JP7384003B2 - high pressure gas container - Google Patents

Description

The present invention relates to a high pressure gas container .

Conventionally, techniques for managing high-pressure gas containers have been developed. For example, Patent Document 1 discloses a system that measures information attached to a gas container, such as location information, using various sensors, communicates the measurement results, and centrally manages the information.

Patent No. 6356472

The high-pressure gas that is filled into high-pressure gas containers includes some that are subject to legal regulations, so it is important to know the transportation route. However, even if the technology disclosed in Patent Document 1 is applied, it is difficult to grasp the transportation route of a conventional high-pressure gas container because information is managed in the installed state.

The present invention was made in view of the above-mentioned circumstances to solve this problem, and its purpose is to record the transportation route of a high-pressure gas container.

The present invention includes the configuration shown below.
[1] A position sensor that measures the position of a high-pressure gas container during transportation;
a data recording device that associates the measured position with a measurement time and records it as a transportation route;
High pressure gas container.
[2] The position includes latitude and longitude,
The high pressure gas container according to [1].
[3] The position sensor and the data recording device are smartphones,
The high pressure gas container according to [1] or [2].
[4] Further comprising a battery that supplies power to the position sensor,
The high-pressure gas container according to any one of [1] to [3].
[5] Further comprising a charging terminal for charging the battery,
The high pressure gas container according to [4].
[6] A data recording system comprising a high pressure gas container and a data recording device,
The high pressure gas container is
a position sensor that measures the position of the high-pressure gas container during transportation;
a communicator that transmits data indicating the measured position,
The data recording device includes:
a position data acquisition unit that acquires data indicating the position of the high-pressure gas container during transportation;
a route data update unit that associates the measured position with a measurement time and records it as a transportation route;
Data recording system.
[7] A position data acquisition unit that acquires data indicating the position of the high-pressure gas container during transportation;
a route data update unit that associates the measured position with a measurement time and records it as a transportation route;
Data recording device.
[8] Measuring the position of the high-pressure gas container during transportation,
correlating the measured position with the measurement time and recording it as a transportation route;
Data recording method.
[9] To the computer,
obtaining data indicating the position of the high pressure gas container during transportation;
associating the measured position with the measurement time and recording it as a transportation route;
A program to run.

The transportation route of high-pressure gas containers can be recorded.

It is a figure showing an example of the external appearance side of the high pressure gas container concerning a first embodiment. It is a diagram showing an example of the hardware configuration of the electrical system according to the first embodiment. FIG. 1 is a diagram showing an example of the hardware configuration of a data recording device according to a first embodiment. FIG. 2 is a diagram illustrating an example of the functions of the data recording device according to the first embodiment. 5 is a flowchart illustrating an example of data recording processing according to the first embodiment. It is a figure showing an example of route data concerning a first embodiment. FIG. 2 is a conceptual diagram of a data recording system according to a second embodiment. It is a figure showing an example of route data concerning a second embodiment.

(First embodiment)
DESCRIPTION OF EMBODIMENTS Below, embodiments of a high-pressure gas container according to the present invention will be described with reference to the drawings.

FIG. 1 is a diagram showing an example of the external appearance of a high-pressure gas container according to the first embodiment.

The high pressure gas container 1 is a container for filling the inside with high pressure gas. The container may be a seamless container, a welded container, a brazed container, a fiber reinforced plastics composite container (FRP (Fiber Reinforced Plastics) container), or the like. Further, the shape of the container may be any one of a cylinder, a cardle, a tank container, and the like. In addition, various high-pressure gas containers can be selected depending on the type of gas, such as a high-purity semiconductor manufacturing gas or a highly reactive gas.

Specifically, the high pressure gas container 1 includes a battery 10, a position sensor 20, a data recording device 30, a protector 40, and a skirt 50.

The battery 10 is a battery for supplying power to the position sensor 20, data recording device 30, and the like.

The position sensor 20 is a sensor that measures the position of the high-pressure gas container 1 during transportation. Specifically, the position sensor 20 receives wireless communication transmitted from a GPS (Global Positioning System) satellite and acquires its own position data. Since the position sensor 20 is attached to the protector 40 or the like of the high pressure gas container 1, the position sensor 20 and the high pressure gas container 1 are substantially at almost the same position. Therefore, the position data acquired by the position sensor 20 is treated as position data indicating the position of the high-pressure gas container 1.

Note that the position sensor 20 may acquire position data of the high-pressure gas container 1 by a method other than GPS. For example, the position sensor 20 may estimate its own position from the base station's position data by wirelessly communicating with the base station. Further, the position sensor 20 may estimate its own position by appropriately combining position data acquired from a GPS satellite and position data acquired from a base station.

