KR102352419B1 - Triple safety intelligent smart pan for analyzing data of work activity - Google Patents

Abstract

The present invention relates to a ventilation fan. More specifically, the present invention relates to triple safety intelligent smart fan for analyzing data of work activity, which is able to install a sensor, Bluetooth wireless module, and Wi-Fi wireless module in a control box made in an integrated shape or a separable shape, detect the oxygen volume, gas volume, temperature, and humidity included in the air discharged from a sealed work district by the sensor, wirelessly connect the Bluetooth wireless module, a wearable device worn by a worker, and a smartphone of a site manager, wirelessly connect the Wi-Fi wireless module to a portable camera recorder, which photographs an image of the sealed work district and detects a motion of the worker, check the pollution degree detected by the sensor in the control box and the physical information and motion of the worker in three steps, control the motions of a wind discharge machine, ventilate the sealed work district, and provide information to the wearable device and the smartphone of the site safety manager.

Description

TRIPLE SAFETY INTELLIGENT SMART PAN FOR ANALYZING DATA OF WORK ACTIVITY

The present invention relates to a ventilation fan, and more particularly, a detection sensor, a Bluetooth wireless module, and a Wi-Fi wireless module are installed in a control box manufactured as an integral or separate type, and the amount of oxygen contained in the air discharged from the sealed work area by the detection sensor A portable device that detects the amount of gas, temperature and humidity, wirelessly connects the Bluetooth wireless module with the wearable device worn by the worker and the site manager’s smartphone, and detects the motion of the worker by taking an image in the enclosed work area with the Wi-Fi wireless module By wirelessly connecting the camcorder, the control box checks the pollution level detected by the detection sensor and the worker's body information and motion in three steps to control the operation of the exhaust fan to ventilate the enclosed work area, and to use the wearable device and the smart phone of the site safety manager. It is about a triple safety intelligent smart fan with a work activity data analysis function to provide information.

When work is carried out in a confined space such as a manhole, it is necessary to ventilate for a certain period of time regardless of the size or type of the work area and to measure the gas state in the work area with a hazardous gas detector. In particular, in order to measure the state of gas in a closed work area, a worker wearing an air respirator measures the gas, and at this time, a supervisor who watches the condition of the worker is placed outside so that the worker can be rescued immediately in an emergency, etc. action should be taken.

If water, etc. is stagnant or foreign substances are deposited in the work area other than gas, the oxygen concentration may be greatly reduced and the concentration of harmful gases may increase due to the growth and decay of the fungus.

As such, in order to perform work in a work area such as a manhole, a ventilation device such as a ventilation fan and a noxious gas detector capable of detecting noxious gas in the work area are required.

In order to meet these needs, the present applicant has developed and published a ventilation fan device, which is Korean Patent Publication No. 10-0511939.

The ventilation fan device is for ventilating by identifying the pollution level of the air inside the work area from the outside of the work area in advance in the process of ventilating the internal air using the ventilation fan device for a closed work area such as a manhole. It is configured to include a sensing unit composed of a plurality of sensors capable of detecting the degree of contamination of the passing air, and includes a control unit connected to the sensing unit to calculate a predetermined output value by combining and calculating the sensing result, and the calculated value is The level of contamination inside the work area is transmitted to the operator by outputting by the output means (eg, number display unit, indicator light display unit, speaker, etc.) of the console formed by being exposed to the surface of the body, and by calculating this output value, it informs the air condition inside Alternatively, a ventilation fan device having a structure that can ventilate the inside of the work area by automatically or manually changing the rotation direction of the ventilation fan is provided, thereby improving worker safety and work efficiency.

However, such a conventional ventilation fan device is integrally formed with the ventilation fan, so it is necessary to manufacture a mold, etc., and since the ventilation fan has to be manufactured directly, the manufacturing cost is increased, and the needing institution is reluctant to purchase it due to the high price, especially workers There is a problem in that safety cannot be guaranteed because the status of the device cannot be checked in real time.

