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KR-102962722-B1 - Pest Control Device

KR102962722B1KR 102962722 B1KR102962722 B1KR 102962722B1KR-102962722-B1

Abstract

The pest control device includes a support body having a rod shape arranged along one edge area of an opening including a building entrance, and a laser generator having a plurality of laser output units arranged at predetermined intervals along the longitudinal direction of the support body and outputting a laser from one side of the opening area to the other.

Inventors

  • 윤윤석

Dates

Publication Date
20260511
Application Date
20230705

Claims (5)

  1. In a pest control device, A support body having a rod shape arranged along one edge area of an opening including a building entrance; A laser generator having a plurality of laser output units arranged at predetermined intervals along the longitudinal direction of the support body and outputting a laser from one side of the opening/closing area to the other side; An opening/closing detection sensor that detects whether the above opening/closing opening is open or closed; A user detection sensor that detects a user approaching the above-mentioned opening/closing area; One side is rotatably supported on the support body, and the other side is a rotatable support member that supports the plurality of laser output units; A rotary drive unit that rotates the above-mentioned rotary support unit; and A pest control device characterized by comprising: a control unit that controls the laser generator so that a laser is output from the plurality of laser output units when detection is made from either the opening/closing detection sensor or the user detection sensor, wherein the rotation drive unit that rotates the laser generator is also controlled, and at least one of the plurality of laser output units is controlled so that a laser is output across the others while overlapping.
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Description

Pest Control Device The present invention relates to a pest control device, and more specifically, to a pest control device capable of efficiently repelling mosquitoes entering indoors. A pest control device refers to a device used to eliminate or control pests or harmful animals. Such devices can be used in various forms and for various purposes, and are primarily used in agricultural, domestic, and commercial environments. In households, electronic fly swatters or mosquito repellents are primarily used to combat pests such as bugs, mosquitoes, and flies. These devices work by killing pests through electric shocks. Some mosquito repellents use insecticides to attract and hunt mosquitoes. In agriculture, various pest control devices are used to protect crops from pests. For example, insecticides sprayed to control pests on crops may be used, or UV lights or traps may be used to prevent diseases and pests such as white cane disease or mold. Furthermore, in commercial environments, specialized devices or services are provided to combat pests. These devices primarily operate by blocking the entry of pests or capturing them. For example, barrier nets or photocopiers may be used to prevent harmful insects or small animals from entering through doorways. Additionally, pest control services utilizing hazardous chemicals or biological methods are offered. Meanwhile, lasers are also used to eliminate pests such as mosquitoes. However, these laser pest control devices are installed outdoors, which presents a problem of very low pest control efficiency. Although insect screens are installed to prevent pests such as mosquitoes from entering indoors, pests such as mosquitoes still enter the building while users are passing through the doors, so countermeasures are required. Prior Art: Korean Published Patent Application No. 10-2010-0036417 (Published April 8, 2010) delete Figure 1 is an example diagram of the laser output of a pest control device according to the present invention. Figure 2 is an operation diagram of a pest control device. Figure 3 is an operation diagram of a pest control device based on user detection. Figure 4 is a rotational operation diagram of the laser output unit. Figure 5 is a control block diagram of a pest control device. Hereinafter, a pest control device (1) according to a preferred embodiment of the present invention will be described in detail with reference to the attached drawings. FIG. 1 is an example of a laser output of a pest control device (1) according to the present invention, FIG. 2 is an operation diagram of a pest control device (1), FIG. 3 is an operation diagram of a pest control device (1) according to user detection, FIG. 4 is a rotational operation diagram of a laser output unit (23), and FIG. 5 is a control block diagram of a pest control device (1). The configuration of the pest control device (1) is explained with reference to FIGS. 1 to 5. The pest control device (1) includes a support body (10), a laser generator (20), an opening/closing detection sensor (30), a user detection sensor (40), a rotating support part (50), a rotating driving part (60), a mosquito repellent spraying device (70), and a control part (80). The support body (10) has a rod shape so as to be arranged along one side edge area of the opening and closing opening that includes the entrance of the building. The laser generator (20) includes a generator body (21), an optical fiber (22), and a laser output unit (23). The generator body (21) is a body for generating a laser. Here, the generated laser is harmless to humans but harmful to pests. The optical fiber (22) provides a path for moving the generated laser to the laser output unit (23). The laser output unit (23) is arranged at predetermined intervals along the longitudinal direction of the support body (10) and is configured to output a laser from one side of the opening/closing area to the other side. The laser output unit (23) may be provided in multiple numbers and includes a first output unit (231), a second output unit (232), a third output unit (233), and a fourth output unit (234). The first output unit (231), the second output unit (232), the third output unit (233), and the fourth output unit (234) may be configured identically, and the laser moved by the optical fiber (22) is output to cover the entire opening/closing area of the opening/closing port. The opening/closing detection sensor (30) can detect whether the opening/closing opening is open or closed. The user detection sensor (40) can detect a user approaching the opening/closing area. One side of the rotational support member (50) is rotatably supported on the support body (10), and the other side can support a plurality of laser output members (23). The rotational support member (50) includes a first rotational support member (51), a second rotational support member (52), a third rotational support member (53), and a fourth rotational support member (54). The first rotational