KR20100009348A - Smart laboratory monitoring system - Google Patents

Abstract

PURPOSE: A smart laboratory monitoring system is provided to perform safe and the efficient laboratory administration by monitoring temperature, the humidity, and the gas leak in real time. CONSTITUTION: The data acquisition device(8) changes analog data which the temperature & humidity sensor, and the pressure sensor and water leakage sensor to digital data. The commonly used equipment PC(12) grasps the operational status of the permitted' equipment. The data PC(20) determines whether a malfunction is generated of the object by data received from the electronic noise. The main monitoring PC(22) indicates apparatus for acquiring data, and the common equipment PC and data transmitted from data PC in real time.

Description

Smart Laboratory Monitoring System

The present invention relates to a smart laboratory monitoring system, in particular to monitor the situation in the laboratory, such as temperature, humidity, gas leakage and leakage in real time to send to the laboratory personnel in the event of an abnormality in the laboratory in real time, the laboratory personnel in the laboratory safety It's about a smart laboratory monitoring system that can reduce the effort on the environment.

In the laboratory, various utilities are used under various circumstances. Typical environments include laboratory temperature, humidity, noise, vibration, and smell. Typical utilities include gas, electricity, and water.

At this time, temperature and humidity are factors influencing the uncertainty of the measurements made in the laboratory, and the ISO 17025 regulation, which describes the general requirements for qualification of testing and calibration laboratories, states that the measurements should be recorded.

In addition, environments such as temperature, humidity, noise, vibration, and smell are factors that directly affect the development or health of various animals and plants used in the laboratory, and expensive experimental animals and plants may die if they are not observed and controlled. Many time and economic losses may occur. Such environmental conditions are more difficult to observe at night when it is difficult for a person to be active.

In addition, utilities such as gas are often installed by supplying a gas tank at a certain place, but if the remaining amount is not well checked, the gas may fall off during the experiment and retest or the apparatus may be damaged. In addition, the gas often leaks, causing a drastic reduction in residual volume or a dangerous situation for the experimenter.

Accordingly, in the related art, a system for recording a temperature, humidity, gas, etc. using a recording paper in a recorder type device is conventionally used, or a display device for displaying a current temperature, humidity, etc. state is used to collect recording papers or present values. There is a problem that a person must record one by one. At this time, the noise, vibration, smell, etc. are measured using a separate device.

In addition, a utility such as a gas is attached to a pressure regulating regulator to know the remaining amount of gas, but when the gas tank is located at a distance or not easily accessible, there is a problem that the remaining amount is not easy to check.

Accordingly, an object of the present invention is to provide a smart laboratory monitoring system capable of real-time monitoring the situation in the laboratory, such as temperature, humidity, gas leakage and leakage, and when the abnormality occurs in the laboratory to the laboratory personnel in real time.

In addition, an object of the present invention is to provide a smart laboratory monitoring system capable of observing the operating status of the common equipment in the laboratory from a remote location, and in real time monitoring the remaining amount of the gas storage tank in the remote.

In addition, an object of the present invention is to provide a smart laboratory monitoring system that can reduce the labor involved in laboratory safety environment in the laboratory.

In order to achieve the above object, the smart laboratory monitoring system according to an embodiment of the present invention comprises a temperature and humidity sensor for measuring the temperature and humidity in the laboratory; A pressure sensor detecting a pressure of a gas storage tank in which a gas to be used in the laboratory is stored; A leak sensor installed at a location where there is a risk of leakage in the laboratory to detect a leak in the laboratory; A data acquisition device which receives analog data from the temperature and humidity sensor, a pressure sensor, and a leak sensor, converts the analog data into digital data to determine whether there is an abnormality in temperature, humidity, pressure, and leakage in the laboratory; A common equipment PC for grasping the operation status of the equipment freely used among the equipment in the laboratory; An electronic nose for detecting odor levels in the laboratory; A noise vibration sensor for detecting noise or vibration in the laboratory; A CCD camera for identifying a state of a shape or the like existing in the laboratory through pattern recognition; Whether the abnormal smell occurs due to leakage or fire of chemicals in the laboratory by receiving data on the smell level in the laboratory from the electronic nose, and receiving the noise and vibration data from the noise vibration sensor, whether the equipment is abnormal A data PC for determining whether an object is abnormal by receiving pattern recognition data from the CCD camera; And storing the data transmitted and received in real time from the data acquiring device, the common equipment PC and the data PC, and displaying on the screen and checking whether there is an abnormality in the laboratory through the modem of any one of CDMA, WCDMA, and GSM. And a main monitoring PC for transmitting to the portable terminal.

