KR100931864B1 - Refrigeration container power and load monitoring system - Google Patents

Abstract

According to the present invention, a separate current / contact detection transmitter is installed in a receptacle box to which a power plug of a refrigerated container is connected, or a separate receptacle box incorporating a current / contact detection transmitter is installed to be connected to a power supply line of a refrigerated container. With the No Fuse Breaker (NFB) in the receptacle box being kept "ON", it is possible to detect and load the refrigerator load current flowing through the wiring wire connected to the wiring breaker as a data value, and to transmit and transmit the data value. On the basis of this, computers and monitors in the central monitoring room change colors according to the alarm status of each refrigerated container so that they can be correctly identified and immediately responded to the normal operation of each refrigerated container loaded on the yard or carrier. Installation cost of container monitoring equipment A power system monitoring and load a new refrigerated containers are provided to help lower.

The present invention detects the level of current flowing through the wiring wire connected to the wiring wire connected to the wiring breaker (NFB) in the receptacle box having an outlet for connecting the power plug of each refrigerated container loaded on the yard or the carrier. An output current detecting sensor; Installed in the receptacle box to be electrically connected to the disconnect switch and the current detection sensor of the circuit breaker for outputting the three data values for the ON-OFF state, the presence of the preset minimum current level and the presence of the highest current level A current / contact detection transmitter; Data value of whether or not the minimum current flows for each refrigerated container and whether the maximum current flows from the current / contact detection transmitter while connected to the current / contact detection transmitter installed in the signal control panel and connected to the current / contact detection transmitter installed in the receptacle box. A plurality of data collection / transmitters for collecting the data; It is installed in the signal control panel and operates in current / contact detection transmitter and data collection / transmitter by converting 440V AC voltage applied from the outside into 24V DC voltage while being electrically connected to the current / contact detection transmitter and data collection / transmitter. A power supply for applying power; In a state where the central monitoring room is connected to the data collection / transmitter and wired / wireless communication, a receptacle box corresponding to the monitored refrigerated container is generated and displayed as a bay screen partitioned for each loading state according to a preset program. At the same time, based on the data value transmitted from the data collector / transmitter, if the preset minimum current does not flow continuously when the cutoff switch is “ON”, it is determined that power is not supplied to the refrigeration controller of the corresponding refrigerated container. It is determined that the refrigerator compressor of the corresponding refrigerated container does not operate when the set maximum current does not flow periodically, and includes a computer and a monitor for changing the color according to the alarm state for each refrigerated container.

Refrigeration container, refrigeration controller, refrigeration compressor, load current, current / contact detection transmitter, monitor.

Description

REEFER CONTAINER POWER AND LOAD MONITORING SYSTEM}

The present invention relates to a refrigerated container power supply and a load monitoring system. More particularly, the present invention provides a current / contact detection transmitter or a current / contact detection transmitter in each receptacle box to which a power supply plug of a refrigerated container is connected. The built-in separate receptacle box is connected to the refrigeration container's power supply line, and the refrigerator flows through the wiring wire connected to the wiring breaker while the wiring breaker (NFB) in the receptacle box is kept "ON". Refrigerant containers loaded on the yard by detecting load current so that data values can be output / transmitted, and computers and monitors in the central monitoring room change colors based on alarm conditions for each refrigerated container based on the transmitted data values. Accurately identify the normal operation of each star and immediately And at the same time it will have to lower the installed cost of the refrigerated container monitoring equipment to cope.

Generally, exports of goods that require chemical stability, such as vegetables, agricultural products such as flowers or fish, livestock products such as meat, or processed products thereof, or chemical products such as chemical products or pharmaceuticals, or transport them over long distances If necessary, the container is loaded in a container equipped with a refrigeration system (hereinafter referred to as a refrigerated container) and transported by a vehicle such as a trailer, a ship, or an aircraft, and the refrigerated container thus transported is waiting for shipment. They are usually placed in a yard before being delivered to the owner or owner.

Freight transported using a refrigerated container should always be kept constant in freshness and stability even in the process of transportation or yard.Supplied to the freezer and freezer compressor mounted on the refrigerated container due to sudden overload or failure. If the power is cut off, there is a problem that a huge loss occurs because the cargo accommodated inside the refrigerated container is corrupted or damaged.