In addition to the ventilation fan device, ventilation-related technologies have been published in Korean Patent Application Laid-Open No. 10-2009-0005433, Korean Patent Publication No. 10-1756868, and Korean Patent Application Laid-Open No. 10-2019-0142529.

However, these prior arts have a structure in which external air is forcibly introduced to the inside by installing a blower at the inlet of the manhole.

However, since most of these prior technologies simply discharge only external air to the inside, it is impossible to check the condition of the operator in real time, and the data transmission means are not configured in a complex manner, so safety cannot be guaranteed if an abnormality occurs in the equipment. There is this.

Republic of Korea Patent Publication No. 10-0511939 Republic of Korea Patent Publication No. 10-2009-0005433 Republic of Korea Patent Publication No. 10-1756868 Republic of Korea Patent Publication No. 10-2019-0142529

The present invention is to solve the above problems, a detection sensor, a Bluetooth wireless module and a Wi-Fi wireless module are installed in a control box, and the amount of oxygen, gas, temperature and It detects humidity, wirelessly connects the Bluetooth wireless module with the wearable device worn by the worker and the site manager's smartphone, and wirelessly connects the Wi-Fi wireless module and a portable camcorder that detects the operator's motion by shooting an image in the enclosed work area. In the control box, the operation of ventilating the enclosed work area by controlling the operation of the exhaust fan by checking the level of pollution detected by the detection sensor and the worker's body information and motion in three steps, and providing information through wearable devices and the smart phone of the site manager The purpose is to provide a triple safety intelligent smart fan with an activity data analysis function.

In addition, the present invention can keep the air inside the closed work area fresh by automatically changing the rotation direction of the ventilation fan according to the internal air condition in the integrated or separate control box, and the movement of the operator through motion detection for a certain period of time If there is not, another purpose is to provide a triple safety intelligent smart fan with a work activity data analysis function that can promote the safety of workers by notifying the danger with strong exhaust wind and internal and external warning sounds.

In addition, the present invention combines a filter case with a built-in cylindrical air filter on the air supply side of the exhaust fan to improve a work environment prone to contamination by dust, and installs a check cover on the front of the filter case to close the check cover when supplying air. air flows into the air filter through the side of the filter case so that the filtered air flows into the closed work area, and the check cover automatically opens by the exhaust pressure when exhausting, allowing the air in the closed work area to be smoothly discharged At the same time, another purpose is to provide a triple safety intelligent smart fan with a work activity data analysis function that can remove contaminants adsorbed on the air filter by artificially closing the check cover as needed.

In addition, the present invention lowers the manufacturing cost by manufacturing a detachable control box so that a commercially available general-purpose exhaust fan can be detached from the control box, and has a convenient function that can use vehicle power by installing a converter in the control box to increase work efficiency. It is another object to provide a triple safety intelligent smart fan with a work activity data analysis function that can be increased.

In addition, the present invention installs the air intake unit in the exhaust fan, and connects the air intake unit and the detection sensor of the control box with a hose so that when the exhaust fan is exhausted, some air is introduced from the air intake unit to the detection sensor so that accurate measurement is performed. Another object is to provide a triple safety intelligent smart fan with work activity data analysis function to increase detection efficiency by doing so.

Features of the present invention for achieving the above object,

an exhaust fan in which a filter case having a built-in air filter is coupled to the air supply side and a flexible duct is coupled to the exhaust side; a wearable device worn by a user to measure body physiology information; A portable camcorder that captures and stores an image in an enclosed work area and detects the motion of the operator; and a detection sensor for measuring the pollution level of the enclosed work area, a first short-range wireless communication module, and a second short-range wireless communication module and controller independently operated in a communication method different from the first short-range wireless communication module, the first In a state in which a wearable device and a smart phone of the site manager are wirelessly connected through a short-range wireless communication module, and wirelessly connected to a portable camcorder through the second short-distance wireless communication module, the controller uses a detection signal sensed by the detection sensor in a closed work area By measuring the degree of pollution in the interior, the air supply and exhaust of the exhaust fan are controlled according to the degree of pollution, and the pollution level information is provided to the wearable device and the smart phone of the site manager through the first short-range wireless communication module, and through the first short-distance wireless communication module and a control box integrally or separate from the exhaust fan so as to independently receive the operator's body physiology information and the motion information through the second short-range wireless communication module to monitor the operator's condition in real time.

