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KR-20260066268-A - Preparing infrastructure for eco-camping development project

KR20260066268AKR 20260066268 AKR20260066268 AKR 20260066268AKR-20260066268-A

Abstract

Development of a system to achieve power self-sufficiency within the campsite by utilizing natural energy sources such as solar and wind power. Water recycling and management technology: Measures for the efficient use of water resources and reduction of consumption through rainwater collection, purification, and recycling systems. Eco-friendly architecture and design: Designing camping facilities and structures using sustainable materials, and spatial arrangements that consider harmony with nature. Smart camping technology: Utilizing IoT-based smart devices for facility monitoring, reservation systems, and enhanced user convenience. Ecological conservation technology: Programs and facilities to protect the ecosystem surrounding the campsite, summarized as measures for preserving native plants and maintaining wildlife habitats.

Inventors

  • 김홍빈
  • 김정균
  • 백지연
  • 김윤정
  • 도솔아
  • 조현범
  • 고예슬
  • 선정민

Assignees

  • 주식회사 지역연구소플랜플러스

Dates

Publication Date
20260512
Application Date
20241104

Claims (1)

  1. "An eco-camping infrastructure that utilizes renewable energy sources (e.g., solar or wind power) to supply electricity and includes a rainwater collection and recycling system to minimize water consumption, wherein the infrastructure is composed of facilities and devices designed to provide users with a sustainable camping experience in harmony with nature, and is characterized in that energy and water management for all facilities (e.g., lighting, showers, restrooms, etc.) within the campsite is integrated."

Description

Preparing infrastructure for eco-camping development project Various technologies can be applied in the field of invention and technology for the Eco-Camping Development Project to provide a sustainable camping experience that considers the environment. Key technological areas related to this project include renewable energy technologies, such as the establishment of energy self-sufficiency systems within campsites utilizing solar, wind, and hydroelectric power, as well as power management through energy storage devices and smart grid technologies. Natural resource management technologies include rainwater collection and purification systems, which collect and purify rainwater for use within the campsite, as well as water purification and recycling systems utilizing natural water sources. Regarding eco-friendly construction and material technologies, key technical tasks include designing camping facilities such as tents, showers, and restrooms using sustainable materials (e.g., biodegradable and recycled materials) and constructing structures and facilities designed in harmony with nature. Additionally, smart campsite management systems utilizing IoT (Internet of Things) technology through smart camping are important tasks, such as monitoring and automatically controlling temperature, humidity, and air quality, and developing mobile apps for camper convenience (providing reservations, facility information, safety guidance, etc.). Ecosystem protection and management technologies include campsite design and management techniques to protect biodiversity, and boundary and surveillance systems for wildlife protection. Through the development of environmental education and experience programs for campers, campaigns and material production to raise awareness of the importance of environmental protection and eco-camping, and the application of these technologies, eco-camping development projects can contribute to achieving sustainable development that considers the environment. A system utilizing renewable energy infrastructure that enables self-sufficient power generation by installing solar panels throughout the campsite. This allows for a sustainable power supply for the campsite, and in windy areas, small wind turbines can be installed to generate additional electricity. It also includes a system that installs rainwater collection devices to store and purify natural water on rainy days, as well as technology to treat, purify, and reuse wastewater generated at the campsite. For instance, the design can purify water used in showers or drinking facilities for use in restrooms. Sustainable construction techniques minimize environmental impact by constructing facilities using sustainably produced materials (e.g., bamboo, recycled materials), and preserve natural landscapes by designing campsites with consideration for natural topography and vegetation. Sustainable transportation promotes eco-friendly modes of transport through measures such as installing electric vehicle charging stations and establishing bicycle paths. It also facilitates easier access for users by developing public transportation routes to the campsite. Monitoring System: CCTV and security systems are installed for the safety of the campsite, and a response system is established to prepare for emergencies. Environmental Education and Signage: Signage regarding environmental protection and safety rules is installed throughout the campsite. These background technologies serve as a foundation for the successful implementation of the Eco-Camping development project and contribute to building environmentally friendly infrastructure for sustainable tourism. The most unsatisfactory aspects of camping for the respondents to the survey were found to be: none or no response (41.5%), lack of amenities (22.4%), poor cleanliness or deterioration of amenities (21.8%), distant amenities (4.1%), other (4.1%), cramped camping space (4.1%), lack of signage (3.4%), lack of camping spots (3.4%), insects and bugs (2.0%), and concentrated demand on weekends (2.0%). Conversely, the most satisfying aspects were: satisfied or no response (44.2%), abundant attractions such as natural scenery (43.5%), amenities such as shops and restrooms (8.8%), abundant nearby activities (4.1%), accessibility (3.4%), and other (0.7%). Specifically, we surveyed routes from the eastern mountainous region of Jeollabuk-do to the southwestern region. Based on the routes provided by the Jeonbuk Research Institute, we first conducted preliminary surveys using GIS and maps. After the routes were finalized, we carried out vehicle and field surveys in parallel. The surveys proceeded in the order of the eastern mountainous region, the southwestern region, and the northwestern region (hereinafter referred to as the Western region) in accordance with route consultations with each city and county. Ultimately, we surveyed a total of 62 routes, including 31 routes in the eastern mountainous region and 31