CZ32196U1 - A greenhouse for year-round organic aquaponic plant growing - Google Patents

Description

Greenhouse for year-round bio-aqua plant growing

Field of technology

The technical solution relates to a greenhouse for year-round bioacaponic plant cultivation, the operation of which is ecological and suitable for use in households, institutions, restaurants, etc.

Prior art

At present, greenhouses are used primarily for off-season cultivation of seasonal plants, as well as for inducing suitable growing conditions for non-regional plants, or for protecting plants grown from external influences. Greenhouses provide a controlled environment in which it is possible to set growing conditions according to the growing plan.

The components of a greenhouse usually include an underlay or foundation that is formed at least below the perimeter of the greenhouse, or in some cases below the entire area of the greenhouse. A beam structure is placed on the base, which is clad for at least part of the solar spectrum with a transparent material. In the beginning of building greenhouses, this transparent material was glass, hence the name greenhouse, but currently there are other alternatives to transparent materials used for glass, such as plastic foils, polycarbonate sheets, etc. Inside the greenhouse, there are flower beds for growing plants, or alternatively hydroponic tanks for growing plants using hydroponics. An example of the construction of a greenhouse is known, for example, from the Czech utility model CZ 000836 U.

The method of hydroponic cultivation is based on dissolving nutrients in water, which washes the root structures of plants planted in hydroponic tanks. The plants are either fixed in racks that hold them with root structures in a hydroponic tank, or the hydroponic tanks are filled with an inert material that does not serve to nourish the plants, but only to provide mechanical support to the root systems of the plants. The minimum grain coarseness of the inert material is chosen so that water with nutrients can flow freely, and at the same time the mechanical support of the plants is sufficient.

The disadvantages of greenhouses are that in order to maintain a controlled environment in the greenhouse for a long time, it is necessary to supply energy to the greenhouse, either in the form of light, heat or electricity for the operation of the greenhouse's electrical equipment.

As for the disadvantages of hydroponics, these are that the nutrients are supplied to the water in the form of concentrated bulk, or liquid, fertilizers. Dissolution of nutrients is therefore a professionally demanding activity, which requires knowledge of the correct dilution of fertilizers, knowledge of occupational safety when handling fertilizers, as well as knowledge of safe transport and storage of fertilizers. In a household with small children, safety requirements are even more demanding. In addition, many fertilizers are obtained by non-ecological means or chemical production. At the same time, it is disadvantageous that in the event of leakage of these concentrated fertilizers into the surrounding environment, a local environmental burden can occur.

The disadvantages of hydroponic plant cultivation are eliminated by aquaponic plant cultivation, in which a substantial part of the nutrients for hydroponic plant cultivation is excreted into the water by aquatic animals. Aquatic animals, especially fish, receive feed, which they convert into substances suitable for plant nutrition. The disadvantage of aquaponic plant cultivation is the absence of aquaponic greenhouses for year-round operation in households, restaurants and other institutions.

The task of the technical solution is to create a greenhouse for year-round bio-aqua plant growing, which would allow safe dissolution of nutrients in water, which would use nutrients obtained from bio

- 1 CZ 32196 UI way, which would be suitable for individual use in gardens, restaurants, institutions, etc., which would require a minimum of professional work and knowledge, and whose operation would have a small operating carbon footprint, thanks to the use of renewable energy sources.

The essence of the technical solution

The set task is solved by creating a greenhouse for year-round bioacvaponic plant cultivation according to the following technical solution.

The greenhouse for year-round bioacvaponic plant cultivation is equipped with at least one hydroponic tank for feeding the root systems of cultivated plants. Furthermore, it is provided with at least one tank for fish farming, which is connected to a hydroponic tank via a circulation circuit from the water supply line.

The essence of the technical solution lies in the fact that the greenhouse is equipped with at least one source of renewable energy from the group of photovoltaic panels, wind power plant, for powering the electrical equipment of the greenhouse, especially for powering the circulation circuit.

Greenhouse fish farming brings ecological and health-friendly dissolution of nutrients into the water for aquaponics in the form of fish droppings. This eliminates the disadvantages of the chemical concentrates used so far, as described in the previous chapter. In addition, fish feed is healthy from a health and ecological point of view. Preferably, the greenhouse operator obtains from the operation of the greenhouse not only plant products but also fish meat. At the same time, the provision of a greenhouse as a source of renewable energy is also very beneficial, as the greenhouse is energy self-sufficient for most of the time, with exceptions caused by bad weather, for example.