In the smart laboratory monitoring system according to an embodiment of the present invention, the pressure sensor detects a gas leak by measuring a gas pressure difference in a gas storage tank when the equipment is not used for a certain time.

In the smart laboratory monitoring system according to an embodiment of the present invention, the main monitoring PC automatically generates a report according to the situation in the laboratory using data transmitted in real time from the data acquisition device, the common equipment PC, and the data PC. Send via e-mail to the official.

Smart laboratory monitoring system according to an embodiment of the present invention receives the same screen as the main monitoring PC via the Internet to display the current status in the laboratory, the operation state of the equipment installed in the laboratory when the abnormality of the equipment installed in the laboratory Characterized in that it further comprises a remote main monitoring PC to control.

Smart laboratory monitoring system according to an embodiment of the present invention is characterized in that it further comprises a buzzer that is installed in the data acquisition device to sound an alarm when any one of the temperature, humidity, pressure and leakage occurs.

According to the present invention, when an abnormality such as temperature, humidity, gas leakage, common equipment is normal, leakage or fire of chemicals, changes in the state of an object in a laboratory, abnormal noise or vibration in a laboratory, and the like, the situation within the laboratory is related to laboratory personnel. Because it is transmitted to the mobile terminal in real time, it can quickly cope with.

In addition, since the present invention receives the situation in the laboratory in real time through the mobile terminal, it is possible to observe the operating status of the common equipment from a remote location, it is easy to check the remaining amount of the gas storage tank remotely located within the laboratory, and the Internet is connected. Wherever you are, you can monitor the safety of your laboratory from anywhere on the planet.

In addition, since the present invention can directly input into the system while moving the situation in the laboratory, there is no need for a separate ledger. In addition to drastically reducing the effort required, safe and efficient laboratory management can be achieved.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a smart laboratory monitoring system according to an embodiment of the present invention.

1, the smart laboratory monitoring system according to an embodiment of the present invention is a temperature and humidity sensor (2) for measuring the temperature and humidity in the laboratory, a pressure sensor for measuring the pressure of the gas storage tank for storing the gas to be used in the laboratory ( 4) Analog data is supplied from the leak sensor 6, the temperature and humidity sensor 2, the pressure sensor 4, and the leak sensor 6, which are installed in a laboratory where there is a risk of leakage and detect leaks in the lab. Data acquisition device 8 to determine whether there is an abnormality of temperature, humidity, pressure and leakage in the laboratory by converting the data into digital form, and common equipment for grasping the operation status of the equipment freely used among the equipment in the laboratory. PC (Personal Computer) 12, electronic nose 14 for detecting odor level in the laboratory, noise vibration sensor 16 for detecting noise or vibration in the laboratory, pattern recognition Abnormal odor due to leakage or fire of chemicals in the laboratory by receiving data on the odor level in the laboratory from the CCD camera 18 and the electronic nose 14 for identifying the state of the object, etc. existing in the laboratory Data PC for determining whether or not the abnormality of the equipment by receiving the noise and vibration data supplied from the noise and vibration sensor 16, and receiving the pattern recognition data from the CCD camera 18 ( 20), the data acquisition device 8, the common equipment PC 12 and the data PC 20 receives the data in real time and the main monitoring PC 22 for storing the data transmitted and displayed on the screen.

