KR102611357B1 - A Remote Capturing Device According to an Odor Monitoring and a Weather Condition - Google Patents

Abstract

The present invention relates to an odor monitoring and weather-dependent remote collection device. The odor monitoring and weather-dependent remote collection device includes a monitoring module (11) capable of monitoring odor and weather conditions; A collector (13) connected to the monitoring module (11) to enable gas flow; A controller (14) capable of remote communication while controlling the operation of the monitoring module (11) and the collector (13); and a management application installed on the electronic device 15 capable of data communication with the controller 14.

Description

A Remote Capturing Device According to an Odor Monitoring and a Weather Condition}

The present invention relates to a malodor monitoring and weather-dependent remote collection device, and more specifically, to a malodor monitoring and weather-dependent remote collection device that remotely collects malodor while monitoring weather and odor.

Bad odor is an independent environmental pollution along with air pollution, water pollution, noise and vibration, and bad odor refers to the smell of hydrogen sulfide, mercaptans, amines and other irritating gaseous substances that stimulate a person's sense of smell and cause discomfort and disgust. Bad odors can be generated from various business activities or living environments, and as the level of odor emissions is regulated, the odor present in the air needs to be limited. Odors may include, for example, ammonia (NH ₃ ), hydrogen sulfide (H ₂ S) or total volatile organic compounds (TVOC _s ), and their presence in the air must be monitored to control emission levels or limit their presence. It needs to be this. In relation to such odor monitoring, Patent Publication No. 10-2007-0060221 discloses a real-time odor monitoring/management system and method. Additionally, Patent Registration No. 10-2360729 discloses an odor monitoring and automatic sample collection linked system. It is advantageous for the odor monitoring means to be operated in conjunction with a collection means that can be selectively installed in various locations and can directly collect odors according to the monitoring results. It is also advantageous if the monitoring and collection means are remotely controlled. However, the prior art does not disclose such a monitoring and collection method.

The present invention is intended to solve the problems of the prior art and has the following purposes.

Prior Art 1: Patent Publication No. 10-2007-0070221 (Electronics and Telecommunications Research Institute, published on June 13, 2007) Real-time odor monitoring/management system and method Prior art 2: Patent registration number 10-2360729 (Enverse Co., Ltd., announced on February 14, 2022) Odor monitoring and automatic sample collection linked system

The object of the present invention is to provide an odor monitoring and weather-dependent remote collection device that can be installed in any location where monitoring is required, is capable of capturing air according to the results of monitoring, and allows acquisition and collection control of monitoring data remotely. will be.

According to a preferred embodiment of the present invention, an apparatus for monitoring odor and remotely capturing weather conditions includes a monitoring module capable of monitoring odor and weather conditions; A collector connected to the monitoring module to enable gas flow; A controller capable of remote communication while controlling the operation of the monitoring module and collector; and a management application installed on an electronic device capable of data communication with the controller.

According to another suitable embodiment of the present invention, the weather condition is wind speed or pressure, and the collector is activated when the wind speed is below a predetermined value.

According to another suitable embodiment of the present invention, the monitoring module includes a supporter module that is height-adjustable and has mobility; and an odor sensor module disposed on a base coupled upwardly to the support module; and an environmental detection module.

According to another suitable embodiment of the present invention, the collector is automatically operated according to preset conditions by a controller, or the collector is operated manually.

According to another suitable embodiment of the present invention, the collector has a multi-stage structure and performs auto-flushing before collection.

The odor monitoring and weather-dependent remote collection device according to the present invention is installed at various locations in, for example, factories, industrial facilities, or similar odor emission facilities to enable monitoring of odor contained in the air. Additionally, the remote capture device according to the present invention can be installed on various roads or construction sites, and the present invention is not limited by the installation location. The device according to the present invention has the advantage of being mobile and thereby being able to be installed in various locations, while allowing the installation location to be arbitrarily selected as needed. The system according to the present invention enables odor monitoring according to weather conditions such as wind speed and pressure, and allows air to be captured according to the monitoring results or according to set conditions. In addition, the device according to the present invention allows monitoring control, acquisition of monitoring data, collection control, or similar monitoring or collection to be remotely controlled, for example, by an application installed on a mobile device. The device according to the invention can be applied for example, but is not limited to, the monitoring and capture of ammonia (NH ₃ ), hydrogen sulfide (H ₂ S) or total volatile organic compounds (TVOC _s ).

