KR20190129503A - Appratus for traking container - Google Patents

Abstract

The present invention is to remotely detect a position or state of a moving container, and to provide a container tracking device installed without compromising a container basic structure. The container tracking device comprises: an antenna unit attached to a container outer wall for transmitting and receiving data to and from a telecommunication device; a control unit located inside the container, measuring a state of the container, and managing measurement data; and a cable unit electrically connecting the antenna unit with the control unit, and transferring power and data between the antenna unit and the control unit. The cable unit may pass through a vent hole provided in the side wall of the container.

Description

Container Tracking Device {APPRATUS FOR TRAKING CONTAINER}

The present invention relates to a container tracking device installed without damaging the basic structure of the container by sensing the position or state of the moving container at a distance.

In logistics, they are loaded into containers of cargo, and are accomplished by ships, trucks, aircraft, trains, and the like. At this time, the cargo is transported in a container for a few days to several months.

Recently, real-time detection of a cargo's condition is required for the cargo's location as well as the cargo's location as well as changes due to climate, such as temperature and humidity, and physical conditions due to shock and vibration. In addition, detection of loss of cargo due to theft and the like is also required, and a system capable of remotely observing container position and container status information has been developed.

The container may interfere with the propagation signal to the steel structure. Thus, special structures and configurations may be required to collect and convey information of the container.

Korean Patent Publication No. 10-1560366 discloses a container electronic sealing device operating system and method.

Korea Patent Publication No. 10-1560366

The present invention is to provide a container tracking device that is installed without damaging the basic structure of the container by sensing the position or state of the moving container at a distance.

Technical problems to be achieved by the present invention are not limited to the above-mentioned technical problems, and other technical problems not mentioned above will be clearly understood by those skilled in the art from the following description. Could be.

Container tracking device of the present invention is attached to the container outer wall antenna unit for transmitting and receiving data to and from the telecommunication device; and a control unit located inside the container to measure the state of the container and manage the measurement data; and the antenna unit and And a cable unit electrically connecting the control unit and transferring power and data between the antenna unit and the control unit, wherein the cable unit may pass through a vent hole provided in the side wall of the container.

Container tracking device of the present invention through the through-hole through the electrical connection of the device inside and outside the container, there is no modification or damage to the container, by completely blocking the vent hole in which the device is installed, it is possible to minimize the damage and life reduction of the device .

The container tracking apparatus of the present invention can prevent the devices from colliding with other containers or cargoes by placing the constituent devices in the valleys of the corrugated container sidewall.

The container tracking device of the present invention can minimize the modification and change of the container by fixing the devices to be installed inside the container to the mounting plate to be installed without damaging the structure of the container.

The container tracking device of the present invention is one operation for fixing the installation plate portion to the inner wall of the container, and can install a device installed inside the container at once.

1 is a side sectional view showing an antenna unit of the present invention.
2 to 3 are side cross-sectional views showing another embodiment of the antenna unit of the present invention.
4 is a schematic view showing a container tracking device of the present invention.
5 is a front view showing the container tracking device of the present invention.
6 is a schematic view showing a container inner wall.
7 is a schematic view showing another embodiment of the container tracking device of the present invention.
8 is a schematic view showing another embodiment of the container tracking device of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In this process, the size or shape of the components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms that are specifically defined in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user or operator. Definitions of these terms should be made based on the contents throughout the specification.

Container tracking device of the present invention is a technique for observing the position and state of the moving container 10 from a distance, it may be installed without damaging the basic structure of the container 10. Container 10 is a steel structure, the wall, door, etc. of the container may interfere with radio waves.

Therefore, the antenna unit 100, which is connected to a remote communication device (server, remote communication terminal, etc.) for observing the container 10, should be located outside the container 10. Then, the sensor unit 310 for measuring the state of the cargo loaded in the container 10 and the environment inside the container 10 should be located inside the container 10. Since the antenna unit 100 receives information collected by the sensor unit 310 and the like and communicates with a remote communication device, the antenna unit 100 and the sensor unit 310 must be electrically connected. The container tracking device of the present invention can electrically connect the internal device and the external device of the container 10 without compromising the basic structure of the container 10.