Here, both sides of the filter case of the exhaust fan are open, supply and exhaust holes are formed on the side surfaces, and the check cover is hinged on the front side so that the check cover is closed when supplying air, and the air is passed through the supply and exhaust hole of the filter case. Air is introduced into the filter so that the filtered air flows into the closed work area, and when exhausted, the check cover is automatically opened by the exhaust pressure to allow the air in the closed work area to be smoothly discharged and, if necessary, the check The cover is artificially closed to remove contaminants adsorbed on the air filter.

Here, the exhaust fan is provided with a detachable means to be detachable from the control box, and an air inlet is installed on one side to connect the air inlet and a detection sensor of the control box with a hose to supply and exhaust some air to the air inlet. The gas is introduced into the detection sensor through the detection sensor to detect the gas.

Here, the air intake unit has a space formed therein, an exhaust port is provided in the lower part, and first and second inlets are provided on both sides, so that the first inlet is located on the air supply side of the exhaust fan, and the exhaust side of the exhaust fan a body in which the second inlet is located; The upper end is fixed so as to be opened and closed inside the first inlet of the main body with an elastic material, and the first inlet is opened while being spaced apart from the first inlet by the supply pressure when supplying air, and the first inlet and the first inlet by the exhaust pressure when exhausting a first shielding plate for closing the first inlet while in close contact; And the upper end is fixed to open and close inside the second inlet of the main body with an elastic material, and rotated by the exhaust pressure during exhaust to open the second inlet while being spaced apart from the second inlet, and by the supply pressure when supplying air. It is composed of a second shielding plate that closes the second inlet and closes the second inlet.

Here, the wearable device provides physiological information including the heart rate and blood oxygen concentration of the operator to the controller of the control box through the first short-range wireless communication module, which is a Bluetooth module.

Here, the portable camcorder detects the motion of the operator during shooting, and when the motion is detected, provides an event signal to the controller of the control box through the second short-range wireless communication module, which is a Wi-Fi module.

Here, the controller of the control box determines that the event signal generated by the portable camcorder is not received for a predetermined period of time as an emergency.

Here, the separate control box includes a DC-AC converter for converting DC power into AC power; Cigar jack for receiving DC power from the car; and a console panel configured to display an oxygen amount, a gas amount, temperature and humidity, and a switch.

Here, when the first power is supplied, the controller of the control box exhausts the exhaust fan to the maximum for a certain period of time and then stops it to initialize the detection sensor, and adjusts the detection sensor to zero by supplying air to the exhaust fan for a certain period of time. After the detection is stopped by the detection sensor while exhausting the exhaust fan for a certain period of time in a state where the initialization of the detection sensor is completed, if the pollution level is higher than the reference value, the exhaust fan is maximally exhausted for a certain period of time and then the pollution level is reanalyzed, , If the pollution level is less than the reference value, after supplying air for a certain period of time with the exhaust fan, when the supply air is completed, the exhaust fan is exhausted for a certain time while the detection sensor detects the pollution level and repeatedly checks the pollution level in the middle, and during air supply, the worker's body physiology information and motion When the information is collected and the body physiology information of the worker is less than the reference value, the exhaust fan and a warning sound are generated, and in an emergency situation when the operator's motion information is not present for a certain period of time, the maximum exhaust of the exhaust fan and the warning sound are generated at the same time as the first short distance Transmits an emergency situation to the site manager's smartphone through the wireless communication module.