Figure 1 shows an embodiment of an odor monitoring and weather-dependent remote collection device according to the present invention.
Figure 2 shows an example in which the remote capture device according to the present invention is applied.
Figure 3 shows an embodiment in which air collection is controlled in the remote collection device according to the present invention.
Figure 4 shows an embodiment of the operating structure of the remote capture device according to the present invention.
Figure 5 shows an embodiment of the process of monitoring and collecting odor by the remote collection device according to the present invention.

Below, the present invention will be described in detail with reference to the embodiments shown in the attached drawings, but the examples are for a clear understanding of the present invention and the present invention is not limited thereto. In the description below, components having the same reference numerals in different drawings have similar functions, so unless necessary for understanding the invention, the description will not be repeated, and well-known components will be briefly described or omitted, but the present invention It should not be understood as being excluded from the embodiments.

Figure 1 shows an embodiment of a remote collection device for monitoring odor and weather according to the present invention.

Referring to FIG. 1, the device for monitoring odor and remotely capturing weather conditions includes a monitoring module 11 capable of monitoring odor and weather conditions; A collector (13) connected to the monitoring module (11) to enable gas flow; A controller (14) capable of remote communication while controlling the operation of the monitoring module (11) and the collector (13); and a management application installed on the electronic device 15 capable of data communication with the controller 14.

Malodor contained in environmental air may be monitored by the monitoring module 11, and the monitoring module 11 may include an odor sensor 111 and a weather detection module 112. The odor sensor 111 may be, for example, a sensor capable of detecting NH ₃ , H ₂ S, TVOC _s (Total Votail Organic Compounds), or similar odors, but is not limited thereto. The odor sensor 111 can detect odor components or odor concentrations contained in the air and transmit them to the controller 14, and the controller 14 transmits the monitored odor information to an electronic device 15 such as a mobile device or personal computer. It can be transmitted wirelessly. Odor monitoring by the odor sensor 111 can be performed in real time, and the monitored odor information can be confirmed by being transmitted to the electronic device M in real time. The weather detection module 112 may include, but is not limited to, wind direction detection means, wind speed detection means, pressure detection means, or temperature detection means. Wind speed and pressure can be prerequisites for odor capture. For example, odor capture can be accomplished when the wind speed is less than 5 m/s and the pressure is 1 atmosphere or a value close thereto. Depending on the monitoring data, the malodor may be collected according to predetermined conditions or manually, and the malodor may be collected by the collector 13. The collector 13 may have a structure capable of collecting gas, may include at least one collection bag, and may preferably have a multi-stage structure with a plurality of collection bags. The operation of the collector 13 may be controlled by the controller 14, and the collector 13 may be connected to the monitoring module 11. Specifically, a suction means for collecting environmental air may be installed at the location where the monitoring module 11 is installed, and the suction means may be connected to the collector 13 by, for example, a tube or hose capable of gas flow. In this way, the suction means is placed at the location where the monitoring module 11 is located, so that the monitoring environment and the collection environment can be matched. The monitoring module 11 may be located at a certain height from the ground, and the collector 13 may be placed on the ground. The collector 13 may include various means for collecting and storing malodor, and the present invention is not limited thereby. The operation of the monitoring module 11 may be controlled by the controller 14, and the operation of the collector 13 may be controlled by the controller 14. The controller 14 may control the operation of the monitoring module 11 and receive various information obtained by the monitoring module 11. For example, the type of odor detected by the monitoring module 11, wind speed, wind direction, pressure, temperature, or similar monitoring information may be transmitted to the controller 14, and the controller 14 may monitor the information based on the received monitoring information. Thus, the operation of the collector 13 can be controlled. Specifically, when a bad odor is detected by the monitoring module 11, the operation of the collector 13 can be controlled according to the weather information detected by the weather detection module 112. Controller 14 can automatically or manually cause environmental air to be captured by collector 13. The controller 14 may also transmit the monitoring information received from the monitoring module 11 and information about the operating status of the collector 13 to the electronic device 15. The electronic device 15 may be, but is not limited to, a mobile device such as a smartphone or a communication capable device such as a personal computer. The controller 14 may be capable of long-distance communication through wireless communication such as LTE communication, and may transmit monitoring information and collection information to a designated management server. Monitoring information and collection information may be stored in the management server. A management application may be installed on a mobile device, such as a smartphone, and monitoring information and collection information may be transmitted to the management application on the mobile device directly or via a management server. The controller 14 can be operated by the electronic device 15, and thereby the operation of the monitoring module 11 and the collector 13 can be remotely controlled. Specifically, the monitoring module 11 can be operated through the controller 14 by a management application installed on the mobile device. Additionally, the monitoring information received by the controller 14 can be transmitted to the mobile device. The management application can cause gas collection by the collector 13 to be started through the controller 14, and collection start conditions can be set. In this way, the operation of the monitoring module 11 or the collector 13 can be remotely controlled by the electronic device 15. The management application 15 may be installed on various electronic devices 15 capable of communication, and the present invention is not limited thereto.

