KR102345623B1 - Smart EOCR data communication system built on buildings - Google Patents

Abstract

The present invention relates to a smart EOCR data communication system built in a building, and the configuration is to be installed in a plurality of devices located in a building, and when an overcurrent is detected in the device, the power transmitted to the device is cut off to prevent the device caused by the overcurrent A plurality of smart EOCRs including a communication module to prevent damage to and to transmit current information (data) measured and detected by a real-time device; and a plurality of smart EOCRs located on the same floor in a building through a daisy chain method A communication line that is connected to each other and transmits current information measured and detected by the smart EOCR, and is selectively connected to any one of the R phase, S phase, and T phase of the power line that supplies power in the building; and A transmission PLC module formed in the smart EOCR or at least two or more of the smart EOCRs adjacent to the power line in the plurality of smart EOCRs formed on each layer to transmit current information transmitted through the communication line through the power line; and a management server that is connected to the power line and receives and manages a large amount of current information transmitted through the power line, and includes a receiving PLC module capable of stably receiving current information transmitted from the power line; As to
A number of smart EOCRs formed on each floor of a building and a communication line connected in a daisy chain method are connected to the power line of the building, and the management server is interconnected to the power line, so that the current information measured and detected by multiple smart EOCRs is It is collected through the communication line and transmitted to the power line, and the transmitted current information is transmitted to the management server connected to the power line through the power line as a medium to build a data communication system that transmits large amounts of data to the management server very simply. It works.

Description

Smart EOCR data communication system built on buildings

The present invention relates to a smart EOCR data communication system built in a building, and more particularly, a communication line connected to a plurality of smart EOCRs formed on each floor of a building in a daisy chain manner is connected to the power line of the building, and the power line By building the management server to be interconnected, the current information measured and detected by multiple smart EOCRs is collected through the communication line and transmitted to the power line, and the transmitted current information is transmitted to the management server connected to the power line through the power line as a medium. It relates to a data communication system that can transmit a large amount of data to a management server very simply.

In general, EOCR (Electronic Over Current Relay) is a device to protect the device by turning off the MC (Magnetic Contactor) when an overcurrent on the load (device) side is detected.

Due to the nature of equipment installed and operated on a small scale in conventional factories, when an overcurrent is detected in the equipment through the EOCR, the operation of the equipment is stopped to prevent major failure of the equipment. induced.

This is because, in the prior art, the loss of repair cost due to a major failure of the device is greater than the cost loss of the factory due to downtime caused by the operation of the device being stopped through EOCR, and thus the device was operated and managed in the same manner as described above.

However, due to the nature of large-scale production lines that continuously produce products while tens or hundreds of devices are installed and operated in conjunction with each other in recent factories, when the operation of the device through the EOCR is stopped, the entire production line is stopped. Situations may occur, and huge losses are caused by product production, operating costs, and business effects due to such downtime.

Therefore, in recent years, in order to minimize cost loss due to unexpected downtime, the state of the device is periodically checked to detect abnormal signs that occur in the normal state of the device in advance, and the device to cope with and manage device failure before it occurs. A system that induces stable operation of large-scale production lines through predictive maintenance is required.

In order to construct a predictive maintenance system for devices as described above, it is basically required to construct a data communication system that detects the operating state of each device and communicates (transmits) the detected information (data) to the management server. It is very difficult to construct a communication system in a new building. The reasons for this are as follows.

In recent new buildings, electrical equipment lines such as power lines for supplying power are built, and the constructed electric equipment lines are closed by molding, so that the risk of fire due to electric equipment lines is greatly reduced.

Therefore, it is very inconvenient and difficult to construct a communication line for establishing the data communication system as described above in a new building.

Therefore, there is a need for a method for easily constructing a basic data communication system in a building for realizing a predictive maintenance system of a device.

The present invention has been proposed to solve the various problems as described above, and its purpose is to connect a plurality of smart EOCRs formed on each floor of a building and a communication line connected in a daisy chain manner to the power line of the building, and the power line By building the management server to be interconnected, the current information measured and detected by multiple smart EOCRs is collected through the communication line and transmitted to the power line, and the transmitted current information is transmitted to the management server connected to the power line through the power line as a medium. It is intended to provide a data communication system that can transmit a large amount of data to a management server in a very simple manner.

