CN112665635A - Gas induction device and gas barrel distribution system with same - Google Patents

Abstract

A gas sensor and a gas barrel distribution system with the gas sensor, comprising a gas adjuster having a gas guide tube with a pressure-measuring end; the pressure sensor is used for sensing gas pressure data in the gas guide tube and generating a pressure value, and the temperature sensor is used for sensing environmental temperature and generating a temperature value; the communication module is provided with a storage unit and a transmission unit, and the storage unit is used for storing user contact data; the processor is internally provided with a plurality of reporting default values comprising temperature values and pressure values, the processor receives the pressure values and the temperature values, judges whether the temperature values reach the temperature values of one of the reporting default values or not, judges whether the pressure values are lower than the pressure values of the reporting default values or not, generates a gas replacing signal if the pressure values are judged to be lower than the pressure values of the reporting default values, and sends the gas replacing signal to an external device.

Description

Gas induction device and gas barrel distribution system with same

Technical Field

The present invention relates to a gas sensor, and more particularly to a gas sensor which is installed in a gas barrel and can remind a user of the residual gas in the gas barrel.

The present application claims the priority of taiwan application nos. 108137318, 108213636 filed concurrently on 16.10.2019. The entirety of the above-mentioned patent application is hereby incorporated by reference and made a part of this specification.

Background

The gas tank, which is a steel structure, can bear a large vapor pressure, is commonly used for filling liquefied petroleum gas fuel, and is widely used in restaurants, snack bars or ordinary residences without a natural gas pipeline. In order to make the user know the gas storage in the gas barrel, the gas barrel is usually provided with a pressure gauge for detecting the gas pressure in the gas barrel, so that the user can know the residual gas in the gas barrel by means of the pressure gauge.

However, if the user does not have the habit of looking at the pressure gauge at any time, the user often cannot detect that the gas is about to be exhausted in time, but can only know that the gas in the gas barrel is exhausted when the ignition of the gas stove or the heater is not smooth.

Because the gas in the gas barrel is changed into gas from liquid state and then is output to the outside (a gas stove and a water heater) for use, the gas pressure is low during cold days, so that the gas is not used up and can not be combusted due to insufficient pressure; therefore, the pressure in the gas barrel is related to the normal room temperature, if the temperature is high, the pointer indication pressure is also increased, and conversely, if the temperature is low, the pointer indication pressure is also reduced. Therefore, it is difficult to avoid a certain degree of distortion by simply using the pressure gauge to detect the amount of gas in the gas barrel.

Accordingly, there is a need to provide a gas sensor to improve the above mentioned problems.

Disclosure of Invention

The main technical problem to be solved by the present invention is to overcome the above-mentioned defects in the prior art, and to provide a gas sensor and a gas barrel distribution system having the same, which can be installed in a gas barrel, and generate a gas replacement signal with temperature compensation by comparing and judging a default value of a report including a temperature value and a pressure value, so as to more accurately remind replacement when the gas in the gas barrel is about to be used up; the method can perform path planning on a plurality of clients needing to replace gas so as to generate a distribution schedule window for the gas supply end to distribute the gas according to the distribution schedule window.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a gas sensor device, comprising: the gas regulator is provided with a gas guide pipe body, two ends of the gas guide pipe body respectively form an air inlet end and an air supply end, a pressure measuring end is arranged between the air inlet end and the air supply end, and the pressure measuring end is communicated with the air inlet end and the air supply end; the gas regulator comprises a gas guide tube, a sensing module, a pressure sensor and a temperature sensor, wherein the gas guide tube is used for guiding gas in the gas guide tube to flow through the gas regulator, the sensing module is provided with a pressure sensor and a temperature sensor, the pressure sensor is combined with a pressure detection end at the pressure detection end and is fixed on the gas regulator through a fixing piece, the pressure sensor is used for sensing gas pressure data in the gas guide tube to generate a pressure value, and the temperature sensor is used for sensing ambient temperature and generating a; the communication module is arranged on the gas regulator and is provided with a storage unit and a transmission unit, and the storage unit is used for storing user contact data; a processor, electrically connected to the sensing module and the communication module, and having a plurality of default values for transmitting messages including temperature values and pressure values, wherein the processor receives the pressure values and the temperature values, determines whether the temperature values reach the temperature values of one of the default values for transmitting messages, and then determines whether the pressure values are lower than the pressure values of the default values for transmitting messages, if the pressure values are lower than the pressure values of the default values for transmitting messages, a gas replacing signal is generated according to the user contact data, and the processor sends a control signal to the transmission unit to control the transmission unit to send the gas replacing signal to an external device; and the power supply module is electrically connected with the processor and used for providing electric energy.