According to the present inventor's triple safety intelligent smart fan with work activity data analysis function configured as described above, a detection sensor, a Bluetooth wireless module and a Wi-Fi wireless module are installed in the control box, and the detection sensor is in the air discharged from the enclosed work area It detects the amount of oxygen, gas, temperature and humidity contained, wirelessly connects the Bluetooth wireless module with the wearable device worn by the worker and the site manager’s smartphone, and captures the video in the enclosed work area with the Wi-Fi wireless module to control the operator’s motion. By wirelessly connecting a portable camcorder that detects the pollution level detected by the detection sensor in the control box, the operator's body information and motion are checked in three steps to control the operation of the exhaust fan to ventilate the enclosed work area, and to Information can be provided by smartphone.

In addition, according to the present invention, it is possible to keep the air inside the closed work area fresh by automatically changing the rotation direction of the ventilation fan according to the air condition inside the control box, and if there is no movement of the operator through motion detection for a certain period of time, The safety of the workers can be promoted by notifying the danger with strong exhaust wind and internal and external warning sounds.

In addition, according to the present invention, a filter case with a built-in cylindrical air filter is coupled to the air supply side of the exhaust fan, and a check cover is installed on the front side of the filter case to close the check cover when supplying air, and air enters the air filter through the side of the filter case. is introduced so that the filtered air flows into the closed work area, and when exhausted, the check cover is automatically opened by the exhaust pressure to allow the air in the closed work area to be smoothly discharged, and at the same time, artificially close the check cover if necessary. Contaminants adsorbed on the air filter can be removed.

In addition, according to the present invention, a separate type control box is manufactured so that a general-purpose exhaust fan sold on the market can be detached from the control box separately from the integrated control box to lower the manufacturing cost, and a converter can be installed in the control box to use the vehicle power. can be equipped to increase work efficiency.

In addition, according to the present invention, the air intake unit is installed in the exhaust fan, and the air intake unit and the detection sensor of the control box are connected with a hose so that when the exhaust fan is exhausted, some air is introduced into the detection sensor from the air intake unit, and accurate measurement is performed. It is possible to increase the detection efficiency by

1 is a perspective view showing the configuration of a triple safety intelligent smart fan with a work activity data analysis function manufactured as a separate type according to an embodiment of the present invention.
FIG. 2 is an exploded perspective view of FIG. 1 ;
3 is a cross-sectional view showing the configuration of the air inlet of the triple safety intelligent smart fan of the work activity data analysis function according to the present invention.
4 is a front view showing the configuration of a control box among the air inlet of the triple safety intelligent smart fan of the work activity data analysis function according to the present invention.
5 is a rear view showing the configuration of a control box among the air inlet of the triple safety intelligent smart fan of the work activity data analysis function according to the present invention.
6 is a block diagram showing the configuration of a triple safety intelligent smart fan with a work activity data analysis function according to the present invention.
7 is a use state diagram showing a state in which a triple safety intelligent smart fan with a work activity data analysis function according to the present invention is installed in a closed work area.
8 is an operation flowchart for explaining the operation of the triple safety intelligent smart fan of the work activity data analysis function according to the present invention.

Hereinafter, the configuration of the triple safety intelligent smart fan with the work activity data analysis function according to the present invention will be described in detail with reference to the accompanying drawings.

In the following description of the present invention, if it is determined that a detailed description of a related well-known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. And, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users and operators. Therefore, the definition should be made based on the content throughout this specification.

1 is a perspective view showing the configuration of a triple safety intelligent smart fan with a work activity data analysis function manufactured as a detachable type according to an embodiment of the present invention, FIG. 2 is an exploded perspective view of FIG. 1 , and FIG. 3 is an exploded perspective view of FIG. It is a cross-sectional view showing the configuration of the air intake among the triple safety intelligent smart fans of the work activity data analysis function, and FIG. 4 shows the configuration of the control box among the air intakes among the triple safety intelligent smart fans of the work activity data analysis function according to the present invention It is a front view, and Figure 5 is a rear view showing the configuration of a control box among the air inlet of the triple safety intelligent smart fan of the work activity data analysis function according to the present invention, and Figure 6 is the triple safety of the work activity data analysis function according to the present invention A block diagram showing the configuration of an intelligent smart fan.