Accordingly, in the case of ships transporting refrigerated containers, a management system using power line communication is applied.

However, in order to monitor and manage the power supply status of a refrigerated container by applying power line communication, a slave modem must be installed in the refrigerated container. In this case, a very small part of the refrigerated container is required because of poor installation structure and workability. It is only applied to, but not installed in most refrigerated containers.

In addition, most refrigerated container yards or refrigerated container carriers currently do not have a separate monitoring system for monitoring and managing the power and load status of stacked refrigerated containers. During the regular time intervals, the unit checks whether the refrigerated container is properly supplied with power and whether the internal temperature of the refrigerated container is maintained at the set temperature. The problem is that accuracy and reliability are very poor.

In addition, as the recent increase in the amount of sea freight, the number of refrigerated containers is greatly increased, so there is a problem that the cost burden is increased because the number of personnel input for the patrol inspection is bound to increase.

In order to solve the conventional problems as described above, in order to more efficiently monitor and manage the frozen state of the recent refrigerated container, Korean Patent Publication No. 10-2005-46841 (Container Monitoring System), Republic of Korea Patent Publication 10-2006-90884 (Refrigeration container monitoring system using wireless modem and its control method), Republic of Korea Patent Publication No. 10-2007-16305 (Thermal environment measurement and monitoring system of a transport vehicle or refrigeration container) and Republic of Korea Patent No. 10-639609 ( A number of prior art, such as a refrigerated container monitoring apparatus and method using a mobile communication device) have been proposed.

The prior art of the Patent Publication No. 10-2005-46841 is composed of a position / state information transmitter and receiver mounted on each container loaded on the vessel, a repeater installed on the vessel, the base station and the control unit of the position and temperature / humidity of the container The container status information is transmitted to the control unit through the repeater and the base station, and the control unit stores, manages, and processes the state information of the transmitted container so as to provide the client to the control unit. If an abnormal situation occurs in the container, it could not be checked in real time, and there was a problem that could be applied only when the container was equipped with a slave modem for power line communication.

In addition, the prior art of the Patent Publication No. 10-2006-90884 is configured with a wireless slave terminal connected to the download port of the refrigerated container, and the central control server to collect each refrigerated container operation information transmitted from the wireless slave terminal in the central control server Monitoring each refrigerated container and alerting an administrator when abnormal information is detected in a specific refrigerated container, or also a specific technology for detecting abnormal information in a refrigerated container has not been presented. There is a problem in that real-time monitoring is not possible because the data must be manually downloaded and downloaded.

In addition, the prior art of the Patent Publication No. 10-2007-16305 is a control box including a freezing chamber, a temperature sensor for determining the temperature of the freezing unit and the freezing chamber, and a current sensor for checking the current flowing into the freezing unit. It is configured to measure the temperature of the freezer compartment, the operating state of the refrigeration unit, the position of the refrigeration vehicle for transportation, or in this case for the monitoring of a single refrigeration unit mounted on the vehicle, and stored in the yard or carrier A large number of refrigerated containers are properly supplied with power, and there is a problem that it is not suitable to monitor in real time whether the refrigerator is operating normally.

In addition, the prior art of Patent No. 10-639609 uses a mobile communication device equipped with a wireless LAN to input the receipt, delivery and inspection results of the container in the field, and to transfer the input result to the server PC refrigerated container The centralized control is possible by the rapid computerization of information on the information, but there is a problem that the power supply status of a large number of refrigerated containers loaded on the yard cannot be checked in real time.

In order to solve the problems of the prior art, the inventors of the present application is that the minimum current range of the refrigeration controller mounted on the refrigeration container currently manufactured and supplied is 0.7 to 1.5A, and the maximum current range of the refrigeration compressor is 8 to 16A. Focusing on this point, it is installed in the receptacle box so as to be electrically connected to the breaker switch and the current detection sensor of the wiring breaker, and the three data on the ON-OFF state of the breaker switch, the preset minimum current level, and the highest current level. The minimum current is 0.3A in the state that the output switch of the circuit breaker of the receptacle box to which the power plug of the individual refrigeration container is connected in the central monitoring room is turned on based on the transmitted data value. Whether or not it continuously flows to the above value, and the maximum current is periodically A power and load monitoring system for refrigerated containers was developed to monitor and manage abnormality in real time by judging whether it was flowing.