A gas barrel dispensing system comprising: a gas supply end for providing and distributing gas barrel, the gas supply end having a communication device; several clients, each of which has a gas barrel equipped with the gas sensor, the user contact data of the gas sensor has a user address; and a cloud server coupled to the contact device and the plurality of gas sensing devices, wherein when the cloud server receives the gas replacement signal, the cloud server performs path planning on the user address by a path planning algorithm to generate a delivery scheduling window, and the cloud server transmits the delivery scheduling window to the contact device.

Therefore, the gas barrel replacement reminding system and the gas barrel distribution system with the gas sensing device of the invention can detect a temperature value generated by the ambient temperature used by the invention through the temperature sensor, and obtain a plurality of sending default values including the temperature value and the pressure value by matching with an experiment built in the processor, so as to form a pressure sensing mechanism with temperature compensation, can more accurately know the residual gas quantity in the gas barrel, and timely inform the gas supply end, so that the gas supply end can actively assist the client end to replace the gas barrel. And then, can also carry on the route planning according to the customer address of several customer ends needing to change the gas barrel, in order to produce a delivery scheduling window, for the gas supply end to carry on the delivery of the gas barrel according to the delivery scheduling window. Therefore, the client can be prevented from knowing that the gas is exhausted when the gas appliance cannot be ignited, the manpower and time consumed by a gas supplier in distribution can be reduced, and the effects of avoiding life inconvenience caused by insufficient gas, reducing gas distribution cost and the like are achieved.

The sensing module is provided with an electric quantity sensor which is used for sensing the electric quantity of the power supply module to generate a residual electric quantity value, the processor analyzes whether the residual electric quantity value is lower than an electric quantity threshold value, if so, a battery replacement signal is generated according to the user contact data, and the processor sends another control signal to the transmission unit to control the transmission unit to send the battery replacement signal to the external device. Therefore, the battery replacement reminding device has the effect of reminding a user or a gas business person to replace the battery.

The gas sensing device of the present invention may further comprise an upper cover, wherein the upper cover is combined with the gas regulator, and the sensing module, the communication module, the processor and the power supply module are jointly covered by the upper cover and the gas regulator. Therefore, the electronic parts can be packaged in the gas regulator and the upper cover, and the gas regulator has the effect of protecting the electronic parts.

The sensing module senses the electric quantity of the power supply module by using an electric quantity sensor to generate a residual electric quantity value, the processor analyzes whether the residual electric quantity value is lower than an electric quantity threshold value, if so, a battery replacing signal is generated according to the user contact data, the battery replacing signal is sent to the cloud server, and when the cloud server receives the battery replacing signal, the cloud server generates the distribution scheduling window according to the battery replacing signal and sends the distribution scheduling window to the contact device. Therefore, the battery replacement reminding device has the effect of reminding a gas maker of replacing the battery.

The gas tank has the advantages that the gas tank can be arranged on a gas tank, and a gas replacement signal with temperature compensation is generated through comparison and judgment of the sent default values including the temperature value and the pressure value, so that the gas tank can more accurately remind the user of replacement when the gas in the gas tank is about to be used up; the method can perform path planning on a plurality of clients needing to replace gas so as to generate a distribution schedule window for the gas supply end to distribute the gas according to the distribution schedule window.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a perspective view of the present invention.

Fig. 2 is a perspective exploded view of the detachable upper cover of the present invention.

Fig. 3 is a schematic perspective exploded view of the present invention.

FIG. 4 is a system block diagram of the gas sensor of the present invention.

Fig. 5 is a schematic perspective exploded view of a second embodiment of the present invention.

Fig. 6 is an exploded perspective view of another perspective view of a second embodiment of the present invention.

FIG. 7 is a schematic plan view of a second embodiment of the present invention, which is connected to a plurality of gas barrels for providing a using structure.

FIG. 8 is a block diagram of a gas barrel distribution system according to a preferred embodiment of the present invention.