Container tracking device of the present invention is attached to the outer wall 11 of the container 10 and the antenna unit 100 for transmitting and receiving data to and from the telecommunication device, and located inside the container 10 to measure and measure the state of the container 10 A control unit 300 that manages data, and a cable unit 200 that electrically connects the antenna unit 100 and the control unit 300 and transfers power and data between the antenna unit 100 and the control unit 300. ) May be included.

The cable unit 200 may pass through the vent hole 15 provided in the side wall of the container 10. That is, in the container tracking device of the present invention, the cable unit 200 may electrically connect the antenna unit 100 and the control unit 300 by passing through the ventilation hole 15 provided in the side wall of the container 10.

As shown in FIG. 6, the container 10 may basically be provided with a vent hole 15 on the sidewall thereof to allow the inside and outside air of the container 10 to be exchanged with each other. The vent holes 15 may be provided in plural in the setting area of the side wall of the container 10. A plurality of setting regions in which the vent holes 15 are formed may also be provided in a plurality of distances spaced apart from each other on the side wall of the container 10.

That is, a plurality of vent holes 15 may be provided on the side wall of the container 10, the plurality of vent holes 15 are grouped, and the grouped vent holes 15 are spaced apart from the side wall of the container 10 at a distance. It can be formed in the region of.

1 is a schematic diagram showing an antenna unit 100 of the present invention.

In one embodiment, the antenna unit 100 includes an antenna module 150 for transmitting and receiving a communication signal with a telecommunication device, a protective cover unit 110 for protecting the antenna module 150 from the external environment of the container 10, It may include a protective plate 120 to protect the antenna module 150 from the environment inside the container 10.

The telecommunication device may be an observation server, satellite, portable terminal, or the like. That is, the telecommunication device may be a freighter loaded in the container 10 or a communication device of an observer who wants real time information of the container 10 itself or a GPS satellite for measuring the position of the container 10. That is, the antenna module 150 may include a first antenna for transmitting and receiving data on the state information of the container 10 and an operation history of the container tracking device, and a second antenna for transmitting and receiving a GPS satellite and a GPS signal.

Therefore, the antenna module 150 is a device capable of transmitting and receiving a GPS or data communication signal. The antenna module 150 may be a metal material, and may be a conductor or a structure to radiate radio waves efficiently in a space to achieve an object of communication in wireless communication, or to induce electromotive force by radio waves. The antenna module 150 may be a PCB or a board in which a communication signal is transmitted and received.

As shown in FIG. 1. The antenna module 150 is surrounded by the protective cover part 110 and the protective plate part 120, and the protective cover part 110 and the protective plate part 120 combine to form a housing that protects the antenna module 150. can do.

Some of the vent holes 15 may pass through the cable unit 200. The vent hole 15 through which the cable unit 200 does not penetrate the vent hole 15 may be covered by the protection plate 120. That is, the vent hole 15 through which the cable unit 200 does not pass among the vent holes 15 may be closed by the protective plate part 120.

The protective cover 110 may be formed with a recess 111 to accommodate the antenna module 150. The antenna module 150 may be accommodated in the recess 111, and the recess 111 in which the antenna module 150 is accommodated may be covered by the protection plate 120. The protective cover 110 has a recess 111 to accommodate the antenna module 150 in the recess 111, and one side of the protective plate is in close contact with the outer wall 11 of the container 10. The other side of the may be combined with the edge of the protective cover 110.

3 is a schematic diagram showing the antenna unit 100 including the drainage hole 130 of the present invention. The protective cover part 110 and the protective plate part 120 may form an isolation space sealed to the outside.

The antenna module 150 may be accommodated in an isolation space, and a drain hole 130 communicating with the outside may be formed at one side of the coupling portion of the protective cover 110 and the protective plate that faces the ground. In this case, the ventilation hole 15 through which the cable unit 200 passes may be closed by the antenna module 150 or the protection plate 120. The outer diameter of the cable unit 200 is smaller than the inner diameter of the ventilation hole 15, so that a blank area may occur even if the cable unit 200 penetrates the ventilation hole 15. This blank area may be closed by the antenna module 150 or the protection plate 120.

The protection plate unit 120 may be provided with a hole through which the cable unit 200 can pass. The hole through which the cable unit 200 of the protection plate 120 passes may be completely filled by the cable unit 200. That is, the inner diameter of the hole through which the cable unit 200 of the protective plate 120 passes may be smaller than or equal to the outer diameter of the cable unit 200. The vent hole 15 may be completely blocked by the protective plate 120.