The greenhouse allows year-round bio-caponic cultivation of plants without the use of unwanted chemicals, in addition, its operation is ecological and environmentally friendly.

It is advantageous if the greenhouse is equipped with a heat pump for heating the interior of the greenhouse or heating the water. Especially if the greenhouse is equipped with underfloor heating connected to a heat pump. The operation of a heat pump requires less electricity, which can be provided from renewable sources, so it is possible to maintain a controlled environment in the greenhouse for plant growing and fish farming in more climatically demanding areas, or it is possible to grow more delicate plants and breed exotic fish.

In another advantageous embodiment of the greenhouse according to the technical solution, the greenhouse is equipped with a battery storage of electric energy. The battery storage stores the excess electricity obtained from renewable sources, thanks to which it is possible to bridge outages or a decrease in electricity production, eg in case of bad weather, etc.

Furthermore, it is advantageous if the greenhouse is equipped with an automatic shading system which effectively protects the plants from burning by too intense sunlight. The system automatically limits the penetration of light into the greenhouse so that there is a constantly controlled environment in the greenhouse, not only in terms of interior temperature, but also in terms of lighting conditions.

Preferred embodiments of the greenhouse according to the technical solution include a greenhouse which is equipped with a rainwater retention tank, the retention tank being connected to a circulation circuit. In drought areas, the use of rainwater to supply the greenhouse is of great benefit.

Last but not least, it is advantageous if the greenhouse is equipped with an artificial lighting system which serves to supply the plants with light on less light-rich days, for example in the winter months.

In another preferred embodiment of the greenhouse according to the technical solution, the greenhouse is equipped

-2GB 32196 UI fish feed dispenser arranged next to the fish farming tank. Preferably, the fish feed dispenser is provided with an automatic control unit or a remote controlled control unit. The dispenser automatically feeds the fish in the tank according to the time schedule, while it is possible to control the operation of the dispenser and monitor the status of the dispenser also by remote access.

Other advantageous embodiments of the greenhouse according to the technical solution include a greenhouse which is equipped with a ventilation system. The ventilation system has a dual meaning: firstly, it lowers the temperature inside the greenhouse on hot days, and secondly, it controls the humidity inside the greenhouse, thus preventing the growth of pathogenic plants and microorganisms, especially fungi.

It is furthermore advantageous if the greenhouse is equipped with at least one insect refuge. Insects are an integral part of plants and are an important factor for their healthy growth and development. If the greenhouse is provided with a refuge, insects are much more likely to remain in the greenhouse and have a positive effect on plant health.

In another preferred embodiment of the greenhouse according to the technical solution, the greenhouse is equipped with at least one battery charger. The battery charger can be used to recharge garden and DIY tools, mobile phones, bicycles with an electric motor, etc. In addition, it is possible to use excess electricity to recharge eg electric car batteries.

Another advantageous embodiment of the greenhouse according to the technical solution provides the greenhouse with at least one storage space. The storage space can partially serve as a technical room, as a warehouse for feed, seeds, tools, etc.

Other advantageous embodiments of the greenhouse according to the technical solution include a greenhouse which is provided with at least one operating unit. The operating unit is provided with means for connection to a computer network and at the same time is connected to at least one sensor for sensing physical quantities inside or outside the greenhouse. The operating unit monitors the state of the controlled environment in the greenhouse, or also checks the state of the external environment. The greenhouse operator can monitor the information via remote access via the Internet or within a private computer network.

Preferably, the operating unit is wired or wirelessly connected for remote operation with at least one greenhouse equipment from the group of circulating circuit, photovoltaic panels, wind turbine, heat pump, battery storage, automatic shielding system, artificial lighting system, fish feed dispenser control unit, ventilation system, battery charger, webcam, alarm. Thanks to the operating unit, it is possible to remotely control the operation of greenhouse equipment, the condition of the greenhouse and the controlled environment.

The advantages of a greenhouse for year-round bio-capponic plant cultivation according to the above technical solution include energy self-sufficiency based on the use of renewable energy sources, ensuring organic growing conditions, safe operation in the absence of chemicals, controlled environment in a greenhouse for year-round plant and fish farming, and remote control and monitoring of the greenhouse using a smartphone, computer or tablet.

