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公开(公告)号:US11612158B2
公开(公告)日:2023-03-28
申请号:US16964957
申请日:2019-01-25
摘要: A water movement system and method configured to eradicate and/or control mosquito or insect populations that lay eggs in treated, stagnant water environments. The system is comprised of a water pump configured to function in cooperation with an underwater insect attractant device. The insect attractant device is suitably constructed to generate carbon dioxide for attracting insects to a water extermination zone or trap. In one embodiment, the underwater insect attractant device contains organisms such as mycelia for generating the carbon dioxide. Insects are attracted by the carbon dioxide generation device to reproduce in the water extermination zone, using the treated water to lay eggs, and grow larvae and pupae for the subject insects. A solar-powered water pump device is configured to direct the flow of water from the water extermination zone toward filters of the water pump device to trap and kill insect progeny including eggs, larvae, and pupae.
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公开(公告)号:US09854745B2
公开(公告)日:2018-01-02
申请号:US15479245
申请日:2017-04-04
摘要: A consumer product for supplementing carbon dioxide is provided with delayed activation control in the form of a clamp. A bag, having a top and a bottom seal and a filter, contains a mycelial mass prepared under sterile laboratory conditions using aseptic techniques. The bag may be selectively clamped at various locations on its exterior. During manufacturing, the mycelial mass is sealed away from the air exchange portal by the clamp. The manipulation delays the optimized carbon dioxide generation and extends the product shelf-life significantly. The fungi are utilized on-demand by removal of the clamp and carbon dioxide flows from the product. Consumers will place the product near indoor plants. The precise clamping method delays the expiration of the product for storage and shipping optimization. The clamp is relocated to the top of the bag in order to provide a hanger for the carbon dioxide generator above plant level.
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公开(公告)号:US20180295830A1
公开(公告)日:2018-10-18
申请号:US15954438
申请日:2018-04-16
CPC分类号: A01M1/023 , A01K61/85 , A01K63/042 , A01M1/106 , Y02A50/371
摘要: A delivery device and system to supplement CO2 in an underwater environment without the need for electricity or the use of compressed CO2. The device consists of a container containing a biological organism such as mycelium and including an exit portal for CO2 to enter the underwater environment. The device may also incorporate a separation device to delay and control the flow of CO2. The system requires the device to be held in place through a securing point in the underwater environment. The minimum requirements for the device are described, but in certain instances it will be preferably used with a double-bag or an outer shell housing to protect or aesthetically conceal the placement underwater. The use of this device and system to supplement carbon dioxide in water will span many industries and applications. It will assist with mosquito trapping. It will also supplement CO2 in underwater growing environments.
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公开(公告)号:US20170181381A1
公开(公告)日:2017-06-29
申请号:US15452360
申请日:2017-03-07
摘要: A consumer product for supplementing carbon dioxide is provided with delayed activation control in the form of a clamp. A bag, having a top and a bottom seal and a filter, contains a mycelial mass prepared under sterile laboratory conditions using aseptic techniques. The bag may be selectively clamped at various locations on its exterior. During manufacturing, the mycelial mass is sealed away from the air exchange portal by the clamp. The manipulation delays the optimized carbon dioxide generation and extends the product shelf-life significantly. The fungi are utilized on-demand by removal of the clamp and carbon dioxide flows from the product. Consumers will place the product near indoor plants. The precise clamping method delays the expiration of the product for storage and shipping optimization. The clamp is relocated to the top of the bag in order to provide a hanger for the carbon dioxide generator above plant level.
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公开(公告)号:US20240081313A1
公开(公告)日:2024-03-14
申请号:US18513202
申请日:2023-11-17
CPC分类号: A01M1/023 , A01K61/85 , A01K63/042 , A01M1/106 , Y02A50/30
摘要: A delivery device and system to supplement CO2 in an underwater environment without the need for electricity or the use of compressed CO2. The device consists of a container containing a biological organism such as mycelium and including an exit portal for CO2 to enter the underwater environment. The device may also incorporate a separation device to delay and control the flow of CO2. The system requires the device to be held in place through a securing point in the underwater environment. The minimum requirements for the device are described, but in certain instances it will be preferably used with a double-bag or an outer shell housing to protect or aesthetically conceal the placement underwater. The use of this device and system to supplement carbon dioxide in water will span many industries and applications. It will assist with mosquito trapping. It will also supplement CO2 in underwater growing environments.
