KR20030042593A - The control system of instrument facilities using a remote server and thereof method - Google Patents

Abstract

PURPOSE: A system and a method for controlling machinery equipments using a remote server are provided to judge an abnormal sign in real-time by obtaining the data detected from various detecting sensors installed to the machinery equipments, and to automatically control the machinery equipments by the remote server. CONSTITUTION: The detecting sensor part(10) is equipped with various detecting sensors generating the detection data in real-time by installing to a proper element of the machinery equipments(100). A detection data obtaining part(20) obtains and outputs the detection data. A detection data analysis part(30) sets up a normal operation range of the machinery equipments(100), outputs only the detection data if the detection data is within the normal operation range, and outputs the detection data and a control request signal for the machinery equipments(100) if not. A machinery equipments controlling part(90) controls the machinery equipments(100) by receiving a control instruction code. The remote server(80) transmits a detection data inquiry web page and the control instruction code. A worker terminal(120) inquires the detection data in real-time through the Internet.

Description

The control system of instrument facilities using a remote server and about method}

The present invention relates to a control system for a mechanical equipment using a remote server and a control method thereof, and more particularly, to determine in real time the presence or absence of an abnormal symptom of the sensed data detected by a sensor, in case a abnormal symptom occurs. The present invention relates to a system for automatically controlling a mechanical device by the same, and a control method thereof.

In general, mechanical equipment such as automobile test equipment, when operating, the operating temperature of the mechanical equipment, operating vibration of the mechanical equipment, the current flowing through the mechanical equipment, the operating pressure of the mechanical equipment, the operation of the mechanical equipment It is greatly affected by humidity.

Therefore, operating environment sensors such as temperature sensor, vibration sensor, current sensor, pressure sensor, and humidity sensor are installed on the loading elements of the mechanical devices that are operated, and the operator installs on the loading elements of the mechanical devices. Observing the environmental sensors directly, if an abnormality is observed in which the factors such as temperature, vibration, current, etc., which are major influences on the malfunction of the operation and the safety of the mechanical equipment, are out of the normal operating range, the element is observed. Repair the machine after the operator turns off the power of the relevant equipment with the installed ambient condition sensor.

In addition, since mechanical equipments such as automobile test facilities are operated for 24 hours, the manager who observes various sensors should be there for 24 hours to monitor the operating environment (various sensors) all the time and respond promptly to abnormal conditions in the operating environment. do.

However, the observation of mechanical devices affected by product production or safety by the operating environment such as temperature, vibration, current, pressure, humidity, etc., allows the administrator to directly monitor various sensors installed on the loading elements of the mechanical devices. In addition, in the case of abnormal symptoms occurring in various detection sensors, there is a problem that the administrator must directly turn off the corresponding mechanical equipment in which abnormal symptoms are detected and repair them.

The present invention is to solve the problems of the prior art, the object of the present invention is to acquire the data detected by the various sensor sensors installed in the loading elements of the mechanical equipment device to determine the presence or absence of abnormal symptoms in real time, It is to provide a mechanical equipment control system and a control method using a remote server to enable the control of the mechanical equipment automatically by the remote server in the event of occurrence.

As a technical idea for achieving the object of the present invention, the detection sensor unit is provided with at least one detection sensor is installed on the loading elements of the mechanical equipment to generate the detection data, and the detection data detected by the detection sensor unit The sensor acquires and outputs the sensed data, and receives the sensed data from the data acquisition unit, compares and analyzes it with the normal operating range of the mechanical equipment, and outputs only the sensed data when the sensed data does not fall within the normal operating range If the data is out of the normal operation range, the machine equipment control request signal is generated, and the sensing data analysis unit for outputting the generated sensing data or the machine equipment control request signal and the sensing data, and the machine equipment control command code A hardware device controlling the hardware device included in the hardware device part by receiving transmission. The fisherman, the sensing data information DB for each cycle in which the sensing data sensed by the sensing sensor unit is stored in real time, and when the sensing data is out of the normal operating range, so that the control of the corresponding mechanical equipment outside the normal operating range is possible. The sensing device transmitted from the sensing data analysis unit by operating the mechanical equipment control command code information DB, the mechanical equipment control command code information DB, the cycle detection data information DB stored in the control equipment code of the mechanical equipment, or Among the sensing data and the mechanical equipment control request signal, the sensing data is stored in the sensing data information DB for each cycle, and the mechanical equipment control request signal is matched with the mechanical equipment control command code information DB, and the matching mechanical equipment And a remote server for extracting a control command code and transmitting the control command code to the mechanical device control unit. It proposes a hardware device control system using a remote server according to claim.