Therefore, air inside and outside the container 10 may not be vented through the vent hole 15 in the side wall region of the container 10 in which the antenna module 150 is installed. When the vent hole 15 is open, movement of gas is concentrated through the vent hole 15, and the devices and structures near the vent hole 15 may contact a large amount of fluid. Therefore, the devices present in the flow of the fluid is deteriorated and corrosion is accelerated, the life of the device and structure is inevitably reduced. In particular, a material such as rubber, polyethylene, plastic, enamel, or the like, which is a coating material of the wire used in the cable unit 200, may accelerate or harden when excessive air contact occurs. The container tracking device of the present invention is through the ventilation hole 15 through the electrical connection of the device inside and outside the container 10, there is no modification and damage to the container 10, by completely blocking the ventilation hole 15 in which the device is installed In addition, damage to the device and reduction of life can be minimized.

 The drainage hole 130 may be provided in a direction facing the ground in the housing formed by coupling the protective cover 110 and the protective plate. The inside of the housing formed by the protective cover 110 and the protective plate 120 may be filled with water due to moisture condensation due to a temperature difference. In order to discharge the water, the antenna unit 100 may be provided with a drainage hole 130. Even if the drain hole 130 is present, since the vent hole 15 is blocked by the protection plate 120, air contact with the antenna module 150, the cable unit 200, and the like can be minimized.

3 is a schematic diagram showing an antenna unit 100 including a seal 113 of the present invention.

In another embodiment, the antenna unit 100 may include an antenna module 150 that transmits and receives a communication signal with a telecommunication device, and a protective cover 110 that protects the antenna module 150 from an environment outside the container 10. Can be. The protective cover 110 includes a recess 111 for accommodating the antenna module 150, an extension of the edge of the recess 111, and a close contact with the outer wall of the container 10 so as to be in close contact with the inside air of the container 10. It may include a seal 113 to block the air. In detail, the protective cover 110 includes a recess 111 having one surface concave facing the antenna module 150, and extends in parallel to the outer wall of the container 10 from an edge of the recess 111. 10 may include a sealing portion 113 in close contact with the outer wall. The seal 113 in close contact with the outer wall of the container 10 may block internal air and external air of the container 10.

Although there is no protective plate 120 directly covering the vent hole 15, the protective cover 110 is completely in contact with the sidewall of the container 10 by the sealing portion 113 of the protective cover 110. ) It can block the inside and outside air.

4 is a schematic view showing a cross section of the side wall of the container 10. 5 is a schematic view showing the container 10 side wall.

The container tracking apparatus of the present invention may include an antenna unit 100 installed outside the container 10, a control unit 300 installed inside the container 10, a sensor unit 310, and a battery glass.

The walls of the container 10 may be manufactured in corrugated shape to reinforce vertical rigidity. Therefore, the side wall of the container 10 may be formed by repeating a groove extending in the longitudinal direction perpendicular to the ground. That is, the outer valley and the outer floor extending in one direction may be alternately formed on the outer surface of the side wall of the container 10. The inner valley may be formed on the inner surface of the sidewall of the container 10 by the outer valley, and the inner valley may be formed on the inner surface of the sidewall of the container 10 by the outer valley.

The antenna unit 100 may be located at the outer valley, and the control unit 300 may be located at the inner valley. The container tracking apparatus of the present invention can prevent the devices from colliding with other containers 10 or cargoes by placing the constituent devices in the valleys of the corrugated container 10 sidewalls. When the container 10 is loaded on a vehicle (ship, train, aircraft, etc.), the other container 10 or container 10 transfer means (crane, etc.) while the plurality of containers 10 are moved in a dense position. May crash. In this case, when the devices of the present invention are located at the sidewall valleys of the container 10, another container 10 or the container 10 transfer means collides with the floor projecting around the valleys first, and the other container 10 is connected to the device. Or the container 10 transfer means can be prevented from coming into direct contact. In addition, when shock or vibration is applied to the container 10 even inside the container 10, the cargo loaded in the container 10 may collide with the side wall while leaving the original position. Even in this case, the control unit 300, the sensor unit 310, and the battery unit 320 installed in the inner valley may be protected by the inner floor.

