JP3300848B2 - Connection device and monitoring device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a monitoring device for monitoring the operation state of a refrigerated container or the like in a container ship or the like, and a connection device used for the monitoring device.

[0002]

2. Description of the Related Art In recent years, the structural change of marine transport cargo and the logistics revolution have led to various changes in the mode of transport of marine vessels. A type of container ship is being built. These container ships are capable of loading tens to hundreds of containers each of a general type container and a type of container having a built-in refrigerator called a refrigeration container or a low-temperature container. However, recently, the number of mounted refrigeration containers has been increasing year by year.

A conventional refrigeration container is, for example, shown in FIG.
As shown in (a), a power line 24 and a power line connector 24a for supplying 440V three-phase AC power,
A four-pole signal line 25 for transmitting a monitoring signal for monitoring an operation state and a signal line connector 25a thereof are provided.
Signals indicating the operating states of “normal temperature”, “during defrosting”, and “compressor operation” are transmitted to the monitor (apparatus) on the pole signal line 25, respectively.

When the signal line transport type refrigeration container 23 (conventional type container) is mounted on a container ship or stored on land, as shown in FIG. The power supply side power lines 29 from the power board 27 and the respective power lines 24 are connected by connectors 31 (24a), and power is supplied. On the other hand, a communication line 32 connected to a monitor 28 installed in the wheelhouse or office and the respective 4-pole signal lines 25 are connected by connectors 30 (25a), and a signal indicating the operation state of each refrigeration container 23 is output. Each data is transmitted to the monitor 28 to perform centralized monitoring, and the data thereof is recorded.

In recent years, in addition to the above-described signal line transport type refrigeration container 23, as shown in FIG. 4 (a), in order to reduce the amount of wiring at the time of construction and to save time for connecting / disconnecting connectors during operation. A power line type (power line carrier (communication) type) refrigeration container 32 has been put to practical use and widely used. The refrigeration container 32 is modulated by a power line 33 and a power line connector 33a for supplying 440 V three-phase AC power, and a built-in modem (not shown), and a signal line 35 is provided.
And a mixer 34 that superimposes the signal indicating the operation state given by the above on the power line 33, and the signal indicating the operation state is superimposed on the power line 33 and transmitted to the monitor (device).

The power line carrier type refrigeration container 32
When mounted on a container ship or stored on land, as shown in FIG. 4B, the power supply side power lines 37 from the main distribution board 26 and the distribution board 27a and the respective power lines 33
Are connected by the connector 38 (33a), and power is supplied. On the other hand, the signal superimposed on the power line 33 and the power supply side power line 37 and indicating the operation state of each refrigeration container 32 is separated by the separator 41 in the distribution board 27a,
The signal is demodulated by the modem 36 and transmitted to a monitor 40 installed in a steering room or an office through a communication line 45 to perform centralized monitoring and record the data.

FIG. 5 shows the operation states of each of the above-mentioned signal line transport type and power line transport type refrigeration containers 32 when the refrigeration containers 32 are mixedly loaded on a container ship or stored in a mixed state on land. It is an explanatory view for explaining the example of composition of the monitoring device which monitors. In this monitoring device, the power supply side power line 29 from the main distribution board 26 and the distribution board 27a and the power line 24 of each of the signal line transport type refrigeration containers 23 (conventional container) are connected by a connector 31 (24a), and the power is Supplied. The communication line 32 connected to the monitor 28 installed in the wheelhouse or office and the four-pole signal line 25 of each of the signal line transport type refrigeration containers 23 are connected by the connector 30 (25a). A signal indicating the operating state is transmitted to the monitor 28,
Centralized monitoring is performed and their data is recorded.

On the other hand, a power supply side power line 37 from the main distribution board 26 and the distribution board 27a and a power line carrier type refrigeration container 32
(Power line type container) Each power line 33 is connected by a connector 38 (33a), and power is supplied. Superimposed on the power line 33 and the power supply side power line 37,
The signal indicating the operation state of each refrigeration container 32 is transmitted from the distribution board 2
At 7a, the signal is separated by a separator 41, demodulated by a modem 42, transmitted to a monitor 40 installed in a steering room or an office through a communication line 45, and centralized monitoring is performed and their data are recorded. .

In this monitoring device, the signal line carrier type refrigeration container 23 and the power line carrier type refrigeration container 32 share the same main power distribution board 26 and distribution board 27a with the same power line for supplying power. However, the system for transmitting the signal indicating the operation state is independent of the communication line 32 and the power supply side power line 37, and the monitors 28 and 40 are separate. Therefore, it is necessary to route the communication line 32, and two monitors and recording devices are required.

