KR102414803B1 - Ingurious insect detection system - Google Patents

Abstract

A pest detection system is disclosed. The pest detection system according to the embodiment includes a plurality of light emitting units and a light receiving unit, a pest detection device for detecting identification of pests, a signal processing unit for converting a pest detection signal received from the pest detection device into time information, and a signal processing unit for conversion By including a management unit that stores a database by analyzing information about pests through time information and provides a solution thereto, it analyzes information about pests more precisely and accurately and tailors them to users according to the types and characteristics of pests service can be provided.

Description

Pest detection system {INGURIOUS INSECT DETECTION SYSTEM}

The description below relates to a pest detection system.

In everyday life, pests that directly and indirectly damage humans frequently appear. The frequency and time of appearance of pests are irregularly determined by environmental factors such as season and weather. There is a need for a technology that can minimize the damage caused by pests in daily life by identifying and predicting the identification of pests.

Pests range from poisonous bugs such as poison moths that directly harm humans to mosquitoes, flies and bedbugs that indirectly harm people, and the biological properties of other pests also vary. Since the method of exterminating pests and the predicted occurrence time are also different depending on the biological characteristics of the pests, there is a need for a technology for accurately identifying the types and characteristics of the pests.

In addition, it is one of the important tasks to provide customized services for the convenience of customers after accurately identifying information about pests. For example, a service that informs a user of necessary action guidelines according to the type and characteristic of pests, displays information on pests, and recommends a change in setting values of a pest detection device according to pests may be required.

In this regard, Korean Patent Publication No. 10-1957445 discloses a pest trapping device. The pest trapping device may be configured to not only classify and capture pests, but also accurately count the captured pests and deliver them to a remote management server for monitoring.

The above-mentioned background art is possessed or acquired by the inventor in the process of derivation of the present invention, and cannot necessarily be said to be a known art disclosed to the general public prior to the filing of the present invention.

An object of the pest detection system according to the embodiment is a pest detection device for detecting pests moving inside through a through hole, and a signal processing unit and a signal processing unit for converting a pest detection signal received from the pest detection device into time information. It is to provide a system that can more accurately grasp information about pests, including a management unit that analyzes and stores information about pests through time information.

An object of the pest detection system according to the embodiment is to provide a solution to the pest occurrence situation by comparing and analyzing the detection information received from the detection device and the signal processing unit with previously stored pest-related information.

The pest detection system according to an embodiment includes a housing forming an exterior, a penetration hole formed through at least one outer surface of the housing to provide a path for pests to move, and a penetration hole located on the inner surface of the penetration hole to emit and receive light to identify pests A pest detection device including a detection sensor to detect, a signal processing unit for converting a pest detection signal received from the pest detection device into time information, and a time information converted by the signal processing unit to analyze information on pests and store them in a database and may include a management department that provides solutions for pest outbreaks.

The detection sensor includes a plurality of light emitting units located on one side of the inner surface of the through hole and irradiating light, and a plurality of light receiving units located on the opposite side of the light emitting unit based on the center of the through hole to receive the light emitted by the light emitting unit. may include

The plurality of light emitting units and the plurality of light receiving units may gather in a partial area of the inner surface of the through hole to form a pest detection area.

The pest detecting device may further include a pest attracting unit positioned inside the housing and irradiating light to attract pests into the housing.

The pest detection device may further include a trapping unit positioned inside the housing to catch pests introduced into the housing through the through hole.

The signal processing unit inputs the pest detection signal received from the pest detection device as a time value over time, measures and stores time value change information according to a change in the pest detection signal, and converts the pest detection signal into time information can be converted

The signal processing unit may further include an amplifier circuit for increasing the intensity of the pest detection signal received from the pest detection device and a filter for extracting only the pest detection signal by removing noise from the signal received from the pest detection device can

The management unit is an analysis unit that analyzes the pest identification based on the time information converted by the signal processing unit, a storage unit that builds and accumulates a database and accumulates the pest identification information analyzed by the analysis unit, and the pest identification analyzed by the analysis unit Based on the information and the information accumulated in the storage unit, it may include a determination unit that provides a solution related to the occurrence of pests to the user.