The reference numbers in the figures illustrate:

1. gas regulator

11. air duct body

12. Air inlet end 53

13. 52 gas supply end

14. 51 pressure measured end

15. power supply module

16. top cover

2. sense Module

21. pressure sensor

211. pressure value

22. pressure detection terminal

23. mounting piece

24. electric quantity sensor

241 DEG residual electric quantity value

25. temperature sensor

251. temperature value

26. power cord

3. communication module

31. storage unit

32. transmission unit

4. processor

41. report default value

42. gas change signal

43. control signal

44. Battery replacement Signal

5. air manifold

6. assembling shell

61. external connection part

7. gas supply terminal

71. communication device

8. client

9. cloud server

91. distribution scheduling window

G.gas induction system

Detailed Description

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below:

referring to fig. 1 to 4, a preferred embodiment of the gas sensing device of the present invention includes a gas regulator 1, a sensing module 2, a communication module 3, a processor 4 and a power supply module 15, wherein the sensing module 2 is combined with the gas regulator 1, the communication module 3 is disposed in the gas regulator 1, and the processor 4 is electrically connected to the sensing module 2, the communication module 3 and the power supply module 15.

The appearance of the gas regulator 1 is not limited in the present invention, and the gas regulator 1 has a gas guiding tube 11, two ends of the gas guiding tube 11 respectively form an air inlet end 12 and an air supply end 13, the air inlet end 12 can be connected to a gas source (such as a gas barrel), and the air supply end 13 can be connected to a gas appliance (such as a gas stove). A pressure-measured end 14 is disposed between the air inlet end 12 and the air supply end 13, and the pressure-measured end 14 is communicated with the air inlet end 12 and the air supply end 13.

The sensing module 2 has a pressure sensor 21 and a temperature sensor 25, the pressure sensor 21 is combined with the pressure-detecting end 14 by a pressure-detecting end 22, and is fixed on the gas regulator 1 by a fixing member 23. The pressure sensor 21 is used for sensing the gas pressure data in the gas guide tube 11 to generate a pressure value 211; the temperature sensor 25 is used for sensing the ambient temperature in the implementation of the present invention and generating a temperature value 251.

The communication module 3 is disposed in the gas regulator 1, the communication module 3 has a storage unit 31 and a transmission unit 32, the storage unit 31 is used to store a user contact data, in this embodiment, the storage unit 31 is a Subscriber Identity Module (SIM), and the user contact data may include at least one of a user address, a user phone number and a user community account number. The transmitting unit 32 can be used to send out a notification signal having the user contact data, for example, but not limited to, the transmitting unit 32 can be a wireless transmitting unit such as GSM, WiFi, Zigbee, NB-IoT, Sigfox or LoRa.

The processor 4 is electrically connected to the sensing module 2 and the communication module 3, and the processor 4 can be an electronic component with signal generation, logic determination and data storage functions, such as: a Microcontroller (MCU); and the processor 4 is built-in with a plurality of default values 41 for transmitting messages including temperature values and pressure values, each default value 41 for transmitting messages is obtained through experiments, wherein the pressure values corresponding to the temperatures are obtained from 8 ℃ to 38 ℃ (the default value 41 for transmitting messages can be converted into a residual gas amount when the gas content is insufficient, only two groups of values of 20 ℃ and 30 ℃ are taken as examples, the default value 41 for transmitting messages corresponding to 20 ℃ obtained through experiments is 21-22 psi, and the default value 41 for transmitting messages when the temperature of summer reaches 30 ℃ is 31-32 psi). After receiving the pressure value 211 and the temperature value 251, the processor 4 first determines whether the temperature value 251 reaches a temperature value of one of the reported default values 41, and then determines whether the pressure value 211 is lower than the pressure value of the reported default value 41, if it is determined that the pressure value 211 is lower than the pressure value of the reported default value 41 (if the received pressure value 41 is lower than 31psi when the temperature value 251 is 30 ℃, and the received pressure value 41 is lower than 21psi when the temperature value 251 is 20 ℃), a gas change signal 42 is generated according to the user contact data, the processor sends a control signal 43 to the transmission unit 32 to control the transmission unit 32 to send the gas change signal 42 to an external device, and the external device can be a cloud server; if the determination result is negative, no additional action is required.