Therefore, a monitoring device as shown in FIG. 6 has been realized. In this monitoring device, a power supply-side power line 37 from the main distribution board 26 and the distribution board 43 and a power line 24 of each of one or a plurality of refrigeration containers 23 (conventional containers) of a signal line carrier type are connected by a converter 44, Power is supplied. The four-pole signal line 25 of each signal line transport type refrigeration container 23 is connected to a converter 44, and each refrigeration container 2
The signals indicating the operating states of the power supply 3 are modulated by modems (not shown) incorporated in the converters 44, respectively, and are superimposed on the power line 37 and transmitted.

On the other hand, a power supply side power line 37 from the main distribution board 26 and the distribution board 43 and a power line carrier type refrigeration container 32
(Power line type container) Each power line 33 is connected by a connector 38 (33a), power is supplied, and a signal indicating an operation state is transmitted by a power supply side power line 37. The signal indicating the operation state of each refrigeration container 32 superimposed on the power line 33 and the power supply side power line 37 is separated by the separator 41 in the distribution board 43, demodulated by the modem 42, and transmitted through the communication line 45 to the steering room. Alternatively, the data is transmitted to the monitor 40 installed in the office, the centralized monitoring is performed, and the data is recorded.

The power supply side power line 37 connected to the converter 44
The signal indicating the operation state of each of the signal line transport type refrigeration containers 23 superimposed on the signal line transport type refrigeration container 23 is separated by the separator 41 in the distribution board 43, demodulated by the modem 42, and transmitted through the communication line 45 to the steering room or office. The data is transmitted to the monitor 40 installed in the room, centralized monitoring is performed, and their data are recorded. Power line carrier type refrigeration container 3
2 and a signal superimposed on the power line 37 connected to the power supply side, and the signal line carrier type refrigeration container 23 via the converter 44.
The signal superimposed on the power line 37 connected to the power supply side is separated and modulated by another separator 41 and a modem 42, respectively.

[0013]

The monitoring device shown in FIG. 6 does not require the routing of the communication line and requires only one monitor and recording device. However, since the converter 44 is of a semi-fixed type, it is not necessary. Accordingly, it must be transported from the warehouse and installed,
Further, there is a problem that the place where the signal line transport type refrigeration container 23 can be mounted or the place where it can be stored is limited around the converter 44.

The present invention has been made in view of the above-described circumstances. According to the first to third aspects of the present invention, it is not necessary to route a communication line, and a signal line carrier type and a power line carrier type load device can be used. It is an object of the present invention to provide a connection device which enables centralized monitoring even when the devices are mixed. In the fourth invention, it is an object to provide a monitoring device that does not need to route communication lines and can perform centralized monitoring in a unified manner regardless of how signal line carrier type and power line carrier type load devices are mixed. And

[0015]

A connection device according to a first aspect of the present invention is a power line carrier type load device for transmitting a monitor signal for monitoring an operation state by superimposing the monitor signal on a power line, and transmitting the monitor signal by a signal line. One of the signal line carrier type load devices for transmission
Or a plurality of connection devices for supplying power and transmitting the monitoring signal via a power supply side power line for centralized monitoring, wherein the load side power line of a power line carrier type or signal line carrier type load device. One or a plurality of power line connectors for connecting to the signal line, one or a plurality of signal line connectors for connecting to a signal line of a signal line carrier type load device, and whether a predetermined signal is input from the signal line connector. Thus, one or more determining means for determining whether or not the connected load device is of the signal line carrier type, and when the determining means determines that the connected load device is of the signal line transport type, And one or more superimposed transmission circuits for superimposing and transmitting the monitoring signal input to the signal line connector on the power supply side power line.

In this connection device, the power line connector is connected to the load side power line of the power line carrier type or signal line carrier type load device, and the signal line connector is connected to the signal line of the signal line carrier type load device. The determining means determines whether or not the connected load device is of a signal line carrier type based on whether or not a predetermined signal is input from the signal line connector. When it is determined that the load device is of the signal line carrier type, the monitoring signal input to the signal line connector is superimposed on the power supply side power line and transmitted. One or a plurality of combinations of the above-described power line connector, signal line connector, determination means, and superimposed transmission circuit are provided. Accordingly, it is not necessary to route the communication line, and it is possible to perform centralized monitoring in a unified manner regardless of how the signal line carrier type and the power line carrier type load devices are mixed.