In addition, by using the system control system sensitive to the operating environment by using the remote server, in the sensing data analysis unit, the mechanical devices that are affected by the operating environment such as temperature, vibration, current, pressure, humidity can be normally operated. Setting the normal operating range, operating the mechanical equipment, generating the sensing data in the sensing sensor unit installed in the loading element of the operating mechanical equipment, and sensing the generated sensing data. Acquiring and outputting the data from the data acquiring unit; receiving and outputting the sensed data from the sensed data analyzing unit and comparing and analyzing the detected data with the normal operating range; If the detected data value compared with the analyzed value is not within the normal operation range, Generating a device control request signal, transmitting the generated mechanical device control request signal and sensed data to a remote server; and, among the information transmitted to the remote server, the sensed data is stored in the sensed data information DB for each period And extracting the machine equipment control command code by matching the machine equipment control command code information DB and the machine equipment control request signal, and transmitting the extracted machine equipment control command code to the machine equipment controller; And a control method including controlling the corresponding hardware device by the transmitted hardware device control command code.

Herein, in the step of checking whether the compared and analyzed sensed data value is within a normal operating range, if the compared and analyzed sensed data value is within a normal operating range, transmitting and registering the sensed data to a remote server. Additionally included.

1 is a block diagram showing a system for controlling a mechanical device using a remote server of the present invention,

Figure 2 is a flow chart illustrating a method for controlling a mechanical device using a remote server according to the present invention.

<Code Description of Main Parts of Drawing>

10: detection sensor unit 20: detection data acquisition unit

30: detection data analysis unit 40: mechanical equipment control command code information DB

50: Periodic sensing data information DB60: Member information DB

70: form information DB80: remote server

90: mechanical equipment control unit 100: mechanical equipment unit

110: Internet network 120: user terminal

Hereinafter, with reference to the accompanying drawings, the configuration and operation of the embodiment of the present invention will be described in detail.

1 is a block diagram showing a system for controlling a mechanical device using a remote server of the present invention, Figure 2 is a flow chart showing a method for controlling a mechanical device using a remote server of the present invention.

As shown in Figure 1, the machine installation apparatus control system of the present invention is installed on the loading elements of the mechanical equipment is a variety of sensors to detect the temperature, vibration, current, pressure, humidity and the like in real time to generate the detection data The sensing sensor unit 10, the sensing data acquisition unit 20 for acquiring and outputting sensing data sensed by the sensing sensor unit 10, and operating environment such as temperature, vibration, current, pressure, humidity, etc. Set the normal operating range in which the affected mechanical equipments can operate normally, and receive the sensing data from the data acquisition unit 20 and compare and analyze the normal operating range of the set mechanical equipment to detect the normal detection data. If it does not deviate from the operating range, only the sensing data is output. If the compared and analyzed values are out of the normal operation range, the machine equipment control request signal is generated. Mechanical equipment for controlling the corresponding mechanical equipment included in the mechanical equipment unit 100 by receiving the detection data analysis unit 30 for outputting the mechanical equipment control request signal and the detection data together, and the mechanical equipment control command code When the device control unit 90 and the operator wants to check the sensed data detected in the operating environment of the mechanical equipment on-line, the member information DB 60 stores the authentication information including the ID and password of the worker used as the authentication means. And a form information DB 70 in which various web pages are stored so that an operator can perform online authentication and view detection data detected in the operating environment of the mechanical equipment, and the detected data detected in the operating environment of the mechanical equipment. Is out of the normal operating range, all the equipment is switched off or in normal operation. Mechanical equipment control command code information DB (40) storing the control command code of the system equipment, the cycle-specific detection data information DB (50) stored in real time the sensed data detected by the sensor 10, and Operating member information DB (60), form information DB (70), machine equipment control command code information DB (40), and detection data information DB (50) for each period to perform the authentication of the worker and to view the detection data requested by the worker. It is connected to the remote server 80 and the Internet network 110 for transmitting the webpage, the registration of the sensing data for each cycle, and the transmission of the control device code for controlling the device out of the normal operation range. It comprises a worker terminal 120 for reading the sensed data detected by.

The sensor 10 is provided with a temperature sensor, vibration sensor, current sensor, current sensor, pressure sensor, humidity sensor installed in the loading elements of the mechanical equipment affected by the operating environment. However, other sensors may be included or excluded depending on the operating environment of the mechanical equipment.