The power supply module 15 is electrically connected to the processor 4, the power supply module 15 is used for providing electric energy, in this embodiment, the power supply module 15 may be an alkaline battery, a lithium battery or an external power source, which is not limited in the present invention.

The sensing module 2 of the gas sensing device of the present invention may further include an electric quantity sensor 24, wherein the electric quantity sensor 24 is used for sensing the electric quantity of the power supply module 15 to generate a residual electric quantity value 241. The processor 4 can analyze whether the remaining electric quantity value 241 is lower than an electric quantity threshold, if so, another battery replacement signal 44 is generated according to the user communication data, and the processor 4 can send another control signal to the transmission unit 32 to control the transmission unit 32 to send the battery replacement signal 44 to the external device; if the result of the analysis is negative, no additional action is required.

The gas sensor of the present invention may further include an upper cover 16, and the appearance of the upper cover 16 is not limited in the present invention. The upper cover 16 is combined with the gas regulator 1, and preferably, the upper cover 16 and the gas regulator 1 together cover the sensing module 2, the communication module 3, the processor 4 and the power supply module 15.

With the above structure, the gas sensor of the present invention can write the user contact data into the storage unit 31 in advance. When the gas regulator 1 is installed, the user or the gas producer can connect the gas inlet 12 to the outlet of a gas barrel and connect the gas inlet 13 to a gas appliance such as a gas stove through a pipe to complete the installation. Continuously monitoring the pressure change of the gas in the gas barrel flowing from the gas inlet 12 to the gas supply 13 by the pressure sensor 21 to generate a pressure value 211; meanwhile, the temperature sensor 25 senses the ambient temperature in which the present invention is implemented to generate a temperature value 251. The processor 4 receives the pressure value 211, the temperature value 251 determines whether the temperature value 251 reaches a temperature value of one of the reported default values 41, and then determines whether the pressure value 211 is lower than the pressure value of the reported default value 41, if the pressure value 211 is lower than the pressure value of the reported default value 41, the processor 4 can transmit the user contact data to a cloud server through the transmission unit 32, so that the cloud server informs the user according to the user contact data to inform the user that the gas is insufficient and must be replaced, and the user contact data is transmitted to the gas provider, so that the gas provider can actively assist the user to replace the gas barrel.

On the other hand, the power sensor 24 continuously monitors the power of the power module 15 to generate a remaining power value 241. The processor 4 receives and analyzes whether the remaining electric quantity value 241 is lower than an electric quantity threshold value, if so, the processor 4 may transmit the user contact data to the cloud server through the transmission unit 32, so that the cloud server transmits the user contact data to the gas provider, and the gas provider can actively assist the user in replacing the power supply module 15.

Compared with the household structure matched with the gas regulator 1, the gas regulator can only be connected with a single gas barrel; referring to fig. 5 to 7, a second embodiment of the gas sensor of the present invention is an open type structure connecting a plurality of gas barrels, comprising: an air manifold 5 having a pressure-measuring end 51, a plurality of branched air-supplying ends 52 and a plurality of air-intake ends 53, wherein the air-intake ends 53 are connected to a plurality of gas barrels for guiding gas to the air-intake ends 53.

A set of connecting shell 6 has an external connection portion 61 protruding outward, and the external connection portion 61 has an external thread 611 for providing an internal screw hole (not shown) assembled at the pressure-measuring end 51.

A sensing module 2 is disposed in the assembly housing 6, and has a pressure sensor 21, a temperature sensor 25 and a power line 26 connected to an external power source, the pressure sensor 21 is assembled and combined with the external portion 61 through a pressure detection end 22, and is fixed by a fixing member 23 in cooperation with screws, the pressure sensor 21 is assembled and connected to the pressure receiving end 51 through the combined external portion 61, and senses the gas pressure data in the gas guide manifold 5 and generates a pressure value 211, and the temperature sensor 25 is used for sensing the ambient temperature and generating a temperature value 251.

A communication module 3 disposed in the assembly housing 6, wherein the communication module 3 has a storage unit 31 and a transmission unit 32, and the storage unit 31 is used for storing a user contact data.