The data recording device 30 is a device that records the transportation route of the high-pressure gas container 1. Details of the data recording device 30 will be described later.

The protector 40 is a protective material that protects an injection site such as a valve of a high-pressure gas container. A battery 10, a position sensor 20, and a data recording device 30 are attached to the inner surface of the protector 40.

The skirt 50 is a protective component for preventing corrosion of the portion that contacts the ground when the high-pressure gas container 1 is installed. A battery 10, a position sensor 20, and a data recording device 30 may be attached to the inner surface of the skirt 50.

Further, the battery 10, the position sensor 20, the data recording device 30, etc. may be buried inward from the outer wall surface of the high-pressure gas container 1 so as to be difficult to modify.

FIG. 2 is a diagram showing an example of the hardware configuration of the electrical system according to the first embodiment.

The battery 10 is connected to the position sensor 20 and the like by electric wires. The data recording device 30 supplies power to the position sensor 20 and the like.

The position sensor 20 is communicatively connected to the data recording device 30. The position sensor 20 transmits the measured and acquired position data of the high pressure gas container 1 to the data recording device 30.

The data recording device 30 is communicably connected to the position sensor 20. The data recording device 30 records the transportation route based on the position data acquired from the position sensor 20.

FIG. 3 is a diagram showing an example of the hardware configuration of the data recording device according to the first embodiment.

The data recording device 30 includes a processor 301, a memory 302, and an interface 303.

Processor 301 is a calculation device. The processor 301 reads a program stored in the memory 302 and executes processing specified in the read program, thereby realizing various functions described below.

Memory 302 is a storage device. Memory 302 stores data necessary for processing executed by processor 301.

The interface 303 is a communicator for communicating with the position sensor 20.

FIG. 6 is a diagram showing an example of the functions of the data recording device according to the first embodiment.

The data recording device 30 includes a storage section 31, a position data acquisition section 32, and a route data update section 33.

The storage unit 31 stores various data necessary for controlling the data recording device 30. The storage unit 31 also stores route data 34.

The route data 34 is data indicating the transportation route of the high pressure gas container 1. Specifically, the route data 34 is data in which the position of the high-pressure gas container 1 during transportation is recorded in association with the measurement time. For example, the position of the high-pressure gas container 1 during transportation may be in latitude and longitude.

The position data acquisition unit 32 acquires position data from the position sensor 20.

The route data update unit 33 updates the route data 34 with data that associates the position data acquired by the position data acquisition unit 32 with the measurement time at which the position data was acquired. The route data update unit 33 acquires the measurement time using the function of the processor 301. Note that the data recording device 30 may include a quartz clock, and may be referred to by the route data updating section 33.

Further, the data recording device 30 may receive radio waves of an atomic clock transmitted from a standard radio wave transmitting station and automatically adjust the time.

Next, the operation of the high pressure gas container 1 will be explained with reference to the drawings.

FIG. 5 is a flowchart illustrating an example of data recording processing according to the first embodiment.

The data recording device 30 of the high-pressure gas container 1 executes data recording processing periodically, for example, every minute.

The position data acquisition unit 32 of the data recording device 30 acquires position data indicating the position of the high pressure gas container 1 (step S11). Specifically, the position data acquisition unit 32 receives position data from the position sensor 20.

Here, the position sensor 20 may periodically transmit position data to the data recording device 30, for example every 10 seconds, or the position data acquisition unit 32 may send a signal requesting the position sensor 20 to transmit position data. The position sensor 20 may transmit position data to the data recording device 30 as a response.

In addition, when acquiring position data every 10 seconds, for example, the position data acquisition unit 32 takes the average value of the longitude, latitude, etc. included in the plurality of acquired position data as the position of the high pressure gas container 1. Also good.

Next, the route data update unit 33 determines whether the position data has been acquired (step S12). If the route data update unit 33 determines that the position data could not be acquired (step S12: No), the process ends.

Further, when determining that the position data has been acquired (step S12: Yes), the route data updating unit 33 updates the route data 34 (step S13).

Specifically, the route data update unit 33 acquires the time at which the position was measured, and adds data that associates the acquired position with the measurement time to the route data 34 stored in the storage unit 31.

FIG. 6 is a diagram showing an example of route data according to the first embodiment.

The route data 34 includes date and time and location as items.

The value of the item "date and time" is a value indicating the measurement time of each position of the high pressure gas container 1.