The normal operating range set by the sensed data analyzing unit 30 is set through a key input unit (not shown) provided in the sensed data analyzing unit 30.

For example, when the mechanical device 100 affected by the operating environment is composed of mechanical devices such as a fan, a shaft, a freezer motor, a freezer and a heater, the detection sensor detects vibration. Sensor, RPM detection sensor, temperature detection sensor, current detection sensor, etc. are required, the setting of the normal operating range of the mechanical equipment unit 100 composed of the mechanical equipment can be set as shown in Table 1.

Component fan Shaft Freezer Motor Freezer heater Installed sensor vibration RPM Temperature Temperature electric current electric current Normal operation range (Section A) 0 to 1 mm amplitude ± 5% F.S 30 ~ 40 ℃ - ± 5% of rated current - Normal operation range (B section) 0 to 0.5 mm amplitude ± 5% F.S 30 ~ 40 ℃ 50 ~ 60 ℃ - ± 5% of rated current

As shown in Table 1, the normal operating range of the vibration part, which is a range in which the fan equipped with the vibration sensor and the RPM sensor is normally operated in section A, is an amplitude between 0 and 1 mm, and if the vibration sensor is Detects that the fan is operated with an amplitude of 1 mm or more, the sensing data analyzer 30 receiving this sensing data compares and analyzes the normal operating range set in the vibration part of the fan set as shown in Table 1 to determine the abnormality. Determination of the symptoms, stop the operation of the fan in accordance with the abnormal symptoms, or the temperature control means (not shown), vibration control means (not shown), current control means installed in the vicinity of the mechanical equipment for troubleshooting (Not shown) to generate a machine equipment control request signal, which is a signal for requesting to operate the machine equipment with abnormal symptoms normally.

In addition, when the fan rotates at 10000 RPM in section A, the normal operating range of RPM (rpm) per minute, which is the normal operating range, is between 9500 and 10500 RPM, and the mechanical equipment is controlled even if it exceeds or falls short of it. Generate the request signal.

Similarly, the temperature of the normal operation range of the shaft and the refrigerator motor is also compared with the temperature sensing data among the sensing data input from the sensing sensor unit 10 to determine whether there is an abnormal symptom, Since the normal operating range of temperature is not subject to any restriction, the corresponding sensor is not detected, and if the products produced in the mechanical device 100 are various processes and have different normal operating ranges, the corresponding process is sectioned. It is possible to set various normal operation ranges by displaying separately.

In the member information DB 60, the personal information of the worker is stored together with the authentication information of the worker ID and password, and the information stored in the personal information includes company name, position, name, resident number, and contact number. Stored.

All web pages stored in the form information DB 70 are produced in a hypertext markup language (HTML) capable of hyperlinking so that a requested web page is output when a worker requests.

The mechanical device control command code stored in the mechanical device control command code information DB 40 is first extracted so that the control command code of the mechanical device corresponding to the mechanical device control request signal is extracted. When "# 1" is inserted into the head portion of the structure, the same symbol "# 1" is inserted into the head portion of the control instruction code structure of the machine equipment corresponding to the machine equipment control request signal. When the equipment control request signal is matched with the machine equipment control command code information DB 40, the control command code of the machine equipment is extracted.

Here, the signal between the sensor 10, the sensor data acquisition unit 20, the sensor data analysis unit 30, the mechanical equipment control unit 90, the mechanical equipment unit 100 and the remote server 80, or Transmission of data enables transmission of data to each other using a local area network (LAN).

In addition, the observer can observe the sensed data sensed at a remote location in real time, so that the operating environment conditions of the mechanical equipments are recognized in advance, and the presence or absence of the abnormal symptom is predicted before the abnormal symptom occurs. Further, even when the abnormal symptoms are observed from a remote location, it is possible to control the corresponding mechanical equipment in which the abnormal symptoms have occurred.

To this end, the worker drives the web browser provided in the worker terminal 120 capable of internet service, and then, to the remote server 80 that operates a website that provides the sensing data information for each cycle through the Internet network 110. When connected, the remote server 80 extracts a login window (web page) from the form information DB 70 so that the operator can perform the authentication means, to the web browser of the worker terminal 120 through the Internet network 110 send.

