KR102014752B1 - Automatic meter reading system of gas overcharge regulater - Google Patents

Abstract

According to the present invention, the remaining amount of gas in the gas container can be checked through an electronic device or a wireless mobile communication terminal without visually checking on-site, and it can be determined whether a switch-off or disconnection has occurred through the measured value at the time of the meter reading. It is an object of the present invention to provide a remote metering system of a gas changer.
In order to achieve the above object, the remote meter reading system of the gas changer according to the present invention is coupled to the main gas container (100a, 100c) and the auxiliary gas container (100b, 100d) to sequentially supply the gas in the office building 400 It is determined between the plurality of switchers 200 for generating and transmitting an electrical contact signal for wireless transmission when the gas supply is switched, and is installed between the switcher 200 and the combustion engine in the office building 400 to measure the amount of gas used for wireless transmission. The gas meter 300 includes a gas detector 500 for wirelessly detecting leaks of gas from the main gas container 100a and the auxiliary gas containers 100b, 100c, 100d,...

Description

Remote meter reading system of gas changer {AUTOMATIC METER READING SYSTEM OF GAS OVERCHARGE REGULATER}

The present invention relates to a remote meter reading system of a gas changer, and more particularly, a remote meter reading of a gas changer which can be confirmed through an electronic device or a wireless mobile communication terminal without visually checking the remaining amount of gas in the gas container. It's about the system.

As the LP gas supply method is changed from a weight transaction method to a volume transaction method, an automatic switcher for automatically switching the gas supply by two or more container gases and these container gases for each customer and a gas meter for measuring the amount of gas used It is necessary to install.

In order to operate the LP gas volume trading smoothly and efficiently, the gas seller needs to know the timing of the transfer of container gas for each customer. However, since the gas consumption per customer is not constant and the usage per unit time is very unspecified, Since it is practically unreasonable to manage the timing of container gas replacement for all consumers according to the schedule set, the electrical contact signal is generated whenever the container gas is changed in each customer, and this electrical contact signal is transmitted to the gas distributor through power line communication. By being notified in real time, the gas distributor can visually check whether the gas in the gas container is empty and then immediately replace the empty LP gas container with a filled container.

However, as described above, the method of visually confirming whether the gas in the gas container is empty by the gas seller is very inefficient, and the gas seller has a problem in that transportation costs, labor costs, and time consuming excessively occur.

Accordingly, the present invention has been proposed to solve the above-described demands, and its purpose is to check the remaining amount of gas in the gas container through the electronic device or the wireless mobile communication terminal without visually checking the remaining amount of the gas in the field, The present invention relates to a remote meter reading system of a gas changer that can determine whether a switch-off or disconnection has occurred through a measurement value during meter reading.

In order to achieve the above object, the remote meter reading system of the gas changer according to the present invention is coupled to the main gas container (100a, 100c) and the auxiliary gas container (100b, 100d) to sequentially supply the gas in the office building 400 It is determined between the plurality of switchers 200 for generating and transmitting an electrical contact signal for wireless transmission when the gas supply is switched, and is installed between the switcher 200 and the combustion engine in the office building 400 to measure the amount of gas used for wireless transmission. The gas meter 300 includes a gas detector 500 for wirelessly detecting leaks of gas from the main gas container 100a and the auxiliary gas containers 100b, 100c, 100d,...

In addition, the remote meter reading system of the gas changer according to the present invention, the transfer data of the gas container 100 transmitted from the plurality of the changer 200 and the gas container 100 transmitted from the gas meter 300. It further includes a collection device 600 for collecting the metering data and the detection data of the gas container 100 transmitted from the gas detector 500.

In addition, the remote meter reading system of the gas changer according to the present invention further includes an amplifying device 700 for amplifying the data signal received from the collecting device.

In addition, the remote meter reading system of the gas changer according to the present invention further comprises a wireless mobile communication or electronic device 800 for receiving the amplified data signal from the amplification device (700).

In addition, the remote meter reading system of the gas changer according to the present invention, the switch 200 has an electronic contact 232 which is attached to the iron plate 231 of the signal case 230 by a magnetic force to perform a switch function, A resistor 234 connected in parallel between both ends of the electronic contact 232 is further included.

According to the present invention, the remaining amount of gas in the gas container is confirmed through the electronic device or the wireless mobile communication terminal without visually checking the field, and it is determined whether the switch-off or disconnection has occurred through the measured value at the time of the meter reading. It is effective to provide a remote metering system of a gas changer.