Figure 2 shows an example in which the remote capture device according to the present invention is applied.

Referring to FIG. 2, the monitoring module 11 includes supporter modules 21 and 22 that are height-adjustable and have mobility; and an odor sensor module (24) disposed on the base (23) coupled above to the support modules (21, 22); and an environmental detection module (25). The supporter modules 21 and 22 include, for example, a supporter 21 such as a tripod, and an installation member 22 that is coupled upward to the supporter 21 and has a structure extending vertically. The supporter 21 may have a height-adjustable structure and may also have a movable or detachable structure. The lower end of the installation member 22 may be coupled to the upper end of the supporter 21, and the planar base 23 may be coupled to and fixed to the upper end of the supporter 21. The installation member 22 may have a height-adjustable structure and a detachable structure. The height of the monitoring module 11 can be adjusted by the supporter 21 and the installation member 22, and the monitoring module 11 can be installed in any location or various locations. For example, the monitoring module 11 may be installed at a height of 1.5 to 2.0 m above the ground to monitor air and collect air at that height. The odor sensor module 24 may be detachably coupled to the upper surface of the base 23, and various types of odors may be detected by the sensor module 24, for example, ammonia, hydrogen sulfide, or total volatile organic Compounds (TVOC _s ) can be detected. In addition, collection attraction tabs 26a, 26b for collecting environmental air may be installed on the upper surface of the base 23, and the collection attraction tabs 26a, 26b are guide pipes such as tubes or hoses capable of gas flow ( It can be connected to an independently installed collector (13) by 27). At least one collection attraction tab (26a, 26b) may be installed, and preferably, a plurality of collection attraction tabs (26a, 26b) may be installed. A plurality of collection bags may be installed inside the collector 13, and each collection attraction tab (26a, 26b) may be connected to each collection bag. Before capturing environmental air containing malodors, the collection bag may be flushed, preferably automatically flushed. Specifically, when the collection of environmental air containing bad odors is initiated by the controller, the collector may be operated, and when the collector is operated, environmental air may be guided to each collection bag through the collection attraction tabs 26a and 26b. Each collection bag may have a defined capacity, for example each collection bag may have a capacity of 10 L. Once each collection bag is initially filled with environmental air, the environmental air can be discharged again. And after each collection bag is completely emptied, environmental air can be collected and stored again. This automatic flushing process can be performed at least once, whereby the concentration of odor contained in environmental air can be accurately collected and measured. The automatic flushing process can be carried out in a variety of ways and the present invention is not limited thereby. The controller 14 may be installed independently, the controller 14 may be communicatively connected to the collector 13, and the controller 14 may also be communicatively connected to the monitoring module. The controller 14 and the collector 13 may be connected through wired or wireless communication, and the controller 14 and the collector 13 may be connected through short-distance wireless communication. The controller 14 may include a long-distance wireless communication means and may be connected to the mobile device M through long-distance communication. Controller 14 may also be connected to a personal computer P having management functions. This allows data to be transmitted from the controller 14 to the mobile device (M) or personal computer (P), and the controller 14 is operated by the mobile device (M) or personal computer (P), as described above. It can be. The controller 14, collector 13 or monitoring module may be operated independently and may be operated by an independent power source, for example a battery. Alternatively, the controller 14, collector 13 or monitoring module may be operated by externally supplied power. Power supply can be achieved in various ways and the present invention is not limited thereby.