The login window sent to the web browser of the worker terminal 120 has a field for inputting the ID and password of the worker, enters the ID and password of the worker in accordance with the input form in the input box, and then the Internet network 110 When transmitting to the remote server 80 through the remote server, the remote server 80 matches the ID and password of the transmitted worker with the member information DB 60 and confirms that the member is a form information DB (70) and cycle detection data The information DB 50 extracts the sensed data view window and the sensed data measured in real time, and inserts the sensed data measured in real time into the sensed data view column of the extracted sensed data view window to connect the Internet network 110. By transmitting to the web browser of the worker terminal 120 through the worker, the worker reads the sensing data information output to the web browser of the worker terminal 120, the real-time at a remote location As it is possible to observe the operating environment of the hardware device

Alternatively, the detection data reading window is first transmitted to the web browser of the worker terminal 120, and the worker is separated by time zone of year / month / month / day on the detection data reading window output to the web browser of the worker terminal 120. After inputting the input column to read the measured data measured in real time, the input column according to the input form, and transmits the input information to the remote server 80 through the Internet network 110 , The remote server 80 matches the sensed data request information divided by the transmitted year / month / month / day and the sensed data information DB by period 50 (50) to extract the detection data information of the corresponding time zone that the worker wants to view Transmitted to a web browser of the worker terminal 120, the corresponding detection time data displayed on the predetermined area of the detection data reading window displayed on the web browser of the worker terminal 120 is displayed A time zone detection data reading column is provided, and the sensing data information of the corresponding time zone is transmitted to the detection data reading column by text, figure, number, or a combination thereof, thereby observing the operating environment of the mechanical equipment at a remote location in real time. can do.

In addition, when a worker accesses the remote server 80 using a worker terminal 120 at a remote location and observes detection data in real time, when the worker reads the detected data having an abnormal symptom, the worker terminal 120 has an abnormal symptom. In order to be able to control the corresponding mechanical equipment that has been generated, in the predetermined area of the detection data reading column of the detection data reading window displayed on the web browser of the worker terminal 120, the corresponding mechanical equipment having an abnormal symptom is turned off, or A mechanical equipment control command code call menu including a machine equipment control command code call signal for controlling operation is provided, and when an abnormal symptom occurs, the machine equipment control command code call menu is activated so that an operator can click it. Click on the call menu of the activated machine control command code When the control command code call signal is transmitted to the remote server 80, the remote server 80 matches the corresponding machine equipment control command code call signal and the machine equipment control command code information DB 40 to correspond to the corresponding machine equipment. After extracting the device control command code, by transmitting the extracted mechanical device control command code to the mechanical device control unit 90, it is possible to control the corresponding mechanical device in which an abnormal symptom is generated even in a remote place.

Here, the worker must be registered as a member in advance.

Further, referring to FIGS. 1 and 2, a method of controlling a mechanical device using a system for controlling a mechanical device sensitive to an operating environment by using a remote server of the present invention includes a temperature, vibration, current, Setting a normal operating range in which the mechanical equipments affected by the operating environment such as pressure and humidity are normally operated (S10), starting the mechanical equipment (S20), and operating the mechanical equipment Generating sensing data in real time in the sensing sensor unit installed in the loading element of (S30), Acquiring and outputting the generated sensing data in the sensing data acquisition unit (S40) and the output of the sensed data Step of comparing and analyzing with the normal operating range received from the sensed data analysis unit (S50), and whether the compared and analyzed sensed data value is within the normal operating range Checking (S60), and when the detected and analyzed sensed data value does not fall within the normal operating range, generating a mechanical device control request signal (S70), and generating the mechanical device control request signal; Transmitting the sensed data to the remote server (S80) and, among the information transmitted to the remote server, the sensed data is stored in a real-time sensing data information DB in real time, the machine equipment control command code information DB and machine equipment control Matching the request signal to extract the corresponding hardware equipment control command code, and transmitting the extracted hardware equipment control command code to the hardware equipment control unit (S90) and by the transmitted hardware equipment control command code, It comprises a step (S100) for controlling the corresponding mechanical equipment in real time.

In the step S60, when the compared and analyzed sense data value is a value that falls within the normal operating range, each of the individual installed on the loading element of the operating mechanical device in the step (S65) to transmit the detection data to the remote server in real time registration Return to step S30 to generate the detection data in the detection sensor unit.

The flowchart described in detail with reference to FIGS. 1 and 2 is as follows.

First, the sensing data analysis unit 30 is provided with a key input unit, and the normal operating range in which the mechanical equipments affected by the operating environment such as temperature, vibration, current, pressure, and humidity may be normally operated through the key input unit. Input the set value of (S10).