The present invention is to solve such a conventional problem, install a current / contact detection transmitter in each receptacle box (receptacle box) to which the power plug of the refrigerated container is connected or a separate built-in current / contact detection transmitter The receptacle box is installed on the power supply line of the refrigerating container so that three data values can be output and transmitted for ON / OFF status of the cutoff switch, pre-set minimum current level, and maximum current level. Based on the data values, the computer and the monitor in the central monitoring room continuously check whether the minimum current flows more than 0.3A in the "ON" state of the breaker switch of the circuit breaker of the receptacle box to which the power plug is connected for each refrigerated container. And, whether or not the maximum current flows periodically to the value of 5.0A or more It is possible to reduce the installation cost of the refrigerated container monitoring equipment by accurately identifying the normal operation of each refrigerated container loaded on the yard or carrier by immediately displaying the color changed according to the beam condition. It is a task.

In order to solve the above problems, the refrigeration container power supply and load monitoring system according to the present invention is connected to the wiring breaker (NFB) in the receptacle box having an outlet for connecting the power plug of each refrigerated container loaded on the yard or carrier ship A current detection sensor coupled to the wire and detecting and outputting a level of current flowing through the wire; Installed in the receptacle box to be electrically connected to the breaker switch and the current detection sensor of the circuit breaker for outputting three data values for the ON-OFF state of the breaker switch, the presence of the preset minimum current level and the presence of the highest current level A current / contact detection transmitter; Continuous flow of breaker ON-OFF state and minimum current in the corresponding receptacle box for each refrigerated container transmitted from the current / contact detection transmitter in wired / wireless communication with the current / contact detection transmitter installed in the receptacle box. A plurality of data acquisition / transmitters for collecting data on whether or not the peak current flows periodically; It is installed in the signal control panel and operates in current / contact detection transmitter and data collection / transmitter by converting 440V AC voltage applied from the outside into 24V DC voltage while being electrically connected to the current / contact detection transmitter and data collection / transmitter. A power supply for applying power; In a state where the central monitoring room is connected to the data collection / transmitter and wired / wireless communication, a receptacle box corresponding to the monitored refrigerated container is generated and displayed as a bay screen partitioned by arrangement according to a preset program. At the same time, based on the data value transmitted from the data collector / transmitter, whether the minimum current flows continuously to the value of 0.3A or more while the disconnection switch of the wiring breaker of the receptacle box to which the power plug is connected for each refrigerated container is "ON". And a computer and a monitor configured to determine whether or not the peak current flows periodically to a value of 5.0 A or more, so that the color changes according to an alarm state and is displayed.

In the present invention, the current / contact detection transmitter and the first input signal amplifier for amplifying to a desired level by receiving the current signal output from the current detection sensor combined and connected to the wiring wire; A signal distribution unit for distributing a current signal applied from the first input signal amplifier to a first output terminal and a second output terminal; A minimum current detector for detecting whether a current signal applied through the first output terminal on the signal distribution unit has a value equal to or greater than a predetermined minimum current; A maximum current detector for detecting whether a current signal applied through the second output terminal on the signal distribution unit has a value greater than or equal to a preset maximum current; A second input signal amplifier for outputting a signal of a predetermined level when the cutoff switch of the wiring breaker is turned “ON”; A main power supply unit receiving and distributing electric power from an external power supply device; A first power supply unit applying power distributed from the main power supply unit to a first input signal amplifier, a second input signal amplifier, and a signal distribution unit as operating power; A second power supply unit which applies electric power distributed from the main power supply unit to the lowest current detection unit and the highest current detection unit as operating power; And a CPU for transmitting data values from the second input signal amplifier, the lowest current detector, and the highest current detector to a data collector / transmitter through a communication port drive.

In the present invention, the value of the lowest current set to determine whether power is continuously supplied to the refrigeration controller of the refrigerating container is 0.3A, and the maximum current set to determine whether the refrigeration compressor of the refrigerating container is periodically operated. The value has a characteristic of 5.0 A.