In addition, the smart laboratory monitoring system according to an embodiment of the present invention receives the same screen as the main monitoring PC 22 via the Internet to indicate the current state in the laboratory, the operation state of the equipment installed in the laboratory when the abnormality of the equipment installed in the laboratory The remote main monitoring PC (26) for controlling the, and further comprises a portable terminal 24 that receives the presence or absence of abnormalities in the laboratory from the main monitoring PC 22 via a modem such as CDMA, WCDMA, GSM.

The temperature and humidity sensor 2 measures the temperature and humidity in the laboratory and supplies it to the data acquisition device 8.

The temperature and humidity sensor 2 outputs a current in proportion to the measured temperature and humidity, and then supplies the output current to the data acquisition device 8, and the data acquisition device 8 is supplied from the temperature and humidity sensor 2. Convert current to digital data

The pressure sensor 4 is a device for measuring the pressure of the gas storage tank that stores the gas to be used in the laboratory. The pressure sensor 4 measures the pressure of the gas storage tank, displays the current amount of gas remaining in the gas storage tank, and uses the equipment for a certain time. If not, measure the gas pressure differential to detect gas leaks.

The pressure sensor 4 outputs a current in proportion to the gas pressure, at which time the output current is supplied to the data acquisition device 8. Accordingly, the data acquisition device 8 converts the current supplied from the pressure sensor 4 into digital data.

The leak sensor 6 is installed where there is a risk of leakage in the laboratory to detect leaks in the laboratory.

The leak sensor 6 detects the occurrence of a leak by changing a property such as resistance when water leaks and the water contacts the sensor.

The data acquisition device 8 converts the analog data supplied from the temperature and humidity sensor 2 and the pressure sensor 4 and the analog data supplied from the leak sensor 6 into digital data and transmits the digital data to the main monitoring PC 22 via Ethernet. And, using the converted digital data to determine the abnormality of the temperature, humidity, pressure and leakage in the laboratory.

Such a data acquisition device 8 sounds an alarm through the buzzer 10 when a problem occurs in any one or more of temperature, humidity, pressure and leakage in the laboratory.

That is, the buzzer 10 is installed in the data acquisition device 8 and alarms according to a signal supplied from the data acquisition device 8 when a problem occurs in any one or more of temperature, humidity, pressure and leakage in the laboratory. .

The common equipment PC 12 is installed in the equipment freely used among the equipment in the laboratory, and detects the operation status of the freely permitted equipment, and operates the equipment freely permitted to be used for the main monitoring PC 22 through Ethernet. Send the status.

The electronic nose 14 detects and transmits the odor level in the laboratory to the data PC 20.

The noise vibration sensor 16 detects abnormal noises or vibrations generated in the laboratory, and in particular, detects abnormal noises or vibrations of the equipment operated in the laboratory and transmits the abnormal noises or vibrations to the data PC 20.

The CCD camera 18 photographs an object existing in the laboratory, a shape inside the laboratory, and transmits the data to the data PC 20 through pattern recognition.

The data PC 20 converts analog data according to the odor level in the laboratory supplied from the electronic nose 14 into digital data and determines whether leakage of chemicals or abnormal odor is generated in the laboratory using the converted digital data.

In addition, the data PC 20 converts analog data according to noise and vibration from the noise vibration sensor 16 into digital data and determines whether there is an abnormality of equipment installed in the laboratory by using the converted digital data.

In addition, the data PC 20 converts the analogue-captured image data supplied from the CCD camera 18 into digital data and determines whether there are abnormalities in the equipment and the laboratory installed in the laboratory through a predetermined algorithm.

The data PC 20 transmits to the main monitoring PC 22 whether the abnormal odor in the laboratory, abnormality of the equipment in the laboratory and abnormality in the laboratory are generated through the Internet via Ethernet.