BRIEF DESCRIPTION OF THE DRAWINGS The figure which shows the structure of the meter reading system of a gas changer.
Figure 2 is a block diagram showing the overall configuration of the remote meter reading system of the gas changer according to the present invention.
Figure 3 is an exploded perspective view of the switching contact generating unit of the gas changer in the remote meter reading system of the gas changer according to the present invention.
Figure 4 is a resistor mounted on the switching contact generating portion of the gas changer in the remote meter reading system of the gas changer according to the present invention.

As the invention allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all transformations, equivalents, and substitutes included in the spirit and scope of the present invention. In the following description of the present invention, if it is determined that the detailed description of the related known technology may obscure the gist of the present invention, the detailed description thereof will be omitted.

Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. As used herein, the terms "comprise" or "have" are intended to indicate that there is a feature, number, step, action, component, part, or combination thereof described on the specification, and one or more other features. It is to be understood that the present invention does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, components, or a combination thereof.

In addition, in describing the present invention, when it is determined that the detailed description of the related known technology may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

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

1 is a view showing the configuration of the gas change meter reading system, Figure 2 is a block diagram showing the overall configuration of the remote meter reading system of the gas changer according to the present invention.

1 and 2, the remote meter reading system 1000 of the gas changer according to the present invention is coupled to the main gas containers 100a and 100c and the auxiliary gas containers 100b and 100d in the office building 400. The gas supply is sequentially determined and is installed between the plurality of switchers 200 generating electrical contact signals and wirelessly transmitting them when switching the gas supply, and between the switcher 200 and the combustion engine in the office building 400 to measure gas usage. And a gas detector 500 which wirelessly transmits the gas meter 300 which detects a leak of gas from the main gas container 100a and the auxiliary gas containers 100b, 100c, 100d,...

Here, the remote meter reading system 1000 of the gas changer according to the present invention, the transfer data of the gas container 100 transmitted from the plurality of changers 200 and the gas container 100 transmitted from the gas meter 300. It may further include a collection device 600 for collecting the metering data of the) and the detection data of the gas container 100 transmitted from the gas detector 500.

In addition, the remote meter reading system 1000 of the gas changer according to the present invention, the amplification device 700 for amplifying the data signal received from the collection device, and the wireless movement for receiving the amplified data signal from the amplification device 700 The communication or electronic device 800 may further include.

In more detail, the gas meter remote meter reading system 1000 according to the present invention is coupled to the main gas container (100a, 100c) and the auxiliary gas container (100b, 100d) to sequentially supply the gas in the office building 400 It is determined between the plurality of switchers 200 for generating and transmitting an electrical contact signal for wireless transmission and switching between the switcher 200 and the combustion engine in the office building 400 to determine the amount of gas used for wireless transmission. It includes a gas meter 300, a gas detector 500 for detecting the leakage of gas from the main gas container (100a) and the auxiliary gas container (100b, 100c, 100d, ...) and wireless transmission.

That is, the remote meter reading system 1000 of the gas changer according to the present invention is configured to be combined with the switch 200 and the gas meter 300 that are previously sold. Due to the nature of the terminal installed outdoors, waterproof and airtight is required, and has a structure that is resistant to future explosions or external shocks.

The remote meter reading system 1000 of the gas changer is an integrated system that checks information in real time through a PC and a mobile program and enables safety measures.

In addition, the remote meter reading system 1000 of the gas changer according to the present invention, the transfer data of the gas container 100 transmitted from the plurality of changers 200 and the gas container 100 transmitted from the gas meter 300. It may further include a collection device 600 for collecting the metering data of the) and the detection data of the gas container 100 transmitted from the gas detector 500.

In addition, the remote meter reading system 1000 of the gas changer according to the present invention includes an amplifying apparatus 700 for amplifying a data signal received from a collecting apparatus, and a wireless receiving amplified data signal from the amplifying apparatus 700. It may further include a mobile communication or electronic device (800).

By using low-power Bluetooth technology [ BLE -Bluetooth Low Energy], you can use the battery for a long time.

In addition, it is possible to build a communication infrastructure combined with long-distance transmission technology using LPWAN.