According to the present invention, the current / contact detection transmitter installed in the receptacle box outputs and transmits three data values for the ON-OFF state of the cutoff switch, the presence of the preset minimum current level, and the presence of the maximum current level, On computers and monitors installed in the central monitoring room based on the transmitted data value, the minimum current is 0.3A or more when the disconnect switch of the circuit breaker for the receptacle box connected to the monitored refrigerated containers provided as the bay screen is "ON". It is possible to determine whether the current flows continuously and whether the maximum current flows periodically to the value of 5.0A or more, so that the color can be displayed according to the alarm state so that the power supply state of the refrigerated containers loaded on the yard or the carrier can be displayed. Monitoring and management of the refrigerator load current can be done very efficiently. have.

In addition, as the power supply status and the freezer load current of the refrigerated containers can be accurately understood in real time, an immediate action can be taken for the accident refrigerated container, and unlike the conventional method, the manpower input to the circuit inspection can be reduced to a minimum. Unnecessary costs can be reduced, and refrigerated container monitoring equipment can be installed at a relatively low cost compared to the existing monitoring equipment, which is economically advantageous.

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

The present invention automatically recognizes when the power supplied to each refrigerated container loaded in the yard or carrier ship is blocked between the refrigeration controller on the refrigerated container from the switchgear due to overload or other causes, the refrigeration compressor mounted on the refrigerated container In this way, it is possible to monitor the power supply status and the freezer load current of all the refrigerated containers in such a way as to determine whether or not it is operating normally.

To this end, in the refrigerated container power supply and load monitoring system 10 according to the present invention, as shown in Figures 1 to 3, the outlet for connecting the power plug 14 of each refrigerated container 12 stacked in the yard The combined current detection sensor 24 for detecting and outputting the level of the current flowing through the wiring wire to the wiring wire 22 connected to the wiring breaker (NFB) 20 in the receptacle box 18 having the wiring 16 is connected. It is configured to be.

In addition, a separate current / contact detection transmitter 28 is installed at a predetermined position in the receptacle box 18 so as to be electrically connected to the cutoff switch 26 and the current detection sensor 24 of the circuit breaker 20 for wiring. .

The current / contact detection transmitter 28 is configured to output three data values for the ON-OFF state of the cutoff switch 26 of the wiring breaker 20, the presence or absence of a preset minimum current level, and the presence or absence of a maximum current level. .

In order to determine whether power is continuously supplied to the refrigeration controller of the refrigeration container, the value of the minimum current is set to 0.3A, and the value of the maximum current is 5.0 by determining whether the refrigeration compressor of the refrigeration container is operated periodically. It is preferable to set it to A.

This is considering that the minimum current range of the refrigeration controller mounted on the refrigeration container currently manufactured and supplied is 0.7 ~ 1.5A, and the maximum current range of the refrigeration compressor is 8 ~ 16A.

Meanwhile, in the signal control panel, data collection / collecting data on whether continuous flow of the lowest current and periodic flow of the highest current for each refrigerated container 12 (12 ') transmitted from the current / contact detection transmitter 28 are collected / A transmitter 30 is installed, and the data acquisition / transmitter 30 is connected in wired or wireless communication with the current / contact detection transmitter 28 installed in the receptacle box 18. Here, various communication methods are used, such as serial communication, wireless communication, power line communication using its own power line for supplying power to a refrigerated container for wired and wireless communication between the data acquisition / transmitter 30 and the current / contact detection transmitter 28. In the preferred embodiment of the present invention, serial communication is used.

In the signal control panel, a power supply device 32 converting the 440V AC voltage applied from the outside into a 24V DC voltage and applying it as an operating power source to the current / contact detection transmitter 28 and the data collection / transmitter 30 is provided. It is configured to be installed.

In the present invention, the central monitoring room provided separately is installed so that the computer and the monitor 34 are connected to the data collector / transmitter 30 by wired or wireless communication. Here, various communication methods, such as serial communication, wireless communication, power line communication using its own power line for supplying power to a refrigerated container, may be used for wired or wireless communication between the data acquisition / transmitter 30 and the computer and the monitor 34. In the preferred embodiment of the present invention, serial communication is used.

As shown in FIG. 4, the computer and the monitor 34 allow a receptacle box corresponding to the monitored refrigerated containers 12 and 12 ′ to be generated and displayed as a bay screen according to a preset program. .

