KR101065485B1 - System for wireless monitering of engine - Google Patents

Abstract

The present invention provides a wireless repeater for receiving and wirelessly transmitting sensor information from a plurality of sensors provided on an engine side and detecting a state of the engine, and wirelessly receiving the sensor information from the wireless repeater provided at the engine and a remote location. Inquiry or display of a wireless receiver, an information collection server for collecting and storing sensor information received at the wireless receiver at a set cycle and storing the information in a DB, and wired / wireless connection to the information collection server and corresponding to the engine. It provides an engine wireless monitoring system including a monitoring unit.

According to the disclosed engine wireless monitoring system, by using a wireless path when acquiring the sensor information of the engine, it is possible to simplify the installation without the need for complicated wiring, and to significantly shorten the installation time of the system and the test work time of the engine. There is an advantage. In addition, since the reliability of the engine test information can be secured, accurate engine testing is possible. Moreover, the standardization of the sensor installation work for the sensor information acquisition of the engine and the installation work of the radio repeater can be significantly shortened.

Description

Engine Wireless Monitoring System {System for wireless monitering of engine}

The present invention relates to an engine wireless monitoring system, and more particularly, to an engine wireless monitoring system required for an operation test operation of the engine during a production process of a medium / large engine used for ships, power generation, and the like.

Medium / large engines used for ships, power generation, etc. need to perform an engine test process to ensure reliability of engine operation. In order to test the engine, the sensor information of various sensors attached to the engine should be collected and analyzed according to various algorithms.

In the conventional case, the sensor information detected from a plurality of sensors are each connected to a central server by using a complicated cable. However, since the types of engines to be developed are very diverse and their structures are also different, it is very difficult to establish a standard for wiring work. In addition, due to such a working environment, there is a problem that the engine test preparation work takes a long time. Furthermore, most of these preparatory tasks are currently performed manually, and if a worker incorrectly performs a wiring, a corrective wiring must be performed again, which is not only cumbersome and efficient, but also provides accurate information on engine operation. Since it can not be secured, there is a problem that takes a long time to develop the product. In addition, due to competition in shortening the development cycle of engine products, it is very important to shorten the working time of such an engine test process and to realize a production process utilizing accurate test results.

An object of the present invention is to provide an engine wireless monitoring system which can save the engine test work time without the need for complicated cable wiring work as wireless transmission of sensor information detected from a plurality of sensors provided in the engine can be implemented. .

 The present invention provides a wireless repeater for receiving and wirelessly transmitting sensor information from a plurality of sensors provided on an engine side and detecting a state of the engine, and wirelessly receiving the sensor information from the wireless repeater provided at the engine and a remote location. Inquiry or display of a wireless receiver, an information collection server for collecting and storing sensor information received at the wireless receiver at a set cycle and storing the information in a DB, and wired / wireless connection to the information collection server and corresponding to the engine. It provides an engine wireless monitoring system including a monitoring unit.

Here, the monitoring unit receives an operation signal for driving operation of the engine from the manager and transmits it to the information collection server side, and the wireless repeater receives the operation signal via the information collection server and the radio receiver. In this case, the driving of the engine is operated so as to correspond to the operation signal, and the driving state information of the engine is transmitted to the wireless receiver so that the driving state information is transmitted to the information collecting server side. The operation history of the engine may be stored and managed based on the operation signal and the driving state information. In this case, the monitoring unit, it is possible to query the driving state information and the operation history of the engine through the information collection server.

The monitoring unit may receive a request signal for collecting sensor information of the engine from an administrator and transmit the request signal to the information collection server, and the wireless repeater transmits the request signal through the information collection server and the wireless receiver. When receiving, the sensor information is transmitted to the wireless receiver so as to correspond to the request signal, so that the sensor information is transmitted to the information collection server, and the information collection server stores the sensor information request history of the engine based on the request signal. Can manage In this case, the monitoring unit, it is possible to query the sensor information and the operation history of the engine through the information collection server.

According to the engine wireless monitoring system according to the present invention, by using the wireless path when acquiring the sensor information of the engine, it is possible to simplify the installation without the need for complicated wiring, greatly shortening the installation time of the system and the test work time of the engine There is an advantage to this. In addition, since the reliability of the engine test information can be secured, accurate engine testing is possible. Moreover, the standardization of the sensor installation work for the sensor information acquisition of the engine and the installation work of the radio repeater can be significantly shortened.