Among the devices of the container tracking device of the present invention, the components installed in the inner valley or the outer valley of the side wall of the container 10 may include the antenna unit 100, the antenna module 150, the control unit 300, the sensor unit 310, Battery unit 320 or the like. The dual antenna unit 100 and the antenna module 150 are devices installed outside the container 10, and the control unit 300, the sensor unit 310, and the battery unit 320 are installed inside the container 10. It may be a device. The device installed outside the container 10 may be installed in the outer valley to be protected on the outer floor, and the device installed inside the container 10 may be installed in the inner valley and protected on the inner floor.

Preferably, the thickness m of the antenna unit 100 may be shorter than the depth l of the outer valley, and the thickness h of the control unit 300 may be shorter than the depth l of the inner valley. That is, when the antenna unit 100 is installed outside the container 10, the length of the antenna unit 100 in a direction perpendicular to the outer wall 11 of the container 10 is shorter than the depth of the outer valley, and the control unit ( When the 300 is installed inside the container 10, the length of the control unit 300 in a direction perpendicular to the inner wall 13 of the container 10 may be shorter than the depth of the inner valley. Therefore, the antenna unit 100 and the control unit 300 do not protrude to the outside of the bone, and can be protected from the collision of external objects by the protruding floor around the bone.

The container tracking device of the present invention includes a sensor unit 310 for measuring a state variable of the container 10, and the sensor unit 310 may be electrically connected to the control unit 300 by wire or wirelessly. When the sensor unit 310 is connected by wire, the wiring may be installed so that the connection line is not damaged by friction with the cargo using container valleys and floors. When the sensor unit 310 is wirelessly connected, the sensor unit 310 may be connected by short-range wireless communication (BLE, Zigbee, Zwave..etc).

The sensor unit 310 may be located on an inner floor inside the container 10. Preferably, the sensor unit 310 may be installed together with the control unit 300 in the inner valley in which the control unit 300 is installed. However, in the case of a door opening and closing measurement sensor, it may be installed in a separate optimal position as needed.

The sensor unit 310 may include a temperature sensor, a humidity sensor, an impact sensor, an illuminance sensor, a vibration sensor, a CO2 (carbon dioxide) measurement sensor, an oxygen immediate sensor, a door open / close detection sensor, and the like. The sensor unit 310 is a temperature sensor, a humidity sensor, a shock sensor, an illuminance sensor, a vibration sensor, a CO2 measurement sensor, an oxygen measurement sensor, a door open / close sensor, and the state variables of the container 10 such as temperature, humidity, shock, vibration, A motion related to the physical quantity or the opening / closing operation of the door, such as light quantity, atmospheric composition (carbon dioxide, oxygen concentration), etc., may be detected.

In order to minimize the power consumed by the sensor unit 310, the sensor unit 310 may be switched to one of an activated mode and an inactive mode. That is, the sensor associated with the variable that is not necessary for measurement may be changed to an inactive mode to cut off or reduce the power supplied to the sensor unit 310.

The sensor unit 310 may be installed inside or outside the container 10. The installation position of the sensor unit 310 may vary depending on the object to be measured. When the internal state of the container 10 is to be measured, the sensor unit 310 is installed inside the container 10. When the surrounding environment outside the container 10 is to be measured, the sensor unit 310 is external to the container 10. Can be installed on

When the sensor unit 310 is installed outside the container 10, the sensor unit 310 may be wirelessly connected to the antenna unit 100 or wired to the control unit 300.

When the sensor unit 310 installed outside the container 10 is wirelessly connected to the antenna unit 100, the environment information external to the container 10 collected by the sensor unit 310 is controlled through the antenna unit 100. 300). Also, in this case, the sensor unit 310 may transmit a command for switching the sensor unit 310 to the activated mode or the deactivated mode through the antenna unit 100.

When the sensor unit 310 installed outside the container 10 is connected to the control unit 300 by wire, the electrical cable connecting the sensor unit 310 and the control unit 300 is connected to the container 10 sidewall through a vent hole. Can penetrate through The vent hole through which the electric cable passes may be the same as the vent hole through which the cable unit passes. Alternatively, the ventilation hole through which the electric cable passes may be adjacent to the ventilation hole through which the cable unit passes.

Hereinafter, a detailed structure in which the antenna unit 100 and the control unit 300 are installed on the sidewall of the container 10 will be described with reference to FIG. 4.