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公开(公告)号:US09867337B2
公开(公告)日:2018-01-16
申请号:US15452360
申请日:2017-03-07
摘要: A consumer product for supplementing carbon dioxide is provided with delayed activation control in the form of a clamp. A bag, having a top and a bottom seal and a filter, contains a mycelial mass prepared under sterile laboratory conditions using aseptic techniques. The bag may be selectively clamped at various locations on its exterior. During manufacturing, the mycelial mass is sealed away from the air exchange portal by the clamp. The manipulation delays the optimized carbon dioxide generation and extends the product shelf-life significantly. The fungi are utilized on-demand by removal of the clamp and carbon dioxide flows from the product. Consumers will place the product near indoor plants. The precise clamping method delays the expiration of the product for storage and shipping optimization. The clamp is relocated to the top of the bag in order to provide a hanger for the carbon dioxide generator above plant level.
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公开(公告)号:US20150250103A1
公开(公告)日:2015-09-10
申请号:US13032324
申请日:2011-02-22
摘要: Carbon dioxide benefits plants in restricted indoor growing areas. Plants will deplete carbon dioxide levels in an indoor environment over time. The present invention provides a process design, system, and apparatus for a controlled, non-electrical, non-heat generating, non-mechanical, production source of CO2. The source of CO2 is fungi inoculated into a scientifically sterilized, enclosed growth medium prepared in a laboratory setting. The fungi is provided with an optimum food source from which the fungi may produce CO2 for at least six months. The CO2 produced is passively transferred from the fungi growing environment to an indoor plant growing environment under the optimization of the present invention. The transfer is non-electrical and preferably occurs through a gaseous interchange portal system which provides an interface between the fungi's enclosed plastic bag and the surrounding plant-growing environment.
摘要翻译: 二氧化碳对限制室内生长区域的植物有益。 随着时间的推移,植物将在室内环境中消耗二氧化碳水平。 本发明提供了一种用于受控的,非电的,非发热的,非机械的,生产的二氧化碳源的工艺设计,系统和装置。 CO 2的来源是将真菌接种到在实验室中制备的科学灭菌的封闭的生长培养基中。 为真菌提供了最佳的食物来源,真菌可以从中产生至少六个月的二氧化碳。 在本发明的优化下,将生成的CO 2从真菌生长环境被动地转移到室内植物生长环境中。 转移是非电的并且优选通过气体交换门系统发生,其提供真菌封闭的塑料袋和周围植物生长环境之间的界面。
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公开(公告)号:US20210037802A1
公开(公告)日:2021-02-11
申请号:US16964957
申请日:2019-01-25
摘要: A water movement system and method configured to eradicate and/or control mosquito or insect populations that lay eggs in treated, stagnant water environments. The system is comprised of a water pump configured to function in cooperation with an underwater insect attractant device. The insect attractant device is suitably constructed to generate carbon dioxide for attracting insects to a water extermination zone or trap. In one embodiment, the underwater insect attractant device contains organisms such as mycelia for generating the carbon dioxide. Insects are attracted by the carbon dioxide generation device to reproduce in the water extermination zone, using the treated water to lay eggs, and grow larvae and pupae for the subject insects. A solar-powered water pump device is configured to direct the flow of water from the water extermination zone toward filters of the water pump device to trap and kill insect progeny including eggs, larvae, and pupae.
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公开(公告)号:US10827736B2
公开(公告)日:2020-11-10
申请号:US15954438
申请日:2018-04-16
摘要: A delivery device and system to supplement CO2 in an underwater environment without the need for electricity or the use of compressed CO2. The device consists of a container containing a biological organism such as mycelium and including an exit portal for CO2 to enter the underwater environment. The device may also incorporate a separation device to delay and control the flow of CO2. The system requires the device to be held in place through a securing point in the underwater environment. The minimum requirements for the device are described, but in certain instances it will be preferably used with a double-bag or an outer shell housing to protect or aesthetically conceal the placement underwater. The use of this device and system to supplement carbon dioxide in water will span many industries and applications. It will assist with mosquito trapping. It will also supplement CO2 in underwater growing environments.
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公开(公告)号:US10512223B2
公开(公告)日:2019-12-24
申请号:US15871710
申请日:2018-01-15
摘要: A consumer product for supplementing CO2 is provided with delayed activation control and multiple chambers formed by folding and clamping or with multiple clamps. A bag, having a top and a bottom seal and a filter, contains organisms and food substrate, each prepared under sterile laboratory conditions using aseptic techniques. The bag may be selectively clamped at various locations on its exterior. The mycelial mass having mycelia and food, or mycelia separate from the food may be sealed or partially sealed away from the air exchange portal by clamps or folds. With selective chamber isolation, the organisms are manipulated to delay optimized carbon dioxide generation. Utilizing the present invention will extend the product shelf-life, delaying the expiration of the product for storage and shipping. The fungi are utilized on-demand by removal of the clamp and carbon dioxide flows from the product. Consumers will place the product near indoor plants.
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