Figure 3 shows an embodiment in which the capture of environmental air is controlled in the remote capture device according to the present invention.

Referring to Figure 3, a personal computer (P) is installed in various places such as a management center (31) or a house (32) and communicates with the controller (14), or a management application (APP) is installed on the mobile device (M). can communicate with the controller 14. The management application (APP) may include means for controlling the operation of the collector 13, for example, including a collection selection button to allow collection to be collected in each collection bag in the collector 13 having a multi-stage collection structure. and may include a setting label that sets a pump operation time to initiate operation of the pump to introduce environmental air into each collection bag. It may also include a manual button for manually or forcefully initiating capture. Such operating means for the collector 13 may also be installed in the controller 14 to operate the collector 13 or set the operation of the collector 13. Specifically, the management application (APP) or controller 14 may include an on/off switch for time collection, a time setting label to set the collection time of each collection bag, or operation of the collector 13 or monitoring module. It may contain various menus for adjustment or setting. Additionally, the management application (APP) or controller 14 may include various means for adjusting the height of the supporter modules 21 and 22, or receiving and processing detection information from the sensor module 24 or the environmental detection module 25. You can. The management application (APP) or controller 14 may control or regulate the operation of the collector 13 or the monitoring module, or may include various means for processing communications, but the present invention is not limited thereto.

Figure 4 shows an embodiment of the operating structure of the remote capture device according to the present invention.

Referring to FIG. 4, means 42 for introducing environmental air, such as an odor sensor 111 or a weather detection module 112 or a capture inlet tap for introducing environmental air, may be controlled by the controller 14, The operations of the capture condition setting module 43, the capture status check module 44, and the capture control module 45 may be controlled by the controller 14. The collection condition setting module 43 may have the function of setting various conditions under which environmental air is collected in the collector, and the collection status check module 44 may have the function of checking the status of the collection bag. For example, automatic flushing of the collection bag may be performed by the collection status confirmation module, and each collection status may be confirmed during the collection process. Additionally, the air inflow speed can be adjusted by the collection control module 45. The controller 14 can control the operation of the notification setting module 46, and the notification setting module 46 generates a notification message when conditions set in the collector or monitoring module are completed or operation according to the settings is initiated. It can have functions. Additionally, if an abnormality occurs in the operation of the collector or monitoring module, it may have the function of generating an abnormal condition message. For example, a battery abnormality message may be generated when the battery is insufficiently charged or power is not supplied from the battery. Alternatively, a damage occurrence message may be generated in which the collector or monitoring module is exposed to various external shocks and is damaged. It can be controlled by the controller 14 generated in the notification setting module 46 and transmitted to the mobile device (M) or personal computer (P). The notification setting module 46 may periodically transmit a status check signal to the mobile device (M) or personal computer (P) when the collector or monitoring module operates normally. A data storage/transmission module 47 for storing or transmitting data may be disposed in the controller 14, and monitoring information and collection information collected over time may be stored in the data storage/transmission module 47. It can be transmitted to the mobile device (M) or a personal computer (P) having a management server function under the control of the communication control module 48 in real time or at a predetermined time. Controller 14 may include various means for controlling the operation of, or receiving information from, the collector or monitoring module, but the invention is not limited thereto.

Figure 5 shows an embodiment of the process of monitoring and collecting odor by the remote collection device according to the present invention.

Referring to FIG. 5, the process of monitoring and collecting odor includes steps (P51) in which a management application is installed on a mobile device and communication between the monitoring module and the controller for operation of the collector is established (P51); Step (P52) in which an odor sensor and environmental measurement means forming a monitoring module are installed; A step in which a collector with a collection function is installed (P53); A step of setting odor sensor operating conditions and odor collection conditions by a management application or a controller (P54); A step in which odor monitoring is initiated (P55); Step (P56) where it is confirmed whether the conditions for capturing environmental air are met; A step in which odors are collected remotely in multiple stages (P57); A step in which odor monitoring and odor collection data are stored and transmitted by the controller (P59); and a step (P59) in which the odor is analyzed in the management application or management server.