And a processor 4, which is disposed in the assembly housing 6 and electrically connected to the sensing module 2 and the communication module 3, and a plurality of reporting default values 41 including temperature values and pressure values are built in the processor, the processor 4 receives the pressure values 211 and the temperature values 251, first determines whether the temperature values 251 reach the temperature values of one of the reporting default values 41, then determines whether the pressure values 211 are lower than the pressure values of the reporting default values 41, if the pressure values 211 are lower than the pressure values of the reporting default values 41, a gas change signal 42 is generated according to the user contact data, and the processor sends a control signal 43 to the transmission unit 32 to control the transmission unit 32 to send the gas change signal 42 to an external device (cloud server).

Next, referring to fig. 1 to 8, the distribution operation of the above two embodiments is described, including a gas supply end 7, a plurality of client ends 8 and a cloud server 9, where the gas supply end 7 has a communication device 71, each client end 8 has a gas barrel with the gas sensing device G, and the cloud server 9 is coupled to the communication device 71 and the plurality of gas sensing devices G.

The gas supply end 7 is used to provide and distribute gas barrels, the gas supply end 7 has the communication device 71, in this embodiment, the communication device 71 can receive messages by installing community software (such as LINE). For example, the communication device 71 may be a mobile phone, a tablet or a personal computer, but not limited thereto.

The plurality of clients 8 are respectively provided with a gas barrel provided with the gas sensing device G, and the user contact data of the gas sensing device G is provided with a user address.

The cloud server 9 is coupled to the communication device 71 and the plurality of gas sensing devices G, and when the cloud server 9 receives the gas replacing signal 42, the cloud server 9 performs a path planning on the user address by a path planning Algorithm, which in this embodiment may be a shortest path Algorithm (Dijkstra's Algorithm) to generate a distribution schedule window 91. The cloud server 9 transmits the distribution schedule window 91 to the communication device 71, so that the gas supply end 7 can distribute the gas barrels according to the distribution schedule window 91.

On the other hand, the sensing module 2 senses the power of the power supply module 15 by the power sensor 24 to generate a remaining power value 241. The processor 4 can analyze whether the remaining power value 241 is lower than a power threshold, and if so, further generate a battery replacement signal 44 according to the user contact data, and send the battery replacement signal to the cloud server 9. When the cloud server 9 receives the battery replacing signal 44, the cloud server 9 generates the distribution schedule window 91 according to the battery replacing signal 44, and transmits the distribution schedule window 91 to the contact device 71, so that the gas supply end 7 can replace the power supply module 15 according to the distribution schedule window 91.

In summary, the gas sensor device and the gas barrel distribution system having the same of the present invention detect a temperature value 251 generated by the ambient temperature used in the present invention through the temperature sensor 25, and cooperate with the processor 4 to be built with a plurality of default values 41 for sending out data including temperature values and pressure values through experiments, so as to form a pressure sensing mechanism with temperature compensation, which can more accurately know the residual gas amount in the gas barrel and timely inform the gas supply end, so that the gas supply end can actively assist the client to replace the gas barrel. And, can also carry on the route planning according to the customer address of several customer ends needing to change the gas barrel, in order to produce and deliver the scheduling window and provide the gas supply end, in order to deliver the distribution of the gas barrel according to the scheduling window of the delivery. Therefore, the client can be prevented from knowing that the gas is exhausted when the gas appliance cannot be ignited, the manpower and time consumed by a gas supplier in distribution can be reduced, and the effects of avoiding life inconvenience caused by insufficient gas and reducing the gas distribution cost are achieved.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and all simple modifications, equivalent variations and modifications made to the above embodiment according to the technical spirit of the present invention still fall within the scope of the technical solution of the present invention.

Claims (7)

1. A gas sensing device, comprising:

the gas regulator is provided with a gas guide pipe body, two ends of the gas guide pipe body respectively form an air inlet end and an air supply end, a pressure measuring end is arranged between the air inlet end and the air supply end, and the pressure measuring end is communicated with the air inlet end and the air supply end;

the gas regulator comprises a gas guide tube, a sensing module, a pressure sensor and a temperature sensor, wherein the gas guide tube is used for guiding gas in the gas guide tube to flow through the gas regulator, the sensing module is provided with a pressure sensor and a temperature sensor, the pressure sensor is combined with a pressure detection end at the pressure detection end and is fixed on the gas regulator through a fixing piece, the pressure sensor is used for sensing gas pressure data in the gas guide tube to generate a pressure value, and the temperature sensor is used for sensing ambient temperature and generating a;

the communication module is arranged on the gas regulator and is provided with a storage unit and a transmission unit, and the storage unit is used for storing user contact data;