The analysis unit may analyze information on pest identification, such as the time passed by the pest, the movement of the pest, the size of the pest, and the type of the pest.

The determination unit is based on the information of the analysis unit and the storage unit to determine and provide a solution to the occurrence of pests, such as selection of lure according to the type of pest, user behavior guide guidance according to the type and number of pests, and display of the detected pests. can

According to the pest detection system according to the embodiment, the signal processing unit converts the pest detection information detected by the pest detection device into time information and converts it into a higher quality signal through an amplification circuit and a filter, so that information on pests can be grasped more accurately. can

According to the pest detection system according to the embodiment, it is possible to analyze the pest information detected by the pest detection device and provide a customized solution for reducing damage to the pest to the user based on the existing pest occurrence information accumulated in the database .

The following drawings attached to the present specification illustrate a preferred embodiment of the present invention, and serve to further understand the technical idea of the present invention together with the detailed description of the present invention, so the present invention is limited to the matters described in those drawings It should not be construed as being limited.
1 is a flowchart of a pest detection system according to an embodiment.
Figure 2 is an internal side view of the pest detection device according to the embodiment.
3 is a schematic diagram of a signal processing unit according to an embodiment.
4 is a schematic diagram of a management unit according to an embodiment.

Hereinafter, embodiments will be described in detail with reference to exemplary drawings. In adding reference numerals to the components of each drawing, it should be noted that the same components are given the same reference numerals as much as possible even though they are indicated on different drawings. In addition, in the description of the embodiment, if it is determined that a detailed description of a related known configuration or function interferes with the understanding of the embodiment, the detailed description thereof will be omitted.

In addition, in describing the components of the embodiment, terms such as first, second, A, B, (a), (b), etc. may be used. These terms are only for distinguishing the elements from other elements, and the essence, order, or order of the elements are not limited by the terms. When it is described that a component is “connected”, “coupled” or “connected” to another component, the component may be directly connected or connected to the other component, but another component is between each component. It will be understood that may also be "connected", "coupled" or "connected".

Components included in one embodiment and components having a common function will be described using the same names in other embodiments. Unless otherwise stated, descriptions described in one embodiment may be applied to other embodiments as well, and detailed descriptions within the overlapping range will be omitted.

1 is a flowchart of a pest detection system according to an embodiment, FIG. 2 is an internal side view of a pest detection device according to an embodiment, FIG. 3 is a schematic diagram of a signal processing unit according to an embodiment, and FIG. 4 is a management unit according to an embodiment is a schematic diagram of

1 to 4 , the pest detection system 1 may provide a solution for reducing damage caused by pests to the user after analyzing the pests by detecting pest identification. For example, it is possible to accurately identify the types and characteristics of pests by detecting the time, frequency of occurrence, and size and movement of pests, and provide a customized solution according to the types and characteristics of pests to the user. The pest detection system 1 may include a pest detection device 10 , a signal processing unit 11 , and a management unit 12 .

The pest detection device 10 may detect and capture pests entering the inside. Specifically, the pest detection device 10 may detect and measure the movement, size, and inflow time period of the pest by attracting the pest to the inside. The pest detection device 10 may capture the pests introduced into the interior and prevent the pests from leaking out again. The pest detection device 10 may include a housing 100 , a through hole 101 , a detection sensor 102 , a pest attracting unit 103 , and a trapping unit 104 .

The housing 100 may form the exterior of the pest detection device 10 . In the inner space of the housing 100 , components essential for the operation of the pest detection device 10 may be located. The housing 100 may protect essential components from external impact. The housing 100 may be attached to the inner wall of the indoor space.

The through hole 101 may be formed through at least one outer surface of the housing 100 to provide a path for pests to move. For example, the through hole 101 may be formed through the outer surface of the housing 100 to face the indoor space so that pests can move into the housing 100 . In addition, the through hole 101 may be located relatively above the catch portion 104 .