The side walls of the container 10 alternately formed with valleys and floors extending in one direction, and the floors are formed on the inner surface of the container 10 by the valleys formed on the outer surface of the container 10, and on the outer surface of the container 10. A valley may be formed on the inner surface of the container 10 by the formed floor.

At this time, the concave portion when viewed from the outer wall 11 side of the container 10 is defined as the valley region 30 and the convex portion is defined as the floor region 20. That is, the outer valley and the inner floor become the valley area 30, and the inner valley and the outer floor belong to the floor area 20.

One of the floor areas 20 is referred to as a first floor area, and the valley areas 30 both sides adjacent to the first floor area are further defined as first and second valley areas, respectively. A vent hole 15 penetrating the side wall of the container 10 may be provided in the first valley area.

An antenna unit 100 is installed on the outer wall 11 of the container 10 of the first valley area, and the cable unit 200 passes through the ventilation holes 15 and is disposed with the ventilation holes 15 interposed therebetween. The unit 100 and the control unit 300 can be connected. That is, the cable unit 200 may electrically connect the antenna unit 100 outside the container 10 and the control unit 300 inside the container 10 through the vent hole 15.

An installation plate 400 may be provided at which one side is fixed to the inner wall 13 of the container 10 of the first valley area and the other side is fixed to the inner wall 13 of the container 10 of the second valley area. The mounting plate part 400 may be a hard plate structure having high rigidity.

The control unit 300 may be located between the installation plate 400 and the inner wall 13 of the container 10 of the first floor area. The first floor area corresponds to a valley in the container 10, and the control unit 300 is surrounded by the wall of the container 10 and the installation plate 400 while the control unit 300 is located in the valley, and both sides thereof are Can be wrapped with an interior floor. Therefore, even if the container 10 is impacted and the cargo therein hits the side wall, it can be protected by the installation plate part 400.

The valley in which the vent hole 15 exists may be provided with a bolt hole for fixing a vent cover which is commonly used. One side of the mounting plate part 400 may be fixed by the fixing bolt 403 through the bolt hole. The other side of the mounting plate 400 may be fixed by a viscous tape 401 or a magnetic force. The tape 401 may be a VERY HIGH BOND (VHB) tape 401. The fixing bolt 403 penetrates from the outer wall to the inner wall of the container 10, and fixes the antenna unit 100 outside the container 10, and fixes the installation plate 400 inside the container 10. .

The installation plate 400 may be installed without damaging the structure of the container 10 by utilizing the bolt hole provided as a basic structure in the container 10.

The control unit 300 may be fixed to the installation plate 400. In addition, not only the control unit 300 but also the sensor unit 310 and the battery unit 320 may be fixed to the installation plate 400. Therefore, the container tracking device of the present invention by fixing the devices to be installed inside the container 10 to the mounting plate 400 is installed without damaging the structure of the container 10, the modification and change of the container 10 Can be minimized.

In addition, the control unit 300 is installed on one surface of the mounting plate portion 400 facing the first floor area (inner valley), the control unit 300 together with the mounting plate portion 400 of the container 10 It can be attached to or detached from the side wall. Therefore, in one operation of fixing the installation plate 400 to the inner wall 13 of the container 10, a device installed in the container 10 may be installed at a time.

Detailed structure in which the battery unit 320 is installed may be as follows.

Container tracking device of the present invention includes a battery unit 320 for supplying power to the control unit 300, the battery unit 320 may be connected to the control unit 300 by an electric cable. The battery unit 320 may be located between the installation plate 400 and the inner wall 13 of the container 10 of the first floor area, and may be fixed to the installation plate 400.

One end of the cable unit 200 is connected to the antenna unit 100, the other end is connected to the control unit 300 by passing through the ventilation hole 15, and located inside the container 10 of the cable unit 200. The part to be positioned may be located between the inner wall 13 of the container 10 and the installation plate 400. That is, one end of the cable unit 200 passing through the ventilation hole 15 is drawn out between the inner wall 13 of the container 10 and the mounting plate portion 400, and the inner wall 13 of the container 10 and the mounting plate portion ( One end of the cable unit 200 drawn out between the 400 may be covered by the installation plate 400. One end of the cable unit 200 drawn out between the inner wall 13 of the container 10 and the mounting plate 400 may be disposed between the inner wall 13 of the container 10 and the mounting plate 400. Can be connected to. Therefore, the cable unit 200 may be protected by the installation plate 400 to prevent abrasion by friction with the cargo inside the container 10.