a processor, electrically connected to the sensing module and the communication module, and having a plurality of default values for transmitting messages including temperature values and pressure values, wherein the processor receives the pressure values and the temperature values, determines whether the temperature values reach the temperature values of one of the default values for transmitting messages, and then determines whether the pressure values are lower than the pressure values of the default values for transmitting messages, if the pressure values are lower than the pressure values of the default values for transmitting messages, a gas replacing signal is generated according to the user contact data, and the processor sends a control signal to the transmission unit to control the transmission unit to send the gas replacing signal to an external device; and

and the power supply module is electrically connected with the processor and used for supplying electric energy.

2. The gas sensor according to claim 1, wherein the sensing module has a power sensor for sensing the power of the power supply module to generate a remaining power value, the processor analyzes whether the remaining power value is lower than a power threshold, if so, further generates a battery replacement signal according to the user communication data, and the processor sends a further control signal to the transmission unit to control the transmission unit to send the battery replacement signal to the external device.

3. The gas sensor according to claim 1 or 2, further comprising an upper cover, wherein the upper cover is coupled to the gas regulator, and the upper cover and the gas regulator together cover the sensing module, the communication module, the processor and the power supply module.

4. A gas barrel dispensing system having the gas sensor apparatus of claim 1, the system comprising:

a gas supply end for providing and distributing gas barrel, the gas supply end having a communication device;

several clients, each of which has a gas barrel equipped with the gas sensor, the user contact data of the gas sensor has a user address; and

a cloud server, coupled to the contact device and the plurality of gas sensing devices, wherein when the cloud server receives the gas replacement signal, the cloud server performs path planning on the user address by a path planning algorithm to generate a delivery scheduling window, and the cloud server transmits the delivery scheduling window to the contact device.

5. The gas barrel distribution system according to claim 4, wherein the sensing module senses the power of the power supply module with a power sensor to generate a remaining power value, the processor analyzes whether the remaining power value is lower than a power threshold, if so, further generates a battery replacement signal according to the user contact data, and sends the battery replacement signal to the cloud server, and when the cloud server receives the battery replacement signal, the cloud server generates the distribution schedule window according to the battery replacement signal, and sends the distribution schedule window to the contact device.

6. A gas sensing device, comprising:

a gas guide manifold, which is provided with a pressure measuring end, a plurality of gas supply ends and a plurality of gas inlet ends, wherein the gas supply ends and the gas inlet ends are extended in a bifurcation way and are communicated with each other;

the group of connecting shells are provided with an external connecting part which protrudes outwards, and the external connecting part is assembled at the pressure measuring end;

the sensing module is arranged in the assembling shell and is provided with a pressure sensor, a temperature sensor and a power line connected with an external power supply, the pressure sensor is assembled and combined with the external part through a pressure detection end and is fixed on the external part through a fixing piece, the pressure sensor is assembled and connected with the pressure detection end through the combined external part, senses gas pressure data in the gas guide manifold and generates a pressure value, and the temperature sensor is used for sensing the ambient temperature and generating a temperature value;

the communication module is arranged in the assembling shell and is provided with a storage unit and a transmission unit, and the storage unit is used for storing user contact data;

and a processor, locate in this group's set shell and electrical connection this sensing module and this communication module, and this processor is built-in to have several that contain the temperature value, the temperature value reports the default, this processor receives this pressure value, temperature value judges this temperature value whether reaches the temperature value of one of them reporting the default first, judge this pressure value whether is lower than this pressure value of reporting the default again, if judge this pressure value is lower than this pressure value of reporting the default, produce a gas and change the signal according to this user's contact data, this processor sends a control signal to this transmission unit, in order to control this transmission unit to change signal transmission to an external device with this gas.

7. A gas barrel dispensing system having the gas sensor apparatus of claim 6, the system comprising:

a gas supply end for providing and distributing gas barrel, the gas supply end having a communication device;

several clients, each of which has a gas barrel equipped with the gas sensor, the user contact data of the gas sensor has a user address; and

a cloud server, coupled to the contact device and the plurality of gas sensing devices, wherein when the cloud server receives the gas replacement signal, the cloud server performs path planning on the user address by a path planning algorithm to generate a delivery scheduling window, and the cloud server transmits the delivery scheduling window to the contact device.

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