The detection sensor 102 may be located on the inner surface of the through hole 101 and detect the identification of the pest by emitting and receiving light. For example, the detection sensor 102 may include a plurality of light emitting units 102a positioned on one side of the inner surface of the through hole 101 to irradiate light. The detection sensor 102 may include a plurality of light receiving units 102b positioned on the opposite side of the light emitting unit 102a with respect to the center of the through hole 101 to receive the light emitted by the light emitting unit 102a. . Specifically, the amount of voltage and current is changed according to the amount of infrared light emitted from the light emitting unit 102a is reflected by the pest and received by the light receiving unit 102b, and the detection sensor 102 is the changed amount of voltage and current and Information about pests can be detected through the changed time of voltage and current. However, the positions of the light emitting unit 102a and the light receiving unit 102b in the drawings are merely exemplary and are not limited to positions indicated in the drawings.

The light emitting unit 102a and the light receiving unit 102b may gather in a partial area of the inner surface of the through hole 101 to form a pest detection area. For example, the plurality of light emitting units 102a and the plurality of light receiving units 102b are uniformly distributed on the inner surface of the through hole 101 in a rectangular shape, so that the pest can detect the identification and shape of the pest for each movement section. In addition, the plurality of light emitting units 102a and the plurality of light receiving units 102b may identify the pests for each section according to time, and more accurately detect the types and behavioral characteristics of the pests.

The pest attracting unit 103 may be located inside the housing 100 and may induce pests into the housing 100 by irradiating light. For example, the pest attractor 103 may irradiate light corresponding to a wavelength region preferred by pests. Specifically, the pest attracting unit 103 may include a fluorescent lamp. The pest attracting unit 103 may be irradiated with light having a wavelength of 320 nm to 400 nm. By attracting the pests into the housing 100 by the pest attracting unit 103, various and actively detecting pests that have appeared in the vicinity can be widely obtained information on the occurrence of pests.

The trapping unit 104 may be located inside the housing 100 to capture pests introduced into the housing 100 through the through hole 101 . For example, the catcher 104 may include at least one or more of a sticky tape and a suction fan. Since the trapping unit 104 captures the pests introduced into the housing 100 , the detection sensor 102 prevents re-sensing of the pests once sensed, thereby increasing the pest detection accuracy. If the amount of pests captured by the trapping unit 104 increases over time, the trapping unit 104 may need to be periodically replaced.

The signal processing unit 11 may convert the pest detection signal received from the pest detection device 10 into time information. For example, the signal processing unit 11 inputs the pest detection signal received from the pest detection device 10 as a time value over time, measures and stores information on time value change according to the change in the pest detection signal, and stores the pest detection signal can be converted into time information. Specifically, the signal processing unit 11 may receive different detection signals for each movement section of the pest from the plurality of light receiving units 102b with a time difference. The signal processing unit 11 may transmit time difference information and time change information of the received detection signal to the management unit 12 .

The signal processing unit 11 may include an amplifier circuit 110 that increases the intensity of the pest detection signal received from the pest detection device 10 . For example, the amplification circuit 110 may amplify the received pest detection signal at a set constant ratio using current and voltage characteristics. By amplifying the fine detection signal by the amplification circuit 110 , the management unit 12 can receive a more clear and distinct detection signal.

The signal processing unit 11 may include a filter 111 for extracting only the pest detection signal by removing noise from the signal received from the pest detection device 10 . For example, the filter 111 may receive a setting range for noise removal from the manager, and the filter 111 may transmit a signal that does not meet the set range based on the input setting range to the management unit 12 . situation can be avoided. Accordingly, according to this action of the filter 111 , the management unit 12 may receive pest-related information from which detection information other than pests is excluded, analyze the pest occurrence more precisely and accurately, and provide a solution.

The management unit 12 may analyze information on pests through the time information converted by the signal processing unit 11 , store it in a database, and provide a solution for pest outbreaks. The management unit 12 may include an analysis unit 120 , a storage unit 121 , and a determination unit 122 .