As shown in FIG. 7, in the horizontal direction of the outer wall 11 of the container 10 of the antenna unit 100, the horizontal and vertical dimensions, which are standard, are larger than the diameter of the vent hole 15. Can be.

The antenna unit 100 covers at least one or more of the ventilation holes 15, and the ventilation holes 15 covered by the antenna unit 100 may be closed by the antenna unit 100. The cable unit 200 may pass through the ventilation hole 15 closed by the antenna unit 100. It may include a vent cover portion 170 for covering the remaining vent hole 15 that is not covered by the antenna unit (100). A vent hole 171 is formed in the vent cover 170, and the air inside the container 10 and the outside air are vented with each other by the vent hole 171 covered by the vent hole 171 and the vent cover 170. It may be possible. With such a structure, while minimizing contact with the air to the antenna unit 100 and the cable unit 200, it is possible to secure the ventilation holes 15 for ventilation inside and outside the container 10 to the maximum.

In another embodiment, the container tracking device of the present invention, when the plurality of valleys are formed on the outer side wall of the container 10, and the plurality of vent holes 15 are provided in the valleys, the antenna unit 100 is It is formed larger than the area of the vent hole 15, it can cover a plurality of vent holes 15 located in one of the valleys. The antenna unit 100 may cover the vent hole 15 in place of a vent cover generally used. The antenna unit completely covers the ventilation holes, and can prevent dust, water, and the like from entering the container 10 through the ventilation holes 15. The antenna unit 100 may be made of a metal material that can absorb communication radio waves transmitted and received from an external server. The antenna unit 100 may cover all the ventilation holes 15 provided in one valley. Therefore, the vent of the container 10 in which the antenna unit 100 is provided may not need a separate vent cover.

In another embodiment, as shown in FIG. 8, the antenna unit 100 includes an antenna module 150 that transmits and receives a communication signal to and from a telecommunication device, and a protective cover unit 110 that protects the antenna module 150. It may include.

The protective cover 110 may cover the plurality of ventilation holes 15 located in one valley. Therefore, it is possible to prevent air from flowing into and out of the container through the vent hole 15 provided in the valley in which the antenna unit 100 is located. Specifically, when the plurality of vent holes 15 are provided in a virtual closed loop existing on the wall of the container 10, the protective cover part 110 may be in close contact with the closed loop to provide air inside and outside the container 10. You can block.

The antenna module 150 may be located between one surface and the other surface of the protective cover unit 110. The antenna module 150 may be located inside the protective cover part 110 having a predetermined thickness. Since the antenna module 150 is located inside the protective cover part 110, the coupling between the antenna module 150 and the protective cover part 110 may be more robust.

Although embodiments according to the present invention have been described above, these are merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent embodiments of the present invention are possible therefrom. Therefore, the true technical protection scope of the present invention will be defined by the following claims.

10 ... container 11 ... outer wall
13 ... inner wall 15 ... vent hole
20 ... floor area 30 ... goal area
100. Antenna unit 110 ... Protective cover
111 ... The Concave 113 ... The Seal
120.Protection plate 130 ... Drainage hole
150 ... antenna module 170 ... vent cover
171 Vent Hole 200 Cable Unit
300 ... control unit 310 ... sensor unit
Battery unit 400 ... Mounting plate
401 tape 403 fixing bolt

Claims (14)