The smart EOCR data communication system constructed in a building according to the present invention for achieving the above object is to be installed in a plurality of devices located in the building, respectively, and when an overcurrent is detected in the device, the power transmitted to the device is cut off to cut off the overcurrent A plurality of smart EOCRs including a communication module to prevent damage to the device and transmit current information (data) measured and detected by a real-time device; and a daisy chain with a plurality of smart EOCRs located on the same floor in a building A communication line that is connected to each other through a method to transmit current information measured and detected by the smart EOCR, and is selectively connected to any one of the R phase, S phase, and T phase of a power line that supplies power in a building; and , In the plurality of smart EOCRs formed on each floor of the building, the smart EOCR or at least two or more smart EOCRs that are close to the power line in the smart EOCR to transmit current information transmitted through the communication line to be transmitted through the power line A management server including a PLC module; is made including,
A gateway that is connected to the power line of the building on behalf of the management server and receives a large amount of current information transmitted through the power line;
The receiving PLC module is installed in the gateway,
The management server receives and manages current information transmitted from the smart EOCR installed in a plurality of buildings by receiving wired and wireless communication current information from the gateway installed in a plurality of buildings,
The management server is placed on the floor where the device is located in the building or building where the device is located through wired/wireless communication when an abnormality of the device is suspected based on the current information measured and transmitted from the plurality of smart EOCRs installed in the building An alarm is made through a built-in alarm unit, and the alarm unit is implemented as a speaker that generates an alarm light or an alarm sound.

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As described above, according to the smart EOCR data communication system built in a building according to the present invention, a communication line connected in a daisy chain manner with a plurality of smart EOCRs formed on each floor of the building is connected to the power line of the building, and the power line By allowing the management servers to be interconnected in the It has the effect of constructing a data communication system that transmits a large amount of data to the management server very simply.

1 is a conceptual diagram of a smart EOCR data communication system built in a building according to an embodiment of the present invention;
2 is a conceptual diagram of a smart EOCR data communication system built in a building according to another embodiment of the present invention;
3 is a view for explaining a smart EOCR data communication system built in the building shown in FIG.

A smart EOCR data communication system to be built in a building according to a preferred embodiment of the present invention will be described in detail based on the accompanying drawings. Detailed descriptions of well-known functions and configurations that are determined to unnecessarily obscure the gist of the present invention will be omitted.

1 to 3 show a smart EOCR data communication system built in a building according to an embodiment of the present invention, and FIG. 1 is a conceptual diagram of a smart EOCR data communication system built in a building according to an embodiment of the present invention, 2 is a conceptual diagram of a smart EOCR data communication system built in a building according to another embodiment of the present invention, and FIG. 3 is a diagram for explaining a smart EOCR data communication system built in the building shown in FIG. 1 respectively. .

As shown in the figure, the smart EOCR data communication system 100 constructed in a building according to an embodiment of the present invention includes a smart EOCR 10, a communication line 20, and a transmission PLC module 30, It includes a management server (40).

As shown in Figure 1, the smart EOCR (10) is to be installed in each of a plurality of devices located in a building, and when an overcurrent is detected in the device, the power transmitted to the device is cut off to prevent damage to the device due to the overcurrent However, the communication module 11 for transmitting current information (data) measured and detected by the real-time device is included.

In general, EOCR (Electronic Over Current Relay) is a device that protects the device by stopping the operation of the device by blocking the power supplied to the device when an overcurrent is detected on the device side. of course it is

That is, the smart EOCR 10 can detect the operating state of the device in real time through the unique function of EOCR to detect the overcurrent of the device. Since the configuration is not required, the advantage of inducing the easy construction of the predictive maintenance system of the device through the smart EOCR data communication system 100 built in the building of the present invention can be expected.

Here, the current information of the device periodically detected and collected through the smart EOCR 10 is transmitted to the communication line 20 to be installed later through the communication module 11 and transmitted to the management server 40 to be installed later. , which will be described in detail below.