The value of the item "position" is a value indicating the position where the high pressure gas container 1 was measured.

Data indicating the position of the high-pressure gas container 1 is added to the route data 34 in chronological order. Furthermore, the battery 10 allows the position sensor 20 to acquire position data even in an environment where power is not supplied from the outside, such as during transportation. In this way, the transportation route is recorded in the route data 34.

According to the high pressure gas container 1 according to the present embodiment, the transportation route of the high pressure gas container 1 is recorded. Therefore, for example, after collecting or inspecting the used high-pressure gas container 1, it is possible to check whether the recorded transportation route complies with legal regulations such as export regulations.

(Second embodiment)
The second embodiment will be described below with reference to the drawings. The second embodiment differs from the first embodiment in that route data is recorded on an external data recording device. In the explanation of the second embodiment below, differences from the first embodiment will be explained, and those having the same functional configuration as the first embodiment will be described as follows. The same reference numerals as the reference numerals will be given, and the explanation thereof will be omitted.

FIG. 7 is a conceptual diagram of a data recording system according to the second embodiment.

The data recording system 5 includes a high-pressure gas container 1, a wireless LAN (Local Area Network) access point 2, a data recording device 3, and a network 4.

The high pressure gas container 1 according to this embodiment further includes a radio 60.

The radio device 60 is a communication device that performs wireless communication with the wireless LAN access point 2. The radio device 60 also stores a container ID, which is an identifier for identifying the high-pressure gas container 1, and transmits data with the container ID added during wireless communication.

The wireless LAN access point 2 is communicably connected to the data recording device 3 via the network 4 .

The wireless LAN access point 2 is a communication relay device that sets up a wireless LAN and mediates communication between devices connected to the network 4 and the radio device 60.

The data recording device 3 is a device that receives position data from the high pressure gas container 1 and records route data. The hardware configuration and functional configuration of the data recording device 3 are the same as those in the first embodiment.

The route data update unit 33 acquires the time at which the position data was measured, and adds data that associates the acquired position and time to the route data 34 stored in the storage unit 31. The route data update unit 33 also acquires the container ID included in the position data and records it in the route data.

FIG. 8 is a diagram showing an example of route data according to the first embodiment.

The route data 34 according to this embodiment includes container ID, date and time, and location as items.

The value of the item “container ID” is an identifier for identifying the high pressure gas container 1.

According to the data recording system 5 according to the present embodiment, the route data for each of the plurality of high-pressure gas containers 1 can be centrally managed in the data recording device 3.

Additionally, transportation routes can be checked remotely in real time. Therefore, even if an erroneous delivery occurs, the location of the high-pressure gas container 1 can be specified from the confirmed transportation route, so that the high-pressure gas container 1 can be prevented from going missing.

In each of the embodiments described above, the high-pressure gas container 1 may include various sensors, and in addition to the position sensor 20, measurement results from other sensors may be recorded.

For example, the high-pressure gas container 1 may include a remaining gas sensor, a remaining battery sensor, a speed sensor, an acceleration sensor, and the like.

In each of the embodiments described above, the high-pressure gas container 1 may further include a charging terminal such as a USB (Universal Serial Bus) terminal. Thereby, the battery 10 can be charged.

The battery 10, position sensor 20, data recording device 30, etc. in each of the embodiments described above may be realized not by dedicated hardware but by a general-purpose computer or the like. For example, these can also be replaced by smartphones. Smartphones are capable of measuring their location using the built-in GPS function. Moreover, by installing an application on a smartphone, the smartphone can execute the processing of the data recording device 30.

Although the present invention has been described above based on each embodiment, the present invention is not limited to the requirements shown in the above embodiments. These points can be changed without detracting from the gist of the present invention, and can be determined appropriately depending on the application thereof.

1 High pressure gas container 2 Wireless LAN access point 3 Data recording device 4 Network 5 Data recording system 10 Battery 20 Position sensor 30 Data recording device 40 Protector 50 Skirt 60 Radio device

Claims (5)

a position sensor that measures the position of the high-pressure gas container during transportation;
a data recording device that associates the measured position with the measurement time and records it as a transportation route,
the position sensor and the data recording device are attached to the high pressure gas container;
High pressure gas container. the location includes latitude and longitude;
The high pressure gas container according to claim 1. the position sensor and the data recording device are smartphones;
The high pressure gas container according to claim 1 or 2. further comprising a battery that supplies power to the position sensor;
The high pressure gas container according to any one of claims 1 to 3. further comprising a charging terminal for charging the battery;
The high pressure gas container according to claim 4.

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