At the same time, the computer and the monitor 34 display data values of whether the minimum load current flows to the refrigeration container 12 or 12 'refrigeration controller transmitted from the data collection / transmitter 30 and whether the refrigeration compressor is operated. On the basis of this, the color changes according to the alarm state for each of the refrigerated containers 12 and 12 'to be displayed.

Meanwhile, in the present invention, as shown in FIG. 3, the current / contact detection transmitter 28 outputs the current output from the current detection sensor 24 combined and connected to the wiring wire 22 connected to the wiring breaker 20. A first input signal amplifier 100 is provided to receive a signal and amplify it to a desired level, and the first output terminal 102 and the second output terminal 104 transmit a current signal applied from the first input signal amplifier 100. A signal distribution unit 106 for distributing the signal is provided.

In addition, the lowest current detector 108 for detecting whether a current signal applied through the first output terminal 102 on the signal distributor 106 has a value equal to or greater than a predetermined minimum current value, and the signal distributor ( The highest current detector 110 is provided to detect whether the current signal applied through the second output terminal 104 on the 106 has a value equal to or greater than a preset maximum current value.

The current / contact detection transmitter 28 further includes a second input signal amplifier 112 for outputting a signal of a predetermined level when the cutoff switch 26 of the circuit breaker 20 is turned “ON”; The main power supply 114 for receiving and distributing power from the power supply device 32 is provided.

The main power supply unit 114 has a first power supply unit 116 for applying power to the first input signal amplifier 100, the second input signal amplifier 112 and the signal distribution unit 106 as the operating power source, and The second power supply unit 118 that applies the power distributed from the main power supply unit 114 to the lowest current detection unit 108 and the highest current detection unit 110 as an operating power source is configured to be connected.

In addition, the current / contact detection transmitter 28 collects / transmits the signal output data of the second input signal amplifier 112 and the signal output data values of the lowest current detector and the highest current detector through the communication port drive 120. CPU 122 for transmitting to 30 is included. Here, the communication port drive 120 may be of various communication methods, but in a preferred embodiment of the present invention, a serial communication port drive 120 is used.

The operation of the present invention made as described above is as follows.

1 to 7, when the normal operation of the refrigerated container stacked according to the present invention to monitor the power plug 14 and the external power supply of the general refrigerated container 12, 12 ' The current detecting sensor according to the present invention is provided in a conventional receptacle box 18 installed to connect and install a separate receptacle box to which the present invention is applied, or to supply power to a refrigerated container 12, 12 '. 24), the current / contact detection transmitter 28 and the data collection / transmitter 30 are installed so that data values output from them can be transmitted to a computer and a monitor in the central monitoring room.

In this state, the current detection sensor 24 is combined with the wiring wire 22 connected to the wiring breaker 20 in the receptacle box 18 to which the power plug 14 on the refrigerated containers 12 and 12 'is connected. Wired, the current detecting sensor 24 and the blocking switch 26 on the wiring breaker 20 are electrically connected to the current / contact detection transmitter 28, and the current / contact detection transmitter 28 is a signal switchboard. The data collector / transmitter 30 on the wire is connected to the wired / wireless communication line, while the data collector / transmitter 30 is connected to the computer and the monitor 34 in the central monitoring room by wire or wireless communication line.

In this installation state, the power plug 14 on the refrigerating container 12, 12 'is connected to the outlet 16 on the receptacle box 18, and the cut-off switch of the circuit breaker 20 of the receptacle box 18 is connected. When 26) is set to the "ON" state, the refrigeration controller and the refrigerator compressor are operated and the refrigeration controller and the refrigerator of the refrigerated containers 12 and 12 'are connected by the current detection sensor 24 coupled to the wiring wire 22. The load current signal applied to the compressor is detected.

As shown in FIG. 3, the current signal detected and output by the current detection sensor 24 is applied to the first input signal amplifier 100 and amplified to a desired level, and the first input signal amplifier ( The current signal amplified by the signal 100 is applied to the signal distribution unit 106 and then distributed to the first output terminal 102 and the second output terminal 104 on the signal distribution unit 106.