According to a second aspect of the present invention, there is provided a connection device for storing one or a plurality of storage means for storing position information indicating a position of the power line connector, and for detecting that the load side power line is connected to the power line connector. A plurality of connection detection means, further comprising: when the connection detection means detects that the load-side power line is connected to the power line connector, the superposition transmission circuit stores the position information stored in the storage means. The transmission is performed by superimposing on the power line on the power supply side.

This connection device further includes one or a plurality of storage means for storing position information indicating the position of the power line connector, and one or a plurality of superimposed transmission circuits store the position information stored in each storage means on the power supply side. Since transmission is performed while being superimposed on the power line, it is not necessary to route the communication line, and it is possible to perform centralized monitoring regardless of how the signal line carrier type and the power line carrier type load devices are mixed. At the same time, the mounting position or the storage position of the load device can be grasped.

[0019] A connection device according to a third invention is characterized in that the load device is a refrigeration container.

In this connection device, since the load device is a refrigeration container, it is not necessary to route the communication line, and a centralized centralized refrigeration container of the signal line type and the power line type irrespective of how they are mixed. Monitoring can be enabled.

According to a fourth aspect of the present invention, there is provided a monitoring device comprising:
And a separating circuit for separating a signal superimposed on a power line for supplying power to the plurality of connecting devices, and a display for displaying information indicated by the signal separated by the separating circuit. And a recording device for recording the information.

This monitoring device includes a plurality of connection devices according to any one of claims 1 to 3, wherein the separation circuit separates a signal superimposed on a power line that supplies power to the plurality of connection devices, A display device displays information indicated by the separated signal, and a recording device records the information. This allows
It is not necessary to route communication lines, and a monitoring device capable of centralized monitoring can be realized regardless of how signal line carrier type and power line carrier type load devices are mixed.

[0023]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below with reference to the drawings showing an embodiment. Embodiment 1 FIG. FIG. 1 is a block diagram illustrating a configuration of an embodiment of a connection device according to the present invention. This connection device 22
Is a power line carrier (communication) type refrigeration container that superimposes a monitoring signal indicating an operating state such as "normal temperature", "during defrosting", and "compressor operation" on the power line to transmit the operating state. (Power line type container) or a power line connector 11 for connecting to a load side power line of a signal line transport type refrigeration container (conventional type container) for transmitting a monitoring signal by a signal line, and a signal line transport type refrigeration container. A signal line connector 12 for connecting to a signal line;
An interface 16 for inputting an input signal from the signal line connector 12 to the CPU 17, and a rewritable nonvolatile memory such as an EEPROM for storing position information indicating a position where the connection device 22 (the power line connector 11) is installed. And a memory 21.

The position where the connecting device 22 (the power line connector 11) is installed is written in the memory 21 when the connecting device 22 is installed on site (such as on a container ship). The connection device 22 includes a connector 20 for supplying 440 V three-phase AC power and a breaker 1 for cutting off 440 V three-phase AC power from the connector 20.
9, a power transformer 13 for obtaining 20V AC power from a 440V three-phase AC, and 20
A power supply circuit 18 is provided for converting V AC power to DC power for driving the CPU 17 and the like.

The connection device 22 also includes an interface 15 for input / output signals of the CPU 17, a modem 10a for modulating a signal output from the interface 15 and demodulating a signal input to the interface 15, a breaker 19, A mixing / separation circuit 10 connected to the power line between the power line connector 11 and mixing and modulating the signal modulated by the modem 10a on the power line and separating the signal superimposed on the power line and supplying the separated signal to the modem 10a; ing.
The CPU 17, the interfaces 15 and 16, the memory 21, and the power supply circuit 18 constitute the discrimination control unit 14.

The connecting device 22 also includes a current detector 11a (connection detecting means) for detecting a current flowing through the power line by a current transformer attached to the power line between the mixing / separating circuit 10 and the power line connector 11. The detection signal of the current detector 11a is transmitted to the CP via the interface 16.
U17, which is used as a connection signal indicating that the connector of the load side power line of the refrigeration container is connected to the power line connector 11. Further, the contact signal of the breaker 19 is given to the CPU 17 via the interface 16 so that even if the signal of the signal line system of the refrigeration container is interrupted, it is possible to confirm that the power line system is normal. .