The main monitoring PC 22 receives the abnormality in the laboratory in real time from the data acquisition device 8, the common equipment PC 12, and the data PC 20 over the Internet, and stores the transmitted data. The data is transmitted to a portable terminal 24 of a person involved in the laboratory, such as a user who uses the laboratory or an administrator who manages and supervises the laboratory, via a modem such as CDMA, WCDMA, or GSM.

The main monitoring PC 22 transmits the situation of the laboratory to the portable terminal 24 of the laboratory personnel regardless of whether or not an abnormality occurs in the laboratory or to the portable terminal 24 of the laboratory official only when an abnormality occurs in the laboratory. Send the lab situation.

In addition, the main monitoring PC 22 generates the report automatically or manually at a predetermined time interval and transmits the collected data to an e-mail of a laboratory official.

In this case, the report preparation means that the main monitoring PC 22 displays data transmitted from the data acquisition device 8, the common equipment PC 12, and the data PC 20 on the main monitoring PC 22. It means to classify.

In addition, a method of manually generating a report is that any one of the laboratory personnel presses the Report button displayed on the main monitoring PC 22 at a predetermined time to create a report, and then another laboratory staff and his mobile terminal 24 are provided. That means the lab situation sent by email.

Detailed description thereof will be described later.

As such, the main monitoring PC 22 is movable, and the laboratory personnel move a plurality of laboratories and input laboratory conditions such as daily check results for the lab through the screen of the main monitoring PC 22.

The remote main monitoring PC 26 is connected to the main monitoring PC 22 via the Internet, receives the same screen as the main monitoring PC 22 via the Internet, displays the current status in the laboratory, and generates abnormalities in the equipment installed in the laboratory. Control the operation of the equipment installed in the laboratory.

The remote main monitoring PC 26 controls the common equipment PC 12 so that the common equipment abnormally operated through the Internet is normally operated.

The portable terminal 24 is connected to the main monitoring PC 22 via a network such as CDMA, WCDMA, GSM, etc. and receives the presence or absence of abnormalities in the laboratory from the main monitoring PC 22.

The portable terminal 24 is carried by a laboratory official.

FIG. 2 is a diagram showing the situation of each laboratory displayed on the main monitoring PC of the smart laboratory monitoring system shown in FIG. 1, FIG. 3 is a setting screen which appears when the setup button shown in FIG. 2 is selected, and FIG. 4 is FIG. 2. 4 is a diagram illustrating a screen displayed when the daily check button shown in FIG.

2 to 4, the main monitoring PC 22 of the laboratory monitoring system according to an exemplary embodiment of the present invention displays abnormalities of each laboratory, temperature and humidity, gas remaining amount, gas leakage, and the like.

That is, the main monitoring PC 22 displays a lamp 40 indicating whether the laboratory is in a normal state according to the data supplied from the data acquisition device 8, the common equipment PC 12, and the data PC 20. .

At this time, when each laboratory is normal, the main monitoring PC 22 is turned on the green lamp, if abnormal, that is, the laboratory is abnormal, the red lamp is turned on.

Accordingly, the lamp 40 at the top of the screen displayed on the main monitoring PC 22 can immediately determine whether or not each laboratory abnormality and the location of the laboratory where the abnormality occurred.

In addition, the main monitoring PC 22 is a temperature and humidity display unit 42 for displaying the temperature and humidity in accordance with the data supplied from the temperature and humidity sensor 2 installed in each laboratory is displayed under the lamp 40.

Accordingly, it is possible to check the temperature and humidity of each laboratory through the main monitoring PC (22).

The tab button 44 at the bottom of the temperature and humidity display unit 42 and the selection switch 46 at the bottom right of the screen of the main monitoring PC 22 are used to select a graph showing the trend of temperature and humidity of each laboratory. In many cases, since it is difficult to display the temperature and humidity of all the laboratories at once, the laboratories can select the laboratories one by one through the tab button 44 and the selector switch 46, so as to grasp the trend of the temperature and humidity of the respective laboratories.

