotate about the rotation axis 134 crossing the center in the interior of the 140, and the stepped portion 152 is formed on the upper portion of the rotation groove 140. An installation hole 150 is formed so that the O-ring 154 and the viewing window 156 are sequentially placed on the upper end of the step 152, and an optical sensor 160 is formed in the center and is screwed to the installation hole 150. A gas metering system, characterized in that the O-ring (154) and the sight glass (156) is pressed by a double through-type nut (158). According to claim 1, wherein the metering system 200 is a power supply for applying power 210; A signal detection circuit 222 for detecting a signal applied from the optical sensor 160, an integration circuit 224 for integrating the signal applied from the optical sensor 160, and an optical sensor of the gas meter 100. A signal processor 220 comprising a memory unit 226 for storing a signal applied from 160 and a transceiver circuit 228 for transmitting and receiving data to the outside; The control unit 230 is configured to transmit and receive a signal with the signal processing unit 220, and controls to perform the detection and integration of the signal according to the gas consumption transmitted from the optical sensor 160, display and transmission and reception to a remote location. ; A display device 240 connected to an output side of the control device 230 to display gas usage and a user's external operation; Gas control system, characterized in that the control device 230 or the display device 240 is configured to transmit and receive a signal, the external operation unit 250 for receiving an external operation of the user.