The operation of the connecting device 22 will be described below. When the load-side power line connector of the refrigeration container is connected to the power line connector 11, the CPU 17 determines that the power line connector 11 has been connected based on a detection signal (connection signal) from the current detector 11a. CPU17
When only the power line connector 11 is connected and a signal indicating that the connection is made is not input from the signal line connector 12, the position information indicating the installation position is read from the memory 21, and the signal is read via the interface 15. Modem 1
0a. The modem 10a modulates the applied signal and supplies the modulated signal to the mixing / separation circuit 10, which mixes the applied modulated signal onto a power line, superimposes the signal, and transmits the signal.

An ID code of the refrigeration container and a monitoring signal for monitoring the operation state of the refrigeration container are superimposed on the power line and input to the power line connector 11 from the refrigeration container of the power line transport type. The signal is output from the connector 20 to the power line on the power supply side together with the signal indicating the position information.

When the power line connector 11 is connected and a signal indicating the connection is input from the signal line connector 12, the CPU 17
It is determined that the signal line transport type refrigeration container is connected to the signal line connector 12, and the position information indicating the installation position is read from the memory 21, and the signal is supplied to the modem 10a via the interface 15 and the signal line connector is connected. 1
The ID code of the signal line transport type refrigeration container and the monitoring signal for monitoring the operation state of the refrigeration container input from 2 are converted into a form that can be superimposed on the power line (for example, a parallel signal → serial signal), and the interface 15 is connected. Through the modem 10a.

As a signal indicating that the signal line connector 12 has been connected, for example, an ID code of a refrigeration container or a contact signal created in the signal line connector 12 is used. The modem 10 a modulates the signal indicating the given position information and the converted monitoring signal, and supplies the modulated signal to the mixing / separating circuit 10. The mixing / separating circuit 10 mixes and applies the given modulation signal to the power line and superimposes it, and outputs the modulated signal from the connector 20 to the power supply side power line.

In the above-described embodiment, the connection device 22 having one set of the power line connector 11 and the signal line connector 12 has been described. However, a plurality of sets of the power line connector 11 and the signal line connector 12 are provided. May be connected to one connection device. In that case, the power line connector 11, the signal line connector 12, the discrimination control unit 14, the modem 10a, the mixing / separation circuit 10
A plurality of combinations of the power line connector 11 and the current detector 11a are provided, and each memory 21 stores the position of the power line connector 11 in the connection device.

Embodiment 2 FIG. FIG. 2 is an explanatory diagram for explaining the configuration of the embodiment of the monitoring device according to the present invention.
In this monitoring device, the power supply side power line 37 from the main switchboard 26 and the distribution board 27a, the power line 24 of each of the plurality of signal line transport type refrigeration containers 23, and the power line 33 of each of the power line transport type refrigeration containers 32 are connected. , Embodiment 1
Are connected by the power line connector 11 of the connection device 22 described above, and power is supplied. The four-pole signal line 25 of each signal line transport type refrigeration container 23 is connected to the signal line connector 12 of the connection device 22 to which each power line 24 is connected, and the monitoring signal indicating the operation state of each refrigeration container 23 is Each signal is converted by the CPU 17 of the connection device 22, modulated by the modem 10a, mixed and superimposed on the power line 37 by the mixing and separation circuit 10, and transmitted.

A signal indicating the operating state of each of the power line carrier type refrigeration containers 32 is given to the connecting device 22 by the power line connector 11 and transmitted by the power line 37. The monitoring signal, which is superimposed on the power supply side power line 37 and indicates the operation state of each of the refrigeration containers 23 and 32, is supplied to the distribution board 27a.
Are separated by a separator 41 (separating circuit), demodulated by a modem 36 (separating circuit), transmitted through a communication line 45 to a monitor 40 installed in a steering room or an office, and centrally monitored. Is recorded.

The signal line transport type refrigeration container 23 includes, for example, a power line 24 for supplying 440 V three-phase AC power and a power line connector 2 as shown in FIG.
4a, and transmitting a monitoring signal for monitoring the operation state 4
It has a pole signal line 25 and its signal line connector 25a, and the four-pole signal line 25 has "normal temperature" and "defrosting".
And a signal indicating an operation state such as "compressor operation" is transmitted.