1 to 6, the triple safety intelligent smart fan 1 of the work activity data analysis function according to the present invention is an exhaust fan 100, a wearable device 200, a portable camcorder 300 and a control box ( 400) is composed.

First, the exhaust fan 100 is commercially available, and the filter case 120 in which the air filter 110 is accommodated is detachably attached to the air supply side, and one end of the flexible duct 130 is coupled to the exhaust side. At this time, the other end of the flexible duct 130 is combined with an anti-attachment cap 140 of a weight having a bend in a crisscross shape and a round shape to prevent the flexible duct 130 from adhering to a wall or the like during exhaust, and the flexible duct ( 130) is prevented from flowing.

In addition, the filter case 120 is made of a metal or synthetic resin material, both sides are opened, a supply/exhaust hole 121 is formed on the side, and the upper end of the check cover 123 is hinged on the front side to supply air check cover 123 ) is closed, air flows into the air filter 110 through the supply/exhaust hole 121 of the filter case 120 so that the filtered air flows into the sealed work area, and when exhausting, the check cover 123 adjusts to the exhaust pressure. The air in the closed work zone is automatically opened by the automatic opening and at the same time, if necessary, the check cover 123 is artificially closed to remove the contaminants adsorbed to the air filter 110 when supplying air. At this time, the lower end of the check cover 123 is preferably fixed by the filter case 120 and the magnet.

In addition, the exhaust fan 100 is provided with a detachable means 140 such as a bolt or a quick coupler so as to be detachable from the control box 400 , and an air inlet 150 is installed on one side of the air inlet 150 and the control box. The detection sensor 410 of the 400 is connected with a hose (H) to introduce some air into the detection sensor 410 through the air intake 150 during supply and exhaust to detect the gas by the detection sensor 410 . . At this time, the exhaust fan 100 may be used alone by being separated from the control box 400 .

In addition, as shown in FIG. 3 , the air intake unit 150 includes a main body 151 , a first shielding plate 153 , and a second shielding plate 155 .

The main body 151 is made of a metal or synthetic resin material in a rectangular parallelepiped shape, a space is formed therein, an outlet 151a is provided at the bottom, and first and second inlets 151b and 151c are provided on both sides of the exhaust fan 100 ), the first inlet (151b) is located on the air supply side, and the second inlet (151c) is located on the exhaust side of the exhaust fan (100). At this time, it is preferable that an inclined guide plate 151d is provided on the outside of the first and second inlets 151b and 151c to induce an air flow to smoothly introduce air into the inside.

The first shielding plate 153 is made of an elastic material such as rubber or silicone and has an upper end fixed to open and close inside the first inlet 151b of the main body 151, and is spaced apart from the first inlet 151b by the supply pressure during air supply. The first inlet 151b is opened while being exhausted, and the first inlet 151b is closed, that is, sealed, while in close contact with the first inlet 151b by the exhaust pressure during exhaust.

The second shielding plate 155 is made of an elastic material such as rubber or silicone and has an upper end fixed to open and close inside the second inlet 151c of the main body 151, and is rotated axially by exhaust pressure during exhaust to the second inlet 151c. ), the second inlet 151c is opened while being spaced apart, and the second inlet 151c is closed while closely contacting the second inlet 151c by the supply pressure during air supply.

Then, the wearable device 200 is worn on the user's wrist to measure body physiology information and provide it to the control box 400 through Bluetooth communication. In this case, a smart watch is preferably applied as the wearable device 200 , and the body physiology information includes the heart rate and blood oxygen concentration of the operator.

Subsequently, the portable camcorder 300 is attached to the operator's chest, hard hat, or wrist, or is mounted in the enclosed work area to record and store the image in the closed work area, detects the operator's motion, and detects the motion according to the motion detection through Bluetooth communication. An event signal is provided to the control box 400 . In this case, the portable camcorder 300 is preferably an action cam, a body cam, a gopro, a black box terminal, and the like.