When the temperature and humidity of each laboratory are displayed using the tab button 44 and the selection switch 46, the upper end of the graph (Current01 in the drawing) shows the temperature and the lower end of the humidity displayed on the temperature and humidity display unit 42. The display position of temperature and humidity can be changed.

The history graph, which is another graph of the temperature and humidity display unit 42, displays all the data of temperature and humidity measured in the laboratory at once.

A gas residual amount bar graph 48 indicating a gas remaining amount in the gas storage tank supplied from the pressure sensor 4 is displayed at the lower end of the temperature and humidity display part 42, and a current gas remaining amount and a predetermined time are displayed at the lower part of the gas remaining amount bar graph 48. A numeric display section 50 is displayed which shows the amount of gas reduction in the interval numerically.

The temperature and humidity display unit 42, the gas remaining amount bar graph 48, and the numeric display unit 50 may include the temperature and humidity and gas of the laboratory when the laboratory is selected according to the selection of the tab button 44 and the selection switch 46. The remaining amount is displayed at the same time.

On the right side of the temperature / humidity display unit 44, an analyzer status lamp 52 indicating the abnormality of the equipments used in common according to the data transmitted from the common equipment PC 12 is displayed.

Such, the analyzer status lamp 52, the green lamp is turned on when the common equipment is normally operated like the lamp 40, the red lamp is turned on when the common equipment is abnormally operated.

At the bottom of the numeric display unit 50, a setup button 54 for controlling the operation of the smart laboratory monitoring system, an alarm ACK button 56 for informing that a laboratory official recognized when an alarm is issued, and a safety environment officer move each laboratory. While checking the laboratory, a daily check button 58 for inputting a laboratory abnormality and a report button 60 for manually generating a report on the status of each laboratory are displayed.

Among the plurality of buttons, the setup button 54 is for controlling the operation of the laboratory monitoring system. When the button is pressed, a setting screen as shown in FIG. 3 is displayed.

Accordingly, the laboratory personnel can change the laboratory manager through the setting screen, measure the time such as temperature, humidity, water leakage, pressure, operating state of the common equipment, alarm range of temperature and humidity, how to write a report, whether to send a report, and a buzzer (10 ) ON / OFF status can be set.

The alarm ACK button 56 informs the smart laboratory monitoring system that the laboratory official has been recognized when an alarm is issued. Even if the alarm situation is cleared, the alarm state continues and the buzzer 10 continues to ring if the button is not pressed.

Accordingly, the alarm ACK button 56 must be pressed to release the alarm.

The daily check button 58 is for the safety environment officer to move each laboratory to fill in the presence or absence of abnormalities in each laboratory. When this button is pressed, the daily check screen shown in FIG. 4 is displayed on the main monitoring PC 22.

Accordingly, the person in charge of safety and environment (in addition to the person in charge of a laboratory who is not a separate person in charge of safety environment) clicks or fills in the matters requiring action in each laboratory, and the input daily inspection results are summarized as weekly results and appear in the report. .

Report button 60 is a button for each laboratory to manually report the monitoring results to the laboratory personnel. When this button is pressed, a report on the current status of each laboratory is generated and emailed to laboratory personnel.

As such, the smart laboratory monitoring system according to an embodiment of the present invention includes temperature, humidity, gas leakage, whether or not common equipment is normal, leakage or fire of chemicals, changes in the state of objects in a laboratory, abnormal noise or vibration in a laboratory, and the like. In the event of an abnormality, the situation in the laboratory is transmitted to the portable terminal 24 of the laboratory person in real time, thereby enabling a quick response.