That is, the transfer data of the gas container 100 transmitted from the plurality of switching machines 200, the measurement data of the gas container 100 transmitted from the gas meter 300, and the gas container transmitted from the gas detector 500. Bluetooth is used between the collection devices 600 that collect detection data of 100. Of course, in the present invention, for ease of explanation, Bluetooth is used as short-range communication between the switcher 200, the meter 300, the gas detector 500, and the collection device 600, but is not limited thereto. Various other near field communication (eg, Zigbee modules, ultra wide band (UWB) modules, Wi-Fi modules, and World Interoperability for Microwave Access (WiMAX) modules) may be used.

On the other hand, between the collection device 600 and the amplification device 700 to use a remote transmission technology using LPWAN.

3 is an exploded perspective view of a transfer contact generating unit of the gas changer in the remote meter reading system of the gas changer according to the present invention.

Referring to FIG. 3, in the remote meter reading system 100 of the gas changer according to the present invention, the electrical contact generator of the switch 200 generating the transfer information of the gas container 100 has the following configuration.

Here, the electrical contact generating unit for informing the transfer signal during the gas supply switching operation from the main gas containers (100a, 100c) to the auxiliary gas containers (100b, 100d) is provided in the upper portion of the switch 200.

The contact generating unit is configured to install a rotating body 252 formed integrally with the change handle 251 on the upper side of the changer 200, the semi-circular first guide hole 253 on the upper end of the rotating body 252 And a second guide hole 254, and the first guide hole 253 and the second guide hole 254 are formed in a cam shape so that a deviation is made from the center.

In addition, a support disc 241 is mounted on the upper surface of the rotating body 252.

The first guide protrusion 242 and the second guide protrusion 243 protruding from the bottom surface of the support disc 241 are inserted into the first guide hole 253 and the second guide hole 254 to be guided.

A through hole 244 is formed in the center of the support disc 241, and support ribs 245 and 245 'are installed on both sides thereof, and a signal case 230 is provided on the top of the support ribs 245 and 245'. Mounted to be fixed but the inside of the iron plate 231 and the electronic contact 232 is installed.

A lever 220 is installed at one side of the support ribs 245 and 245 ', and hinge shaft holes are formed at one side of the support ribs 245 and 245' as mounting means, and protruding to both sides of the lever 220. Hinge shafts 221 and 221 'are inserted rotatably.

The lever 220 forms a signal plate 222 at the upper end, but the signal plate 222 gives a color for visual identification.

The magnetic 223 is attached to the upper side of the lever 220 and protrudes from the protrusion 224 below.

In addition, a first spring support 225 is formed at the side edge, and a corresponding second spring support 225 'is formed at one side of the support rib 245'.

The resilient spring 226 is inserted into one hinge shaft 221 'of the lever 220, and both resilient ends 227 and 227' of the resilient spring 226 have a first spring support 225 and a second spring. It is caught by the support 225 '.

The front of the support ribs (245, 245 ') is installed upright wire support plate 246 provided with a wire support groove.

The push protrusion 255 is formed at the upper end of the shaft, and the push protrusion 255 is installed to abut the protrusion jaw 224 through the through hole 244.

The cover 210 having the see-through window 211 is placed on the upper side of the rotor 252.

The contact signal generation process of such a switch 200 is as follows.

If the vaporization pressure of the liquefied gas supplied indoors through the main gas containers 100a and 100c is greater than the spring force of the spring of the automatic transfer machine, the lever 220 is set aside and the color is displayed through the viewing window 211. The color of the signal plate 222 is invisible.

In such a state, when the vaporization gas pressure of the main gas containers 100a and 100c drops, the spring support plate pushes the diaphragm downward by the restoring force of the compressed spring 226 to lower the transfer shaft.

When the shaft of the transfer device 200 descends, the push protrusion 255 also descends while pushing down the lower end of the projection jaw 224 of the lever 220. At this time, the lever 220 rotates about the hinge shafts 221 and 221 'so that the magnetic 223 of the lever 220 is magnetically attached to the iron plate 231 of the signal case 230 so that a switch function is achieved. The signal is generated from 232.

When the electronic contact 232 signal is received and displayed in the information processing apparatus of the gas distributor through the switcher 200 of the customer, the seller delivers a new gas container to the customer and then fills the empty gas container. Replaced gas container.

At this time, the auxiliary gas containers 100b and 100d become the main gas container, and the newly replaced gas container becomes the auxiliary gas container.

The distinction between the main gas container and the auxiliary gas container indicates that the gas distributor rotates the change handle 251 on the upper part of the automatic changer 180 degrees after replacing the gas container, thereby presenting a container, that is, a main gas container currently supplying the gas indoors. Will be released.