On the other hand, the control box 400 includes a detection sensor 410, a first short-range wireless communication module 420, a second short-range wireless communication module 430, a DC-AC converter 440, a cigar jack 450, a console panel ( 460 ), a driving driver 470 , a whistle sound warning generator 480 , and a controller 490 .

The detection sensor 410 measures the amount of oxygen, gas, temperature and humidity in the closed work area. At this time, the gas includes carbon monoxide, carbon dioxide, methane, and odor.

The first short-range wireless communication module 420 is a Bluetooth module, and performs Bluetooth communication independently of the wearable device 200 and the smart phone S of the site manager.

The second short-range wireless communication module 430 is a Wi-Fi module and performs Wi-Fi communication independently of the portable camcorder 300 .

The DC-AC converter 440 converts DC power into AC power so that 220V can be used.

The cigar jack 450 is supplied with DC power of a vehicle installed in the field.

The console panel 460 displays the amount of oxygen, gas, temperature, and humidity using LEDs and LCDs, and is provided with various switches including a power button, and an outlet for supplying power to the exhaust fan 100 .

The driving driver 470 controls the amount of power supplied from the outlet to the exhaust fan 100 according to the control of the controller 490 to control the rotation speed to adjust the supply/exhaust amount.

The whistle alarm generator 480 generates a whistle that can quickly detect an emergency under the control of the controller 490 .

The controller 490 is wirelessly connected to the wearable device 200 and the smart phone S of the site manager through the first short-range wireless communication module 420, and the portable camcorder 300 through the second short-range wireless communication module 430 ) in a state in which the controller 490 measures the pollution level in the enclosed work area with the detection signal sensed by the detection sensor 410, controls the supply and exhaust of the exhaust fan 100 according to the pollution level, and transmits the pollution level information to the first short-range It is provided to the wearable device 200 and the field manager's smartphone (S) through the wireless communication module 420, and the body physiological information of the operator and the second short-range wireless communication module ( 430) receives motion information independently from each other and monitors the operator status in real time.

Also, the controller 490 determines an emergency situation when an event signal according to motion detection generated by the portable camcorder 300 is not received for a predetermined period of time.

In addition, when power is initially supplied, the controller 490 initializes the detection sensor 410 by stopping the exhaust fan 100 to the maximum for a predetermined time, and supplying the exhaust fan 100 for a predetermined time to the detection sensor ( 410) is zero-adjusted and then stopped to evacuate the exhaust fan 100 for a certain period of time while the initialization of the detection sensor 410 is completed, and the detection sensor 410 detects the internal air condition, After exhausting the exhaust fan 100 to the maximum for a certain period of time, the pollution level is re-analyzed, and if the pollution level is less than the reference value, the exhaust fan 100 is exhausted for a certain time after supplying air for a certain period of time to the exhaust fan 100 for a certain period of time and the exhaust fan 100 is exhausted for a certain period of time. Detected in (410), the pollution level is repeatedly checked in the middle, and when the worker's body physiology information and motion information are collected and analyzed during air supply, if the worker's body physiology information is less than the reference value, the maximum exhaust of the exhaust fan 100 and a warning sound are generated, , In an emergency situation in which the operator's motion information is not present for a certain period of time, the maximum exhaust of the exhaust fan 100 and a warning sound are generated, and the emergency situation is transmitted to the field safety manager's smartphone (S) through the first short-range wireless communication module 420 at the same time do.

Hereinafter, the operation of the triple safety intelligent smart fan of the work activity data analysis function according to the present invention will be described in detail with reference to the accompanying drawings.

7 is a state diagram showing a state in which a triple safety intelligent smart fan with a work activity data analysis function according to the present invention is installed in a closed work area, and FIG. 8 is a triple safety intelligent smart fan with a work activity data analysis function according to the present invention It is an operation flowchart for explaining the operation.

If the manhole operation is described as an example, the exhaust fan 100 is attached to the control box 400 at the job site, and electricity is supplied to the control box 400 .