When the mechanical equipment is operated (S20) after inputting the normal operation range setting value, the respective detection sensors provided in the detection sensor unit 10 generate the detection data in real time (S30). Here, the sensor includes a temperature sensor, a vibration sensor, a current sensor, a current sensor, a pressure sensor, a humidity sensor, and the like, other detection sensors are further included or excluded depending on the operating environment of the mechanical equipment. Can be.

The sensing data generated by the sensing sensor unit 10 is acquired by the sensing data acquisition unit 20 and output to the sensing data analysis unit 30 (S40). The sensed data analysis unit 30 compares and analyzes the previously set normal operating range with the inputted sensed data (S50) to determine whether the machine equipment is an environment that can be operated correctly without being affected by the operating environment (S60). do.

In this case, when the value of the comparison and analysis is an operating environment in which the mechanical equipments can be operated correctly, the input sensing data is transmitted to the remote server 80, and the remote server 80 transmits the transmitted sensing data in real time. It is stored in the sensing data information DB 50 to register (S65), and if the operating environment in which the mechanical equipments can be operated correctly is maintained, steps S30 to S60 are repeated.

However, if there is a value of the sensed data that does not belong to the normal operation range among the compared and analyzed sensed data values, the sensed data analysis unit 30 generates the corresponding machine for which the value of the sensed data not included in the normal operation range is generated. Mechanical equipment control to control the machinery equipment with abnormal symptoms by turning off the equipment or operating temperature control means, vibration control means, current control means, etc. installed in the vicinity of the mechanical equipment. A request signal is generated (S70).

The sensing data analysis unit 30 transmits the generated mechanical equipment control request signal and the sensing data together to the remote server 80 (S80), and the remote server 80 detects the sensing data for each cycle from the transmitted information. Control to be stored in the information DB in real time, and the machine equipment control request signal is matched with the machine equipment control command code information DB 40 to extract the corresponding machine equipment control command code matching the machine equipment control request signal. Then, the extracted mechanical equipment control command code is transmitted to the mechanical equipment control unit 90 (S90).

The mechanical equipment control unit 90 turns off the corresponding mechanical equipment outside the normal operating range by the transmitted mechanical equipment control command code, or temperature control means and vibration control installed in the vicinity of the mechanical equipment for troubleshooting. By operating the means, current control means, etc. in real time to normal operation of the mechanical equipment having the abnormal symptoms (S100), even if the administrator resides in the hardware factory without having to observe the individual detection sensors, remote server ( 80), control is possible automatically.

As described above, the present invention obtains the data detected by the various detection sensors installed on the loading elements of the mechanical equipment affected by the operating environment to determine in real time the presence of abnormal signs, and in case of abnormal signs By automatically turning off the mechanical equipment by the server or controlling the mechanical equipment to operate normally, the administrator does not need to observe a large number of detection sensors installed on the loading elements of the mechanical equipment. After the abnormal symptom of the device is observed, it is possible to control the corresponding mechanical equipment in which the abnormal symptom is observed in near real time, and it has the effect of dramatically improving the malfunction of the operation and the safety of the mechanical equipment, and furthermore, the system of the present invention. In the case of a mechanical plant operating 24 hours a day, the effect is maximized.

Although the invention has been described in detail only with respect to the described embodiments, it will be apparent to those skilled in the art that modifications and variations can be made within the spirit and scope of the invention, and such modifications and variations will fall within the scope of the appended claims.

Claims (5)