1 is a configuration diagram of an engine wireless monitoring system according to an exemplary embodiment of the present invention, and FIG. 2 is another configuration diagram of FIG. 1. 3 is a modification of FIG. 4 is a flowchart of driving a system using FIG. 1. The engine wireless monitoring system () relates to an engine test system for ensuring reliability of operation of a medium / large engine 10 used for a ship, power generation, etc., and includes various sensors 20 attached to the engine 10. The sensor information of 30, 40, 50 is collected through wireless communication to perform analysis according to various algorithms.

1 and 2, the engine wireless monitoring system 100 includes a wireless repeater 110, a wireless receiver 120, an information collection server 130, and a monitoring unit 140. The wireless repeater 110 is provided on the engine 10 side, and receives the sensor information from a plurality of sensors 20, 30, 40, 50 for detecting the state of the engine 10, the wireless receiver 120 Wireless transmission to the side is possible.

Here, the sensors 20, 30, 40, 50, the temperature of the engine 10, the pressure of the engine 10, the output of the engine 10, the rotation speed (RPM) of the engine 10, respectively A plurality of sensors selected from among the temperature sensor 20, the pressure sensor 30, the output sensor 40, and the rotation sensor 50 for sensing. Here, the type of the sensor is not necessarily limited to the above, and other sensors capable of detecting the driving of the engine 10 may be added in addition to the above-described sensor.

The sensors 20, 30, 40, and 50 are directly attached or installed to the engine 10 to collect sensor information for performing a driving test of the engine. The sensors 20, 30, 40, and 50 may be connected to the wireless repeater 110 in a wired or wireless manner. If the types of the sensors are not diverse, the wiring is not complicated, so the installation may be simplified by wire. In addition, since the wireless repeater 110 is provided adjacent to the engine 10, the wired connection is more effective if the installation cost and operational efficiency are considered.

In addition, the wireless repeater 110 includes a display window (not shown) for displaying sensor information of the engine 10 and a unique ID of the engine 10. Such a display window (not shown) may be implemented in various display forms such as LCD and seven segments. The unique ID may be displayed in letters, numbers, or a combination thereof. In addition, each numerical value of the sensor information may be represented by a number.

According to the display window (not shown) of the wireless repeater 110, the operator of the engine 10 side simply grasps the display window (not shown), through the sensor information as well as the unique ID information of the engine 10. You can check the operation information of the engine in real time. Therefore, it is possible to conveniently check the sensor information at the actual engine 10 side instead of the monitoring room 60, and as soon as a worker in the field makes it easy to grasp the test situation of the engine 10, a quick response is possible. There is an advantage to this.

The wireless receiver 120 is provided in the engine 10 and a remote site (ex, engine test monitoring room 60), and wirelessly receives the sensor information from the wireless repeater 110. In the wireless communication between the wireless repeater 110 and the wireless receiver 120, various known wireless methods such as a wireless LAN method, an RF method, and a Zigbee method are applicable.

The wireless repeater 110 and the wireless receiver 120 is provided with a separate wired path 150 in order to enable continuous communication even when a wireless communication between each other is impossible. The wired path 150 may be constructed by a LAN method. That is, the wireless repeater 110 and the wireless receiver 120 basically perform communication through a wireless path, and then wireless communication due to various failures (eg, a wireless communication failure due to an internal circuit problem or radio wave interference). When the path is lost, the communication path is switched to the wired path 150 so that continuous communication can be maintained so that the condition monitoring and testing of the engine 10 can be smoothly performed without interruption.

On the other hand, the information collection server 130 is provided in the engine test monitoring room 60, and collects the sensor information received by the radio receiver 120 in a setting cycle and stores and manages the DB. The information collection server 130 is basically capable of collecting information in a short cycle unit of about 100ms, if the storage period of the information is too short, a large amount of data is stored at one time, the memory is excessively consumed and the DB operating efficiency is lowered There is this. Therefore, the information collection server 130 can increase the efficiency of the operation of the DB by setting the interval of information storage at intervals of the setting period (ex, 5 seconds, 10 seconds).