Then, the control box 400 and the wearable device 200 and the field manager's smartphone (S) are paired with the first short-range wireless communication module 420, and the control box 400 and the portable camcorder 300 are controlled. 2 It is paired with the short-range wireless communication module 430 .

In this state, as shown in FIG. 7 , the control box 400 to which the exhaust fan 100 is coupled is installed at a position adjacent to the manhole inlet, and the flexible duct 130 is introduced into the manhole.

As shown in FIG. 8, when the installation is completed and the control box 400 is turned on (S10), the controller 490 exhausts the exhaust fan 100 to the maximum for a predetermined time (eg, 4 minutes), that is, a strong After operating in the exhaust mode (S20), the exhaust fan 100 is stopped to initialize the detection sensor 410 (eg, 20 seconds) (S30).

Then, the controller 490 controls the detection sensor 410 by supplying air for a predetermined time (eg, 1 minute) to the exhaust fan 100 ( S40 ), and then stops it to initialize the detection sensor 410 (eg, For example, 10 seconds) is completed (S50).

When the initialization is completed, the controller 490 operates the exhaust fan 100 for a predetermined time (eg, 1 minute) to exhaust the exhaust air, and the pollution level of the exhaust air flowing into the detection sensor 410 through the air inlet 150 . is calculated (S60).

If the pollution level is greater than or equal to the reference value (S70), the controller 490 operates the exhaust fan 100 in the maximum exhaust mode for a predetermined time (eg, 10 minutes), that is, in a strong exhaust mode, and detects it through the air inlet 150 The pollution level of the exhaust air flowing into the sensor 410 is recalculated (S80).

Conversely, if the pollution level is less than the reference value (S70), the controller 490 supplies air to the exhaust fan 100 (S90). At this time, the controller 490 detects by the detection sensor 410 while operating the exhaust fan 100 as exhaust for a predetermined time (eg, 1 minute) at intervals of a predetermined time (eg, 10 to 20 minutes) during air supply. to repeatedly check the contamination level in the middle (S100).

Thereafter, when the power is turned off after the work is finished, the controller 490 stops the operation of the exhaust fan 100 ( S160 ).

On the other hand, the controller 490 monitors the worker while collecting the worker's body physiology information and motion information in real time when supplying air to the exhaust fan 100 (S110). ), the maximum exhaust of the exhaust fan 100 and a warning sound are generated (S130), and if the operator's motion information is not present for a certain period of time (S140), the first short-range wireless Transmits the emergency situation to the smart phone (S) of the site manager through the communication module 420 (S150).

The present invention may be variously modified and may take various forms, and in the detailed description of the invention, only specific embodiments thereof have been described. However, it is to be understood that the present invention is not limited to the particular form recited in the detailed description, but rather, it is to be understood to cover all modifications and equivalents and substitutions falling within the spirit and scope of the present invention as defined by the appended claims. should be

100: exhaust fan 110: air filter
120: filter case 130: flexible duct
140: anti-attachment cap 150: air intake
200: wearable device 300: portable camcorder
400: control box 410: detection sensor
420, 430: first and second short-range wireless communication modules
490: controller H: hose
S : Smartphone

Claims (8)