In a system for controlling machinery that is affected by the operating environment including temperature, vibration, current, pressure and humidity, A detection sensor unit 10 installed on the loading elements of the mechanical equipments and having at least one detection sensor for generating detection data in real time; A detection data acquisition unit 20 for acquiring and outputting detection data sensed by the detection sensor unit 10 in real time; When the sensing data is input from the data acquisition unit 20 and compared with the normal operating range of the mechanical equipment, and the detected data does not deviate from the normal operating range, only the sensing data is output and the sensed data deviates from the normal operating range. In this case, the sensing data analysis unit 30 generates a mechanical equipment control request signal and outputs the generated sensing data or the mechanical equipment control request signal and the sensing data; A mechanical equipment control unit 90 which receives the mechanical equipment control command code and controls the corresponding mechanical equipment included in the mechanical equipment unit 100; And sensing data information DB 50 for each cycle in which sensing data sensed by the sensing sensor unit 10 is stored in real time; When the sensed data is out of the normal operation range, the machine equipment control command code information DB 40 in which the control command codes of all the machine equipments are stored so as to enable control of the corresponding machine equipment out of the normal operation range; Operating the mechanical equipment control command code information DB (40), the cycle-specific sensing data information DB (50) of the sensed data transmitted from the sensed data analysis unit 30, or the sensed data and the machine equipment control request signal And, the sensing data is stored in the period-specific sensing data information DB (50), the machine equipment control request signal matches the machine equipment control command code information DB (40), and matches the machine equipment control command code System equipment control system using a remote server, characterized in that it comprises a remote server 80 for extracting and transmitting to the mechanical equipment control unit (90). The method of claim 1, The normal operating range indicating the range in which the hardware devices affected by the operating environment including the temperature, vibration, current, pressure, and humidity of the sensed data analysis unit 30 can be normally operated before the mechanical devices are operated. Mechanical equipment control system using a remote server, characterized in that the setting value is input from the sensed data analysis unit (30). The method of claim 1, It is possible for the worker to read the sensed data detected on-line, and to store the authentication information including the ID and password of the worker to be used as an authentication means so that control is possible when abnormal symptoms are observed in the read sensed data. The remote server further includes a member information DB 60 and a form information DB 70 in which various web pages are stored so that an operator can perform authentication online and view detection data detected in an operating environment of mechanical equipment. Further comprising a worker terminal connected via 80 and the Internet network 110, If the worker wants to view the sensed data, after driving the web browser of the worker terminal 120 means for connecting to the remote server 80 through the Internet network 110, By the connection, the remote server 80 extracts a login window from the form information DB 70 and transmits the login window to the web browser of the worker terminal 120 through the Internet network 110; Input the ID and password of the worker in the login window sent to the web browser of the worker terminal 120 to transmit to the remote server 80 through the Internet network 110, the remote server 80 is the worker ID transmitted And means for performing authentication by matching the password with the member information DB 60; When it is confirmed that the membership is performed by the authentication, the detection data reading window and the detection data information for each period are extracted from the form information DB 70 and the period-specific detection data information DB 50, and the period is displayed in the extracted detection data reading window. Means for inserting the detection data information for each of the transmission and output to the web browser of the worker terminal 120 through the Internet network 110, A machine equipment control command code call menu including a machine equipment control command code call signal is included in a predetermined area of the sensed data information that has an abnormal symptom among the sense data information transmitted and displayed by the web browser of the worker terminal 120. Means for requesting control of the machine equipment control command code call signal by clicking the menu of the machine equipment control command code call and transmitting the call signal of the machine equipment control command code to the remote server 80; The remote server 80 matches the machine equipment control command code call signal transmitted and the machine equipment control command code information DB 40 to extract the machine equipment control command code, and extracts the extracted machine equipment. The machine equipment control system using a remote server, characterized in that by transmitting the control command code to the machine equipment control unit 90, it is possible to control the machine equipment with abnormal signs. In a method of controlling hardware devices that are affected by the operating environment, including temperature, vibration, current, pressure and humidity, In step S10, the sensing data analysis unit sets a normal operating range in which the mechanical devices affected by the operating environment such as temperature, vibration, current, pressure, and humidity can operate normally. Starting the mechanical device (S20); Generating sensing data in a sensing sensor unit installed in the loading element of the operating mechanical device (S30); Acquiring and outputting the generated sensed data by a sensed data acquisition unit (S40); Receiving the output sensed data from the sensed data analyzing unit and comparing and analyzing the normal operating range (S50); Checking whether the compared and analyzed sensed data value is a value within a normal driving range (S60); When the comparison and analysis of the sensed data value is a value that does not belong to the normal operating range, generating a mechanical equipment control request signal (S70), Transmitting the generated mechanical equipment control request signal and sensed data to a remote server (S80); Among the information transmitted to the remote server, the sensing data is stored in the sensing data information DB for each cycle, and the machine equipment control command code is extracted by matching the machine equipment control command code information DB and the machine equipment control request signal. Transmitting the extracted mechanical equipment control command code to a mechanical equipment controller (S90); And controlling the hardware device by the transmitted hardware device control command code (S100). The method of claim 4, wherein In step S60 of checking whether the compared and analyzed sensed data value is within a normal operating range, if the compared and analyzed sensed data value is within a normal operating range, transmitting and registering the sensed data to a remote server ( S65) method for controlling a hardware device using a remote server, characterized in that it further comprises.