As shown in FIG. 4 (a), for example, as shown in FIG. 4 (a), a power line carrier type refrigeration container 32 is provided with a power line 33 for supplying 440 V three-phase AC power and a power line connector 3 thereof.
3a and modulated by a built-in modem (not shown)
A mixer 34 is provided for superimposing a signal indicating the operation state provided by the signal line 35 on the power line 33. The signal indicating the operation state is superimposed on the power line 33 and transmitted. Other configurations and operations are the same as those of the connection device 22 described in the first embodiment, and thus description thereof will be omitted.

[0036]

According to the connecting device of the first aspect, the routing of the communication line is unnecessary, and the centralized monitoring can be performed irrespective of how the signal line carrier type and the power line carrier type load devices are mixed. Can be made possible.

According to the connection device of the second aspect, it is not necessary to route the communication line, and it is possible to perform centralized monitoring in a unified manner regardless of how the signal line carrier type and the power line carrier type load devices are mixed. And the mounting position or the storage position of the load device can be grasped.

According to the connection device of the third aspect of the present invention, it is not necessary to route the communication line, and it is possible to perform centralized monitoring in a unified manner regardless of how the refrigeration containers of the signal line type and the power line type are mixed. It can be.

According to the monitoring device of the fourth aspect of the present invention, it is not necessary to route the communication line, and it is possible to perform centralized monitoring regardless of how the signal line carrier type and the power line carrier type load devices are mixed. Monitoring device can be realized.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating a configuration of an embodiment of a connection device according to the present invention.

FIG. 2 is an explanatory diagram for describing a configuration of an embodiment of a monitoring device according to the present invention.

FIG. 3 is an explanatory diagram for describing a configuration example of a signal line transport type refrigeration container and a conventional monitoring device.

FIG. 4 is an explanatory diagram for describing a configuration example of a power line transport type refrigeration container and a conventional monitoring device.

FIG. 5 is an explanatory diagram for describing a configuration example of a conventional monitoring device.

FIG. 6 is an explanatory diagram for describing a configuration example of a conventional monitoring device.

[Explanation of symbols]

Reference Signs List 10 mixing / separating circuit (superimposed transmission circuit) 10a modem (superimposed transmission circuit) 11 power line connector 11a current detector (connection detecting means) 12 signal line connector 14 discrimination control unit 15, 16 interface 17 CPU (discrimination means) 21 memory (storage) Means) 23 Signal line carrier type refrigeration container (Signal line carrier type load device) 24, 33 Power line 25 (4-pole) signal line 27a Distribution board 32 Power line carrier type refrigeration container (Power line carrier type load device) 36 Modem (separator) 37 Power line 40 Monitor (display, recorder) 41 Separator (separator)

Continuation of the front page (56) References JP-A-8-33068 (JP, A) JP-A-60-149242 (JP, A) JP-A-60-149243 (JP, A) JP-A-62-219721 (JP) JP-A-62-219824 (JP, A) JP-A-62-219826 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) H02J 13/00-13/00 311 H04B 3/54 H04Q 9/00-9/16

Claims (4)

(57) [Claims] 1. A power line carrier type load device for transmitting a monitoring signal for monitoring an operation state superimposed on a power line, and a signal line carrier type load device for transmitting the monitoring signal via a signal line. And supply power,
A connection device for transmitting the monitoring signal through a power supply side power line for centralized monitoring, and one or more power line connectors for connecting to a load side power line of a power line carrier type or signal line carrier type load device. The one or more signal line connectors for connecting to the signal lines of the signal line carrier type load device, and whether the connected load device is a signal line carrier depends on whether a predetermined signal is input from the signal line connector or not. One or a plurality of determining means for determining whether or not the connected load device is a signal line carrier type, and the monitoring means input to the signal line connector when the determining means determines that the connected load device is a signal line carrying type. A connection device, comprising: one or a plurality of superimposed transmission circuits for transmitting a signal by superimposing the signal on the power line. 2. One or a plurality of storage means for storing position information indicating a position of the power line connector, and detecting that the load side power line is connected to the power line connector.
Or a plurality of connection detection means, and when the connection detection means detects that the load-side power line is connected to the power line connector, the superposition transmission circuit stores the position information stored in the storage means. The connection device according to claim 1, wherein the transmission is performed by superimposing the power on the power line on the power supply side. 3. The connection device according to claim 1, wherein the load device is a refrigeration container. 4. A plurality of connection devices according to claim 1, a separation circuit for separating a signal superimposed on a power line for supplying power to the plurality of connection devices, and the separation circuit includes: A monitoring device comprising: a display device that displays information indicated by a separated signal; and a recording device that records the information.