An antenna unit attached to the outer wall of the container for transmitting and receiving data to and from the telecommunication device;
A control unit located inside the container and measuring a state of the container and managing the measurement data;
And a cable unit electrically connecting the antenna unit and the control unit and transferring power and data between the antenna unit and the control unit.
The cable unit is a container tracking device that passes through the vent hole provided in the container side wall.
The method of claim 1,
When the vent holes are provided in plurality in the container side wall,
The antenna unit,
An antenna module for transmitting and receiving a communication signal with the telecommunication device, a protective cover for protecting the antenna module from the environment outside the container, and a protective plate for protecting the antenna module from the environment inside the container,
The antenna module is surrounded by the protective cover portion and the protective plate portion,
Some of the ventilation holes are penetrated by the cable unit,
And a vent hole through which the cable unit does not pass among the vent holes is closed by the protective plate portion.
The method of claim 2,
The protective cover portion and the protective plate portion forms an isolated space sealed to the outside,
The antenna module is accommodated in the isolation space,
One side of the coupling portion of the protective cover portion and the protective plate facing the ground is formed with a drain hole communicating with the outside,
And the ventilation hole through which the cable unit passes is closed by the antenna module or the protective plate portion.
The method of claim 1,
The antenna unit,
An antenna module for transmitting and receiving a communication signal with the telecommunication device, and a protective cover for protecting the antenna module from the environment outside the container,
The protective cover part includes a concave portion having one surface concave facing the antenna module, and a seal portion extending in parallel to the outer wall of the container from the edge of the concave portion and in close contact with the outer wall of the container,
And the seal portion in close contact with the container outer wall blocks the internal air and the external air of the container.
The method of claim 1,
On the outer surface of the side wall of the container alternately formed outer valley and outer floor extending in one direction,
An inner floor is formed on the inner surface of the side wall of the container by the outer valley,
An inner valley is formed on the inner surface of the side wall of the container by the outer floor,
And the antenna unit is located at the outer valley, and the control unit is located at the inner valley.
The method of claim 5,
When the antenna unit is installed outside the container, the length of the antenna unit in a direction perpendicular to the outer wall of the container is shorter than the depth of the outer valley,
And the control unit is installed inside the container, the length of the control unit in a direction perpendicular to the inner wall of the container is shorter than the depth of the inner valley.
The method of claim 5,
A sensor unit for measuring a state variable of the container,
The sensor unit is electrically connected to the control unit by wire or wirelessly,
The sensor unit is a container tracking device located on the inner floor from the inside of the container.
The method of claim 1,
On the side wall of the container alternately formed valleys and floors extending in one direction,
The floor is formed on the inner surface of the container by the valley formed on the outer surface of the container,
A valley is formed on the inner surface of the container by the floor formed on the outer surface of the container,
When looking at the outer wall side of the container, when the concave part is called the valley area and the convex part is called the floor area,
One of the floor areas is called a first floor area,
The bone areas bilaterally adjacent to the first floor area are called first bone area and second bone area, respectively.
When the first valley area is provided with the vent hole penetrating the side wall of the container,
An installation plate part having one side fixed to the inner wall of the container of the first bone area and the other side fixed to the inner wall of the container of the second bone area is provided,
The control unit is located between the installation plate portion and the inner wall of the container of the first floor area,
The control unit is a container tracking device that is fixed to the mounting plate.
The method of claim 8,
The antenna unit is installed on the outer wall of the container of the first valley area,
The cable unit penetrates the ventilation hole, and connects the antenna unit and the control unit arranged with the ventilation hole interposed therebetween,
One end of the cable unit passing through the ventilation hole is drawn out between the container inner wall and the installation plate portion,
One end of the cable unit drawn out between the container inner wall and the mounting plate portion is covered by the mounting plate portion,
And one end of the cable unit drawn out between the container inner wall and the mounting plate portion is connected to the control unit disposed between the container inner wall and the mounting plate portion.
The method of claim 8,
The control unit is installed on one surface of the mounting plate portion facing the first floor area (inner valley),
And the control unit is attached to and detached from the side wall of the container together with the plate portion.
The method of claim 1,
The horizontal and vertical dimensions that are standard in the horizontal direction on the outer wall of the container of the antenna unit are larger than the diameter of the vent hole,
The antenna unit covers at least one or more of the vent holes,
The ventilation hole covered by the antenna unit is closed by the antenna unit,
And the cable unit passes through the vent hole closed by the antenna unit.
The method of claim 11,
And a vent cover portion covering the remaining ventilation holes not covered by the antenna unit,
The vent cover is formed with a vent hole,
A container tracking device in which the air inside the container and the outside air can be vented with each other by the vent hole covered by the vent hole and the vent cover part.
The method of claim 1,
A plurality of valleys are formed on the outer side wall of the container,
When the plurality of vent holes are provided in the valley,
And the antenna unit is larger than an area of the vent hole and covers a plurality of vent holes located in one of the valleys.
The method of claim 13,
The antenna unit,
An antenna module for transmitting and receiving a communication signal with a telecommunication device;
It includes a protective cover for protecting the antenna module,
The protective cover portion covers the plurality of ventilation holes located in one of the valleys, and the antenna module is located between one surface and the other surface of the protective cover portion.

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