1, the communication line 20 is connected to each other through a daisy chain method with a plurality of smart EOCRs 10 located on the same floor in a building, and the current measured and detected by the smart EOCR 10 By transmitting information, it is selectively connected to any one of the R phase, S phase, and T phase of the power line 1 that supplies power in a building.

That is, since a plurality of the smart EOCRs 10 are formed on each floor of the building as shown in FIG. 3c, the communication lines 20 connecting the smart EOCRs 10 are formed on each floor of the building. Current information measured and detected by the smart EOCR (10) formed on the floor is collected and transmitted to the management server (40) through the power line (1) as a medium.

If each of the communication lines 20 and the power line 1 formed on each floor of the building are connected to different phases, for example, some of the communication lines 20 are connected to the R phase and the neutral line of the power line 1 and some of the communication line 20 is connected to the S-phase and neutral of the power line, the current information transmitted from the communication line 20 is not smoothly transmitted to the management server 40 through the power line 1 can't

Accordingly, all the communication lines 20 of the building connected to the power line 1 are connected to the same selected one phase, and current information collected and transmitted through the communication line 20 is transmitted through the power line 1 . It is to be easily transmitted to the management server (40).

As shown in Figure 1, the transmitting PLC module 30 is the smart EOCR (10) or at least two or more that are close to the power line (1) in a plurality of the smart EOCR (10) formed on each floor of the building The current information formed in the smart EOCR (10) and transmitted through the communication line (20) is transmitted through the power line (1).

Here, although it has been described that the sending PLC module 30 is installed on the smart EOCR 10, the current information collected and transmitted to the communication line 20 by implementing the sending PLC module 30 as an individual configuration Of course, it can be constructed so that it can be easily transmitted through the power line 1 .

As shown in FIG. 1 , the management server 40 is connected to the power line 1 and receives and manages a large amount of current information transmitted through the power line 1 , and is transmitted from the power line 1 . It is configured to include a receiving PLC module 41 that can receive current information stably.

That is, as shown in FIG. 3D , the management server 40 is a medium for operating the predictive maintenance system of the device. Based on the large amount of current information transmitted through the power line 1, if an abnormality of the device is suspected, · In the building or building where the device is located through wireless communication, an alarm is sent through the alarm unit 60 disposed on the floor where the device is located, leading to prompt inspection and management of the device suspected of abnormality.

Therefore, a large-scale production facility built with a large number of devices installed in a building can reliably prevent huge economic losses that may occur due to downtime due to an unexpected stoppage of the devices.

Here, of course, the alarm unit 60 may be implemented as a speaker that generates an alarm light or an alarm sound.

On the other hand, as shown in Figure 2, the gateway 50 for receiving a large amount of current information transmitted through the power line (1) connected to the power line (1) of the building instead of the management server (40); Including but

The receiving PLC module 41 is installed in the gateway 50,

The management server 40 receives current information through wired and wireless communication from the gateway 50 installed in a plurality of buildings, and receives and manages current information transmitted from the smart EOCR 10 installed in a plurality of buildings to do it

That is, the management server 40 can receive and manage all the current information collected and transmitted from the plurality of smart EOCRs 10 installed in each building through the gateway 50 installed in each building. It can induce smooth management of large-scale production facilities installed in buildings.

The smart EOCR data communication system 100 built in the building of the present invention having the above configuration is a communication line 20 connected in a daisy chain with a plurality of smart EOCRs 10 formed on each floor of the building. It is connected to the power line 1 of It is transmitted to (1), and the transmitted current information is transmitted to the management server 40 connected to the power line 1 through the power line 1 as a medium, so that a large amount of data can be transmitted to the management server 40 very simply. A communication system can be established.

The smart EOCR data communication system 100 constructed in a building according to an embodiment of the present invention having the above configuration is simply constructed and operated as follows.

First, as shown in FIG. 3A, a plurality of smart EOCRs 10 formed on each floor of a building are connected in a daisy chain manner to form a communication line 20, and the communication line 20 is formed in the building. The communication line 20 is built on each floor of the building in such a way that it is connected to one phase selected from the power lines 1 .