The monitoring unit 140 is provided in the engine test monitoring room 60 or other space to enable the wired and wireless connection to the information collection server 130, the inquiry or display of the sensor information corresponding to the engine 10 is It is possible. The monitoring unit 140 is a configuration capable of real-time monitoring directly by the operator or administrator, it can be implemented by various means such as a PC, a laptop. For example, the monitoring unit 140 may express the information of the hourly pressure value acquired through the pressure sensor 30 as a graph, a table, or a numerical value. In addition, when the pressure value is out of the threshold reference, it is possible to display a warning message or output an alarm. The input of the threshold for each sensor information can be set by the operator through a separate input unit (ex, mouse, keyboard, touch screen, etc.) provided in the monitoring unit 140. By setting the threshold as an algorithm for testing the engine (), it is possible to quickly check in real time if the current operation of the engine () is abnormal. The monitoring unit 140 may set the setting period which is an information collection period of the information collection server 130 through the input unit (not shown).

Meanwhile, the information collection server 130 stores and manages a plurality of detailed information selected from detailed information of the engine, such as the type of engine 10 corresponding to the unique ID, production date, producer, installation place information, and the like. Therefore, referring to FIG. 4, as an engine search function, the monitoring unit 140 may query the detailed information of the engine 10 corresponding to the unique ID. That is, when the monitoring unit 140 transmits a search request signal for searching for engine information to the information collection server 130 (S110), the information collection server 130 corresponds to the search request signal. To 140, the administrator transmits the detailed information of the engine 10 (type of engine, production date, producer, installation place, etc.) (S120). This manages general details of the engine 10 in the memory of the information collection server 130, thereby making it possible to easily recognize which engine is the engine 10 to be tested.

On the other hand, referring to Figure 3, the wireless repeater 110 is provided for each engine 10 separately, through the wireless receiver 120, information collection server 130 of the central monitoring room 60 side. Integrated management is possible. That is, the wireless repeater 110 may be provided in plurality so as to correspond to the plurality of engines 10-1, 10-2,..., 10 -N, and each engine 10-1, 10- 2, ..., 10-N). Accordingly, the wireless repeater 110 transmits the sensor information for each engine to the wireless receiver 120 in association with the unique ID. Therefore, the information collection server 130, it is possible to easily determine through the unique ID information which engine information is received corresponding sensor information.

The monitoring unit 140 has not only the engine search (A) function but also an engine operation (B) and an engine test (C) function. Referring to FIG. 4, as the engine operation B function, first, the monitoring unit 140 outputs an operation signal (eg, engine start, stop, emergency stop, output control) for driving operation of the engine 10. It receives the input from the administrator and transmits to the information collection server 130 (S210).

The information collecting server 130 stores the history of the operation signal and transmits the operation signal to the wireless receiver 120 (S220), and the wireless receiver 120 transmits the operation signal to the wireless repeater 110 again. It transmits to (S230). The wireless repeater 110, when receiving the operation signal via the information acquisition server 130 and the wireless receiver 120, operates the driving of the engine 10 to correspond to the operation signal (S) S230), and transmits driving state information of the engine 10 to the wireless receiver 120 (S240). For example, the wireless repeater 110 is provided with a switch unit which is operated in response to the operation signal of the engine 10, the operation operation of the engine 10 is possible through this switch unit. That is, when the operation signal is an engine start signal, the wireless repeater 110 starts the engine 10 by the operation of the switch unit, and the start completion information is used as the driving state information of the wireless receiver 120. Send to the side. In this case, when the engine is started, the wireless repeater 110 may acquire sensor information obtained from the sensors 20, 30, 40, and 50 provided in the engine 10 through the wireless receiver 120. By transmitting to the information collection server 130, to enable the DB of the sensor information.

Meanwhile, when the wireless repeater 110 transmits driving state information of the engine 10 to the wireless receiver 120, the wireless receiver 120 returns the driving state information of the engine 10 to the information collection server 130. Deliver to the side (S250). That is, the information collection server 130 may store and manage the operation history of the engine 10 by collecting them based on the received operation signal and the driving state information. At this time, the monitoring unit 140, through the information collection server 130, it is possible to query the driving state information and the operation history of the engine (S260).