The analysis unit 120 may analyze pest identification based on the time information converted by the signal processing unit 11 . For example, the analysis unit 120, based on the movement information for each section and the time information according to the section converted by the signal processing unit 11, the time passed by the pest, the movement of the pest, the size of the pest, and the type of the pest Information on pest identification can be analyzed.

The storage unit 121 may build a database and accumulate pest identification information analyzed by the analysis unit 120 . For example, the storage unit 121 may build a management server that can be shared by a plurality of managers and management systems to store and accumulate information on pests analyzed by the analysis unit 120 . Information on pests accumulated in the storage unit 121 may be utilized for analyzing other pest occurrence phenomena.

The determination unit 122 may provide a solution for reducing damage caused by pests to the user based on the pest identification information analyzed by the analysis unit 120 and the information accumulated by the storage unit 121 . For example, the determination unit 122 selects an attraction light according to the type of pest based on the information of the analysis unit 120 and the storage unit 121 , guides the user's action guide according to the type and number of pests, and displays the detected pests It can determine and provide solutions to pest outbreaks such as Accordingly, through the determination of the determination unit 122 , the pest detection system 1 may provide a customized service according to the type and characteristic of the pest to the user.

As described above, although the embodiments have been described with reference to the limited drawings, various modifications and variations are possible from the above description by those of ordinary skill in the art. For example, the described techniques are performed in an order different from the described method, and/or the described components of structures, devices, etc. are combined or combined in a different form than the described method, or other components or equivalents are used. Appropriate results can be achieved even if substituted or substituted by

1: Pest detection system
10: pest detection device
11: Signal processing unit
12: Management
100: housing
101: through hole
102: detection sensor
103: pest attractor
104: catcher
110: amplification circuit
111: filter
120: analysis unit
121: storage
122: judgment unit

Claims (10)

A housing forming an exterior, a through hole formed through at least one outer surface of the housing to provide a path for pests to move, and a detection sensor located on the inner surface of the through hole to emit and receive light to detect the identification of the pest pest detection devices;
a signal processing unit for receiving different detection signals for each movement section of pests from the pest detection device with a time difference, and converting the pest detection signal into time information and time difference information; and
Information on pests is analyzed and stored in a database through the time information and the time difference information converted by the signal processing unit, and based on the information on pests, attracting light selection according to the type of pest, user behavior guideline, and detected A pest detection system comprising: a determination unit for determining a solution for the display of pests and occurrence of the same type of pest; and a management unit for providing the solution determined by the determination unit.
The method of claim 1
detection sensor,
a plurality of light emitting units positioned on one side of the inner surface of the through hole and irradiating light; and
A pest detection system comprising a plurality of light receiving units positioned on the opposite side of the light emitting unit with respect to the center of the through hole to receive the light emitted by the light emitting unit.
3. The method of claim 2
The plurality of light emitting units and the plurality of light receiving units are gathered in a partial area of the inner surface of the through hole to form a pest detection area.
3. The method of claim 2
The pest detection device,
The pest detection system, which is located inside the housing, and further includes a pest attracting unit configured to attract pests to the interior of the housing by irradiating light.
5. The method of claim 4
The pest detection device,
The pest detection system, which is located inside the housing, further comprising a trap for catching pests introduced into the housing through the through hole.
2. The method of claim 1
The signal processing unit,
Pests that input the pest detection signal received from the pest detection device as a time value over time, measure and store time value change information according to a change in the pest detection signal, and convert the pest detection signal into time information detection system.
7. The method of claim 6
The signal processing unit
an amplifier circuit for increasing the intensity of the pest detection signal received from the pest detection device; and
The pest detection system further comprising a filter for extracting only the pest detection signal by removing noise from the signal received from the pest detection device.
2. The method of claim 1
The management unit,
an analysis unit for analyzing the pest identification based on the time information converted by the signal processing unit; and
a storage unit for building and accumulating a database of pest identification information analyzed by the analysis unit;
Including, a pest detection system.
9. The method of claim 8
The analysis unit,
A pest detection system that analyzes information about pest identification, such as the time the pest has passed, the movement of the pest, the size of the pest and the type of pest.
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