The current signal applied through the first output terminal 102 on the signal distribution unit 106 is applied to the lowest current detection unit 108, and if the current signal has a value of 0.3A or more, which is a predetermined minimum current value, the signal output is Is detected.

At the same time, the current signal applied through the second output terminal 104 on the signal distribution unit 106 is applied to the highest current detection unit 110, and outputs the signal when the current signal has a value of 5.0 A or more, which is a predetermined maximum current value. Is detected.

On the other hand, when the cutoff switch 26 of the wiring breaker 20 is in the "ON" state, the second input signal amplifier 112 outputs a signal of a predetermined level to the CPU 122.

The CPU 122 transmits the detected data value to the data collector / transmitter 30 through the communication port drive 120.

The data values transmitted from the CPU 122 to the data collector / transmitter 30 are transmitted to the computer and the monitor 34 in the central monitoring room through the communication line.

The computer and the monitor 34 in the central monitoring room allow the monitored refrigerated containers 12 and 12 'to be generated and displayed as bay screens partitioned by loading state according to a preset program. On the basis of the data values transmitted from the 30, the refrigeration containers 12 and 12 'determine whether the refrigeration controller is powered and whether the refrigeration compressor is operated to alert each refrigeration container 12 or 12'. The color changes according to the state so that it is displayed.

In the above operation, a 24V DC voltage is applied to the main power supply unit 114 from an external power supply device 32, and the power applied to the main power supply unit 114 receives the first input signal through the first power supply unit 116. The amplifying unit 100, the second input signal amplifier 112, and the signal distribution unit 106 are applied to the operating power supply, and at the same time, the lowest current detector 108 and the highest current detector 110 through the second power supply unit 118. Is applied to the working power source.

On the other hand, as shown in FIG. 5, the minimum current of 0.3A or more is continuously supplied to the refrigeration controller of the refrigerating containers 12 and 12 'by the detection signal of the minimum current detector 108, and the highest current detector 110 When the steady state data value of the refrigeration compressor of the refrigerating containers 12 and 12 'is periodically supplied with the highest current of 5.0 A or more is applied by the detection signal of the receptacle, the receptacle of the corresponding refrigerating container on the bay screen displayed on the monitor is applied. The box is displayed in green and red when the power plug 14 of the refrigerated containers 12 and 12 'is connected but the power is cut off and no current flows.

In addition, the data value indicating that the minimum current of 0.3A or more is continuously supplied to the refrigeration controller of the refrigerating containers 12 and 12 'by the detection signal of the lowest current detector 108, but the highest current detector 110 If it is determined by the detection signal that the refrigerator compressor of the refrigerated containers 12 and 12 'is not operated for more than a predetermined time (for example, 1 hour), the receptacle box of the corresponding refrigerated container on the bay screen displayed on the monitor flashes in red. If the contact signal of the cutoff switch 26 on the circuit breaker 20 is not normally applied, it is displayed in yellow.

On the other hand, as shown in Figs. 6 and 7, detection of the load current over time in the receptacle box in the specific bay position by the data value transmitted from the data collector / transmitter 30 to the computer and the monitor 34 in the central monitoring room. The results can be displayed on the monitor as a real-time graph. In addition, real-time alarm status, alarm history, daily report, and alarm report can be displayed on the monitor according to the preset program. Monitoring and management can be done immediately and very efficiently.

1 is a system diagram showing a power supply and load monitoring system of a refrigerated container according to the present invention.

2 is a detailed configuration diagram of a power supply and load monitoring system of a refrigerated container according to the present invention.

3 is a block diagram illustrating a signal processing path in a current / contact detection transmitter in a power supply and load monitoring system of a refrigerated container according to the present invention.

Figure 4 is a screen showing an example of the bay screen displayed on the central monitoring room monitor in the power supply and load monitoring system of the refrigerated container according to the present invention.

5 is an alarm time chart illustrating a color conversion state according to an alarm state of a corresponding receptacle displayed on a time chart and a bay screen according to a freezer load current detection in a power supply and load monitoring system of a refrigerated container according to the present invention.

6 is a monitor screen of a real-time graph showing the results of detection of load current by time in a receptacle box in a specific bay position in a power supply and load monitoring system of a refrigerated container according to the present invention.