A management application may be installed on a mobile device such as a smartphone, and the controller may have a remote communication function (P51). The controller can communicate directly with the mobile device or indirectly through a platform such as a management platform. Additionally, the controller can be set to communicate with the monitoring module described below. In this way, remote communication of the controller or communication between monitoring modules can be established in various ways. An odor sensor and environmental measurement means corresponding to the monitoring module may be installed (P52), and ammonia (NH ₃ ), H ₂ S, TVOC _s ) or similar odors may be detected by the odor sensor, and an environmental measurement means By means of which environmental conditions or weather conditions may be detected, for example wind speed, wind direction or pressure may be detected. A collector with an odor collection function may be installed (P53), and the collector may include at least one collection bag, preferably a plurality of collection bags, whereby the collector may have a multi-stage structure. The collector may have an independent structure and may be connected to the monitoring module to enable gas flow. Specifically, a tube or hose that allows gas to flow from the monitoring module to the collector may be connected. Accordingly, the surrounding air in which the monitoring module is installed can flow along the hose or tube and be collected in the collection bag, and the collector may include various means for collecting environmental air containing odor. For example, collectors include pumps and pressure gauges. It may include various means for controlling the collection process while collecting gas, such as a tube opening/closing means, a gas inducing means, or similar means, but the present invention is not limited thereto. A controller may be installed to control the operation of the collector and monitoring module while transmitting the detected monitoring information and environmental information to a mobile application or management server. The operation of the monitoring module and collector may be controlled by a mobile application, management server, or controller. Specifically, the mobile application or management server may set the odor sensor operating conditions and odor collection conditions through the controller, or the operating conditions and collection conditions may be set directly through the controller. For example, odor collection can proceed when at least one odor is detected, the wind speed is below 5 m/s, and the pressure is 1 atmosphere or a value close thereto. Additionally, the operation start time, operation time, or operation end time of the collector pump may be set. Once the odor sensor operating conditions and odor collection conditions are set (P54), odor monitoring can be initiated (P55). In the process of odor monitoring, it can be determined whether the odor collection conditions have been met (P56), and if the collection conditions have not been met (NO), odor monitoring can continue (P55). In comparison, if the odor collection conditions are met (YES), the odor can be collected by the collector (P57) and the collection bag can be automatically flushed first to collect the odor. Malodor can be collected as the pump for odor collection operates, and the odor collection process can be remotely monitored by a mobile application or management server. Sensing information and collection information by the monitoring module can be collected and stored by the controller, and transmitted remotely to a mobile application or management server by the controller (P58). The transmitted monitoring information or collection information can be analyzed, and the gas containing the odor collected in the collector can be analyzed (P59). Analysis of odor components can be performed in a variety of ways, and the present invention is not limited thereby.

Although the present invention has been described in detail above with reference to the presented embodiments, those skilled in the art will be able to make various variations and modifications without departing from the technical spirit of the present invention by referring to the presented embodiments. . The present invention is not limited by such variations and modifications, but is limited by the claims appended below.

11: Monitoring module 12: Collector
14: Controller 15: Electronic device
21, 22: Support module 23: Base
24: Odor sensor module 25: Environmental detection module

Claims (5)

A monitoring module (11) capable of monitoring odor and weather conditions;
A collector (13) connected to the monitoring module (11) to enable gas flow;
A controller (14) capable of remote communication while controlling the operation of the monitoring module (11) and the collector (13); and
Includes a management application installed on the electronic device 15 capable of data communication with the controller 14,
The monitoring module 11 includes support modules 21 and 22 that are height-adjustable and have mobility; Base (23) coupled to the upper part of the support module (21, 22); An odor sensor module (24) and an environmental detection module (25) disposed on the base (23); And a collection attraction tab (26a, 26b) installed on the upper surface of the base (23) for collecting environmental air,
The collection attraction tabs (26a, 26b) are connected to the collector (13) independently disposed on the ground by a guide pipe (27) such as a tube or hose capable of gas flow,
The collector 13 is a remote collection device for odor monitoring and weather, characterized in that it has a multi-stage structure with a plurality of collection bags and performs auto-flushing before collection. The method of claim 1, wherein the weather condition is wind speed or pressure, and the collector (13) is operated when the wind speed falls below a predetermined value. delete The apparatus according to claim 1, wherein the collector (13) is automatically operated according to preset conditions by the controller (14), or the collector (13) is operated manually.
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