In addition, since the smart laboratory monitoring system according to an embodiment of the present invention receives the situation in the laboratory in real time through the mobile terminal 24, it is possible to observe the operation status of the common equipment from a remote location, and to exist remotely within the laboratory. The remaining capacity of the gas storage tank is easy to check, and the safety of the laboratory can be monitored from anywhere on the globe where the Internet is connected.

In addition, since the smart laboratory monitoring system according to the embodiment of the present invention can directly input into the system while moving the situation in the laboratory, no separate book is required, and the situation in the laboratory is automatically generated as a report and sent to the e-mail of a laboratory official. This significantly reduces the effort of laboratory personnel in the lab's safety environment, and enables safe and efficient laboratory management.

1 is a view showing a smart laboratory monitoring system according to an embodiment of the present invention.

FIG. 2 is a diagram showing the situation of each laboratory displayed on the main monitoring PC of the smart laboratory monitoring system shown in FIG. 1.

FIG. 3 is a setting screen shown when the setup button shown in FIG. 2 is selected.

4 is a diagram illustrating a screen displayed when the daily check button shown in FIG. 2 is selected.

<Brief description of symbols for the main parts of the drawings>

2: temperature and humidity sensor 4: pressure sensor

6: leak sensor 8: data acquisition device

10: buzzer 12: common equipment PC

14 electronic nose 16 noise vibration sensor

18: CCD camera 20: data PC

22: main monitoring PC 24: mobile terminal

26: remote main monitoring PC 40: lamp

42: temperature and humidity display unit 44: tab button

46: selection switch 48: gas level bar graph

50: numeric display 52: analyzer status lamp

54: Setup Button 56: Alarm ACK Button

58: daily check button 60: report button

Claims (5)

A temperature and humidity sensor for measuring temperature and humidity in a laboratory; A pressure sensor detecting a pressure of a gas storage tank in which a gas to be used in the laboratory is stored; A leak sensor installed at a location where there is a risk of leakage in the laboratory to detect a leak in the laboratory; A data acquisition device which receives analog data from the temperature and humidity sensor, a pressure sensor, and a leak sensor, converts the analog data into digital data to determine whether there is an abnormality in temperature, humidity, pressure, and leakage in the laboratory; A common equipment PC for grasping the operation status of the equipment freely used among the equipment in the laboratory; An electronic nose for detecting odor levels in the laboratory; A noise vibration sensor for detecting noise or vibration in the laboratory; A CCD camera for identifying a state of a shape or the like existing in the laboratory through pattern recognition; Whether the abnormal smell occurs due to leakage or fire of chemicals in the laboratory by receiving data on the smell level in the laboratory from the electronic nose, and receiving the noise and vibration data from the noise vibration sensor, whether the equipment is abnormal A data PC for determining whether an object is abnormal by receiving pattern recognition data from the CCD camera; And It stores data transmitted and received in real time from the data acquisition device, the common equipment PC and the data PC, and displays it on the screen, and carries the presence of abnormality in the laboratory through the modem of any one of CDMA, WCDMA, and GSM. Smart laboratory monitoring system comprising a main monitoring PC for transmitting to the terminal. The method of claim 1, The pressure sensor is a smart laboratory monitoring system, characterized in that for detecting a leak of gas by measuring the gas pressure difference of the gas storage tank when the equipment is not used for a certain time. The method of claim 1, The main monitoring PC uses a data transmitted in real time from the data acquisition device, the common equipment PC and the data PC to automatically generate a report according to the situation in the laboratory and send it to the e-mail of the lab official. Monitoring system. The method of claim 1, Receiving the same screen as the main monitoring PC via the Internet to display the current status in the laboratory, and further comprises a remote main monitoring PC for controlling the operation of the equipment installed in the laboratory when the abnormality of the equipment installed in the laboratory Featured smart laboratory monitoring system. The method of claim 4, wherein Smart laboratory monitoring system further comprises a buzzer that is installed in the data acquisition device and sounds an alarm when an abnormality occurs in any one of temperature, humidity, pressure and leakage.

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