In addition, as an engine test (C) function, the monitoring unit 140 first receives a request signal for collecting sensor information of the engine 10 from an administrator and transmits it to the information collection server 130 (S310). . Then, the information collecting server 130 stores the history of the request signal and transmits the request signal to the radio receiver 120 (S320), the radio receiver 120 again transmits the request signal to the radio repeater ( 110) (S330). That is, when the wireless repeater 110 receives the request signal via the information acquisition server 130 and the wireless receiver 120, the wireless receiver 120 transmits the sensor information to correspond to the request signal. In step (S340).

Then, the wireless receiver 120 transmits the sensor information back to the information collection server 130 (S350). The information collection server 130 may not only collect sensor information about the engine 10, but also store and manage a history of sensor information requests of the engine 10 based on the request signal. In this case, the monitoring unit 140, through the information collection server 130, it is possible to query the sensor information and the operation history of the engine.

As described above, the engine wireless monitoring system 100 uses a wireless path when acquiring the sensor information of the engine, thereby simplifying the installation without requiring complicated wiring, and greatly increases the installation time of the system and the test work time of the engine. There is an advantage that can be shortened. In addition, since the reliability of the engine test information can be secured, accurate engine testing is possible. Moreover, the standardization of the sensor installation work for the sensor information acquisition of the engine and the installation work of the radio repeater can be significantly shortened.

Although the present invention has been described with reference to the embodiments shown in the drawings, these are merely exemplary and those skilled in the art will understand that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

1 is a block diagram of an engine wireless monitoring system according to an embodiment of the present invention;

2 is another configuration of FIG.

3 is a modification of FIG.

4 is a flowchart of driving a system using FIG. 1.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.

10: engine 20: temperature sensor

30: pressure sensor 40: output sensor

50: rotation sensor 60: monitoring room

100: engine wireless monitoring system 110: radio repeater

120: wireless receiver 130: information collection server

140: monitoring unit 150: wired path

Claims (8)

A wireless repeater provided on an engine side and receiving and wirelessly transmitting sensor information from a plurality of sensors for detecting a state of the engine, and having a display window displaying sensor information of the engine and a unique ID of the engine; A wireless receiver provided at the engine and a remote site and wirelessly receiving the sensor information from the wireless repeater; An information collection server for collecting and storing sensor information received at the wireless receiver in a setting cycle and storing the information in a DB; And Wired and wireless connection to the information collection server, including a monitoring unit capable of inquiring or displaying the sensor information corresponding to the engine, The sensors may be a plurality of sensors selected from among a temperature sensor, a pressure sensor, an output sensor, and a rotation sensor for respectively detecting temperature, pressure, output, and rotational speed of the engine, The monitoring unit, Receives an operation signal for driving the engine operation from the manager and transmits it to the information collection server side, The wireless repeater, when receiving the operation signal via the information acquisition server and the radio receiver, operates the engine to correspond to the operation signal, and transmits the driving state information of the engine to the radio receiver. To transmit the driving state information to the information collection server side, The information collecting server stores and manages the operation history of the engine based on the operation signal and the driving state information. The operation signal is an engine wireless monitoring system including at least one of a signal for starting, stopping, emergency stop, output control of the engine. delete The method according to claim 1, wherein the information collection server, Save and manage a plurality of detailed information selected from the detailed information of the engine for the type, production date, producer, installation place of the engine corresponding to the unique ID, The monitoring unit may query the detailed information of the engine corresponding to the unique ID, the engine wireless monitoring system capable of setting the setting period, which is the information collection cycle of the information collection server. The method according to claim 1 or 3, The wireless repeater is provided with a plurality of corresponding to a plurality of engines and has an individual unique ID corresponding to each engine, the engine radio for transmitting the sensor information to the radio receiver side in association with the unique ID for each engine Monitoring system. delete The method according to claim 1, The monitoring unit, An engine wireless monitoring system capable of querying the driving state information and the operation history of the engine through the information collection server. The method according to claim 1 or 3, wherein the monitoring unit, Receives a request signal for the sensor information collection of the engine from the administrator and transmits to the information collection server side, The wireless repeater, when receiving the request signal via the information acquisition server and the radio receiver, to transmit the sensor information to the wireless receiver to correspond to the request signal to be delivered to the information collection server side, The information collection server, the engine wireless monitoring system for storing and managing the sensor information request history of the engine based on the request signal. The method of claim 7, wherein the monitoring unit, An engine wireless monitoring system capable of querying the sensor information and the operation history of the engine through the information collection server.

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