Thereafter, as shown in FIG. 3b , a management server 40 that is connected to the power line 1 and can receive and manage current information transmitted through the communication line 20 is built, and is easily installed in the building of the present invention. The construction of the smart EOCR data communication system 100 to be built is completed.

Here, on the smart EOCR 10 connected to the communication line 20, a transmitting PLC module 30 is formed so that current information can be easily transmitted through the power line 1, and the management server 40 Of course, the receiving PLC module 41 is provided so as to easily receive the current information transmitted through the power line 1 .

When the smart EOCR data communication system 100 built in the building of the present invention is built as described above, the current information measured and detected by the smart EOCR 10 formed on each floor of the building as shown in FIG. 3c is the communication It is collected through the line 20 and transmitted to the power line 1 , and the transmitted current information is transmitted to the management server 40 based on the power line 1 and collected and managed.

At this time, as shown in FIG. 3D, if an abnormality of the device is suspected based on the large-capacity current information transmitted to the management server 40, the alarm unit located on the corresponding floor of the building suspected of abnormality through wired/wireless communication Alarm through (60) to induce prompt inspection and management of suspected abnormalities to reliably prevent downtime of large-scale production facilities, thereby preventing economic losses due to downtime in advance.

Although the present invention has been described with reference to the embodiments shown in the accompanying drawings, which are illustrative and not limited to the above-described embodiments, those of ordinary skill in the art will realize that various modifications and equivalent embodiments are possible therefrom. point can be understood. In addition, it goes without saying that modifications by those skilled in the art are possible within the scope that does not impair the spirit of the present invention. Accordingly, the scope of claiming the right in the present invention is not defined within the scope of the detailed description, but will be limited by the claims and technical spirit thereof to be described later.

1. power line
10. Smart EOCR 11. Communication module
20. Communication line 30. Sending PLC module
40. Management server 41. Receiving PLC module
50. Gateway 60. Alarm Department
100. Smart EOCR data communication system built in buildings

Claims (3)

A data communication system for transmitting data from a predictive maintenance system for performing predictive maintenance of a device, the data communication system comprising:
It is installed in multiple devices located in buildings, and when an overcurrent is detected in the device, the power transmitted to the device is cut off to prevent damage to the device due to overcurrent, but the current information (data) measured and detected by the device is transmitted in real time A plurality of smart EOCR (10: Electronic OverCurrent Relay) that includes a communication module 11;
A plurality of smart EOCRs (10) located on the same floor in a building are connected to each other through a daisy chain method to transmit current information measured and detected by the smart EOCR (10), and a power line (1) that supplies power in a building ) of R-phase, S-phase, and T-phase, a communication line 20 selectively connected to any one of the phases;
In the plurality of smart EOCRs (10) formed on each floor of the building, the smart EOCR (10) or at least two or more of the smart EOCRs (10) that are close to the power line (1) are formed in the communication line (20) a transmission PLC (Power Line Communication) module 30 for transmitting current information transmitted through the power line 1; and
Receiving PLC module 41 that is connected to the power line 1 and receives and manages a large amount of current information transmitted through the power line 1, and can stably receive current information transmitted from the power line 1 Management server 40 including;
The communication line 20 and the management server 40 formed on each floor of the building are both connected to the same phase of the power line 1, so that the current information transmitted through the communication line 20 of each floor is all the above. so that it can be transmitted through the power line (1),
A gateway (50: gateway) which is connected to the power line (1) of the building on behalf of the management server (40) and receives a large amount of current information transmitted through the power line (1);
The receiving PLC module 41 is installed in the gateway 50,
The management server 40 receives current information through wired and wireless communication from the gateway 50 installed in a plurality of buildings, and receives and manages current information transmitted from the smart EOCR 10 installed in a plurality of buildings to do,
The management server 40 is a device in the building or building where the device is located through wired/wireless communication when an abnormality of the device is suspected based on the current information measured and transmitted from the plurality of smart EOCRs 10 installed in the building A smart EOCR data communication system built in a building, characterized in that an alarm is made through the alarm unit 60 disposed on the floor where is located, and the alarm unit 60 is implemented as a speaker that generates an alarm light or an alarm sound. delete delete

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