an exhaust fan in which a filter case having a built-in air filter is coupled to the air supply side and a flexible duct is coupled to the exhaust side;
a wearable device worn by a user to measure body physiology information;
A portable camcorder that captures and stores an image in an enclosed work area, and detects the motion of an operator; and
A detection sensor for measuring the pollution degree of the enclosed work area, a first short-range wireless communication module, and a second short-range wireless communication module and controller independently operated in a communication method different from the first short-range wireless communication module are provided, and the first short-range wireless communication module and the controller are provided. In a state in which the wearable device and the field manager's smartphone are wirelessly connected through the wireless communication module, and the controller is wirelessly connected to the portable camcorder through the second short-range wireless communication module, the controller uses the detection signal sensed by the detection sensor in the enclosed work area. The pollution level is measured and the air exhaust fan is controlled according to the pollution level, and the pollution level information is provided to the wearable device and the smart phone of the site manager through the first short-range wireless communication module, and the worker through the first short-range wireless communication module and a control box integrally or separately formed with the exhaust fan to receive body physiology information and motion information independently from each other through the second short-range wireless communication module to monitor the operator status in real time,
The exhaust fan,
A detachable means is provided so as to be detachable from the control box, and an air inlet is installed on one side to connect the air inlet and the detection sensor of the control box with a hose to introduce some air into the detection sensor through the air inlet during supply and exhaust. Triple safety intelligent smart fan with work activity data analysis function, characterized in that the detection sensor detects gas. The method of claim 1,
The filter case of the exhaust fan,
Both sides are open, supply and exhaust holes are formed on the side, and the check cover is hinged on the front side to close the check cover when supplying air. flows into the sealed work area, and when exhausted, the check cover is automatically opened by the exhaust pressure to allow the air in the closed work area to be smoothly discharged, and at the same time, if necessary, artificially close the check cover to the air filter. Triple safety intelligent smart fan with work activity data analysis function, characterized in that it removes adsorbed pollutants. delete The method of claim 1,
The air intake unit,
A body having a space formed therein, an outlet provided at the bottom, first and second inlets provided on both sides, the first inlet is positioned on the air supply side of the exhaust fan, and the second inlet is positioned on the exhaust side of the exhaust fan Wow;
The upper end is fixed so as to be opened and closed inside the first inlet of the main body with an elastic material, and the first inlet is opened while being spaced apart from the first inlet by the supply pressure when supplying air, and the first inlet and the first inlet by the exhaust pressure when exhausting a first shielding plate that closes the first inlet while in close contact; and
The upper end is fixed to open and close inside the second inlet of the main body with an elastic material, and when exhausted, the upper end is rotated by the exhaust pressure to open the second inlet while being spaced apart from the second inlet, and the second inlet is opened by the supply pressure when supplying air. A triple safety intelligent smart fan with a work activity data analysis function, characterized in that it consists of a second shielding plate that closes the second inlet while being in close contact with the second inlet. The method of claim 1,
The wearable device,
Triple safety intelligent smart fan with work activity data analysis function, characterized in that it provides body physiology information including the heart rate and blood oxygen concentration of the worker to the controller of the control box through the first short-range wireless communication module, which is a Bluetooth module . The method of claim 1,
The portable camcorder,
Work activity data analysis function, characterized in that when the motion of the worker is detected during shooting and the motion is detected, an event signal is provided to the controller of the control box through the second short-range wireless communication module, which is a Wi-Fi module Triple safety intelligent smart fan. 7. The method of claim 6,
The controller of the control box,
Triple safety intelligent smart fan with work activity data analysis function, characterized in that it is determined as an emergency when the event signal generated from the portable camcorder is not received for a certain period of time. The method of claim 1,
The controller of the control box,
When power is first supplied, the exhaust fan is exhausted to the maximum for a certain period of time and then stopped to initialize the detection sensor, and the exhaust fan is supplied for a certain period of time to zero-adjust the detection sensor and then stop to initialize the detection sensor In the completed state, while exhausting the exhaust fan for a certain period of time, the detection sensor detects it, and if the pollution level is greater than the reference value, the exhaust fan is maximally exhausted for a predetermined time, and then the pollution level is re-analyzed. If the pollution level is less than the reference value, the exhaust fan is constant After supplying air for a period of time, when the air supply is completed, the exhaust fan is exhausted for a certain period of time, and the detection sensor detects the pollution level and repeatedly checks the contamination level. If it is less than the reference value, the maximum exhaust of the exhaust fan and a warning sound are generated, and in an emergency situation when the operator's motion information is not present for a certain period of time, the maximum exhaust of the exhaust fan and a warning sound are generated simultaneously with the first short-range wireless communication module of the site manager's smartphone Triple safety intelligent smart fan with work activity data analysis function, characterized in that it transmits an emergency to

Images