7 is a screen showing a real-time alarm status, alarm history, daily report, alarm report displayed on the monitor for the container to be monitored in the power supply and load monitoring system of the refrigerated container according to the present invention.

* Description of the symbols for the main parts of the drawings *

12, 12 ': refrigerated container 18: receptacle box

20: circuit breaker 24: current detection sensor

26: disconnect switch 28: current / contact detection transmitter

30: data collector / transmitter 32: power supply

34: computer and monitor 100: first input signal amplifier

106: signal distribution section 108: lowest current detection section

110: maximum current detector 112: second input signal amplifier

122: CPU.

Claims (3)

To the wire 22 for wiring connected to a wiring breaker (NFB) 20 in a receptacle box 18 having an outlet 16 for connecting the power plug 14 of each refrigerated container 12 loaded on a yard or a carrier. A current detection sensor 24 which detects and outputs current information flowing through the wire by being combinedly connected; The receptacle box 18 is installed to be electrically connected to the cutoff switch 26 and the current detection sensor 24 of the circuit breaker 20 for determining whether power is supplied to the refrigerator and whether the refrigeration compressor is periodically operated. A current / contact detection transmitter 28 for detecting whether there is a preset minimum current flow and a preset maximum current flow and outputting a data value thereof; A refrigerated container (12) 12 'installed on the signal control panel and transmitted from the current / contact detection transmitter (28) in wired or wireless communication with the current / contact detection transmitter (28) installed in the receptacle box (18). A plurality of data collectors / transmitters 30 for collecting data on whether the lowest current flows and whether the highest current flows; Installed in the signal control panel, and converts the 440V AC voltage applied from the outside into a 24V DC voltage while being electrically connected to the current / contact detection transmitter 28 and the data collection / transmitter 30 to detect the current / contact detection transmitter ( 28) and a power supply device 32 for applying the operating power to the data collection / transmitter 30; Bays partitioned for each stacked state according to a preset program in a receptacle box corresponding to the refrigerated container 12, 12 'to be monitored in a state where it is installed to be connected to the data collector / transmitter 30 by wire or wireless communication in a central monitoring room ( Bay) screen to be generated and displayed, and at the same time, the data value of whether the refrigeration container (12, 12 ') freezer supplied from the data collection / transmitter 30 is powered and whether the freezer compressor is operating Based on the refrigeration container (12) (12 ') includes a computer and a monitor (34) for changing the color according to the alarm state for each display, The minimum current value set to determine whether power is continuously supplied to the refrigerators of the refrigerator containers 12 and 12 'is 0.3A, and the refrigerator compressors of the refrigerator containers 12 and 12' periodically Power supply and load monitoring system of the refrigerated container, characterized in that the value of the highest current set by determining whether or not to operate. The method of claim 1, The current / contact detection transmitter 28 includes: a first input signal amplifier 100 for amplifying to a desired level by receiving a current signal output from a current detection sensor 24 combined and connected to a wiring wire 22; A signal distributor (106) for distributing the current signal applied from the first input signal amplifier (100) to the first output terminal (102) and the second output terminal (104); A minimum current detector 108 for detecting whether a current signal applied through the first output terminal 102 on the signal distribution unit 106 continuously flows with a value equal to or greater than a predetermined minimum current; A peak current detector (110) for detecting whether a current signal applied through the second output terminal (104) on the signal distributor (106) flows periodically with a value greater than or equal to a preset maximum current; A second input signal amplifier 112 outputting a signal of a predetermined level when the cutoff switch 26 of the wiring breaker 20 is in an " ON "state; A main power supply unit 114 for receiving and distributing power from an external power supply device 32; A first power supply unit 116 for applying power distributed from the main power supply unit 114 to the first input signal amplification unit 100, the second input signal amplification unit 112, and the signal distribution unit 106 as operating power; ; A second power supply unit 118 for applying the power distributed from the main power supply unit 114 to the lowest current detection unit 108 and the highest current detection unit 110 as operating power; The data output / transmitter 30 of the signal output from the second input signal amplifier 112 and the signal output of the lowest current detector 108 and the highest current detector 110 through the communication port drive 120. Power supply and load monitoring system of the refrigerated container, characterized in that it comprises a CPU (122) for transmitting to. delete

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