Accordingly, the gas container coupled to the side indicated by the change handle 251 becomes a main container that supplies gas to the indoor kitchen or the like.

The transfer machine 200 is designed such that the vaporization pressure of the main gas containers 100a and 100c in which the change handle 251 is located is always preferentially supplied to the vaporization pressures of the auxiliary gas containers 100b and 100d.

On the other hand, in the remote meter reading system 1000 of the gas changer according to the present invention, the switch 200 includes an electronic contact 232 which is attached to the iron plate 231 of the signal case 230 by a magnetic force to perform a switch function. The resistor 234 is further connected in parallel between both ends of the electronic contact 232.

As such, the role of the resistor 234 connected in parallel between both ends of the electronic contact 232 will be described with reference to FIG. 4.

4 is a view in which a resistor is mounted on a switching contact generating unit of the gas changer in the remote meter reading system of the gas changer according to the present invention.

Referring to FIG. 4, in the remote meter reading system 1000 of the gas changer according to the present invention, the changer 200 is magnetically attached to the iron plate 231 of the signal case 230 so that a switch function is performed. And a resistor 234 connected in parallel between both ends of the electronic contact 232.

The reason why the resistors 234 are connected in parallel between both ends of the electronic contact 232 is as follows.

On (R) OFF (B) monorail Switch (without resistor) 0 4095 4095 Switch (with resistor) 0 2000 4095 Color signal Red (R) Blue (B) Blue (B) / red (R)

As shown in Table 1, the color signal of the switcher 200 generates a red (R) signal when the switch is connected (on), and a blue (B) signal when the switch is not connected (off). Will generate

However, when the resistance 234 is not included between both ends of the electronic contact 232, the resistance measurement value is measured as 0 when the switch is connected, and the resistance measurement value is measured as 4095 when the switch is not connected. .

However, if the resistance measurement is measured at 4095 when the switch is not connected in this way, it is impossible to remotely check whether the switch is disconnected or disconnected. This is because the resistance measurement is measured at 4095 even in the case of a disconnection. That is, when the resistance measurement value of the switcher 200 is measured as 4095, the manager should visit the site directly and check whether the resistance measurement value is measured as 4095 because the switch is not connected or is disconnected. There is discomfort.

However, as in the present invention, when the resistor 234 is connected in parallel between both ends of the electronic contact 232 of the switch 200, that is, the resistance (between the both ends of the electronic contact 232, as shown in Table 1) If 234 is not included, the resistance measurement is measured as 0 when the switch is connected, and the resistance measurement is measured as 2000 when the switch is not connected. In the case of disconnection, the resistance measurement is measured at 4095.

As a result, the remote administrator can determine whether the switch is connected, not connected, or disconnected without visiting the site.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

100: gas container
100a, 100c: main gas container
100b, 100d: auxiliary gas container
200: transfer machine
300: Meter
400: office building
500: Gas Detector
600: collection device
700: amplification device
800: wireless mobile communication or electronic device
1000: remote meter reading system of gas changer

Claims (5)

A plurality of switchers that are coupled to the main gas container (100a, 100c) and the auxiliary gas container (100b, 100d) to sequentially determine the gas supply in the office building 400, and generates an electrical contact signal when the gas supply is switched to wireless transmission ( 200),
A gas meter 300 installed between the switching machine 200 and the combustion engine in the office building 400 to wirelessly measure and measure gas usage;
It includes a gas detector 500 for detecting the leakage of gas from the main gas container (100a) and the auxiliary gas container (100b, 100c, 100d, ...) and wireless transmission,
The switcher 200 has an electronic contact 232 which is attached to the iron plate 231 of the signal case 230 by a magnetic force, the switch function is performed,
Further comprising a resistor 234 connected in parallel between both ends of the electronic contact 232,
The resistance reading of the gas changer is measured by the resistance (234) when the switch is disconnected and when the disconnection is different. The method of claim 1,
Alternation data of the gas container 100 transmitted from the plurality of switching machines 200, measurement data of the gas container 100 transmitted from the gas meter 300, and gas transmitted from the gas detector 500. The remote meter reading system of the gas changer further comprises a collecting device (600) for collecting detection data of the container (100). The method of claim 2,
And amplifying device (700) for amplifying the data signal received from the collecting device. The method of claim 3, wherein
The remote meter reading system of the gas switch further comprises a wireless mobile communication or electronic device (800) for receiving the amplified data signal from the amplification device (700). delete

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