Explanation of drawings

The mentioned technical solution will be explained in more detail in the following figures, where:

Fig. 1 shows a simplified axonometric view of a greenhouse according to the technical solution.

Example of implementing a technical solution

It is understood that the specific cases of technical solution implementation described and illustrated below are

-3GB 32196 UI presented for illustration only, not as a limitation of the technical solution to the examples given. Those skilled in the art will find, or be able to ascertain using routine experimentation, a greater or lesser number of equivalents to the specific embodiments of the technical solutions described herein.

Fig. 1 shows one of the possible embodiments of the greenhouse L. The greenhouse 1 is built on a concrete foundation slab 7, and is formed by a supporting structure 8 made of steel or aluminum beams. The filling of the mantle of the greenhouse 1 is realized by glass panes. Part of the greenhouse 1 is a storage space 6 having a non-transparent cladding, e.g. of sheet metal with a stainless steel surface treatment. Photovoltaic panels 4 are installed on the roof of the greenhouse 1, serving as one of the sources of renewable energy. Another source of renewable energy for the greenhouse 1 is a wind power plant 5, which is fixed to the base 7 of the greenhouse 1 or to the supporting structure 8 of the greenhouse 1.

In other non-illustrated embodiments of the greenhouse 1 according to the technical solution, a storage space 6 may be formed on the north side of the greenhouse 1 to form cold wind protection, furthermore the photovoltaic panels 4 may be arranged according to any design, and at the same time against the moving sun in the daytime sky. Wind turbines 5 can also be used in larger numbers, with different shapes of wind blades, this being again subject to the final arbitrary design of the greenhouse L

The hydroponic tanks 2 are made of plastic, stainless steel or ceramic, and are connected by means of a circulation circuit 3 of a plastic water line to a tank for fish farming. The tank for fish farming can be a pool made in the base 7 of the greenhouse, or a plastic or metal container. Circulation circuit 3 is equipped with electric pumps for driving water. In addition, a retention tank (not shown) for retaining rainwater is connected to the circulation circuit 3, into which a gutter drain gutter for the greenhouse 1 or another gutter gutter is introduced.

In the base 7 of greenhouse 1 there is a built-in underfloor heating, which is connected to a heat pump. At the same time, a heater can be connected to the heat pump to heat the water in the fish farming tank.

Renewable energy sources are connected to the pumps of the circulation circuit 3 for their power supply, the excess electrical energy being stored in an electrical energy storage formed by a "battery box". Other technological equipment of the greenhouse 1 is also connected to the electricity storage, including other accessories such as a battery charger for hand-held power tools, a mobile phone charger, etc.

The greenhouse 1 is provided with an automated shading system, which includes roller shutters provided with a stepping electric motor, or aluminum or plastic blinds connected to an electrically operated drive. Furthermore, the greenhouse 1 is provided with artificial lighting, both for comfortable work in the evening and for lighting plants and fish on low light days. Artificial lighting consists of LED lighting or fluorescent lamps. Part of the equipment of greenhouse 1 is an electronic luxmeter, according to which the system of automatic shading and operation of artificial lighting is set.

The greenhouse 1 is provided with a ventilation system comprising electric opening of windows and doors, further comprising at least one fan, either located in the greenhouse 1 for indoor air circulation, or from the outside to its casing for blowing outside air into the greenhouse L

The fish farm is equipped above the water level with a fish feed dispenser, which is either operated manually or works automatically, according to a scheduled schedule, or by means of a remotely sent electronic instruction. The feed dispenser consists, for example, of a conical hopper in a constriction equipped with an electrically operated flap. The operation of the feed dispenser is controlled by a control unit equipped with, for example, a GSM module.

At least one insect refuge, such as a bee hive, a bumblebee, can be located in the greenhouse 1

-4CZ 32196 UI hive, commercially sold insect hotel etc.

Last but not least, the greenhouse 1 is equipped with an operating unit consisting of, for example, a tablet with a wireless internet connection or a private network. The operating unit is connected to sensors located inside and outside the greenhouse. to air temperature, water, humidity, anemometer, etc. In addition, the operating unit can be connected wirelessly or wired to the control of renewable energy sources, to the pumps of the circulation circuit 3, to the heat pump, to the electrical energy storage, to the control of the automatic shielding system, to the control of the artificial lighting system, to the feed dispenser control unit. ventilation system, with webcam, with alarm, etc.

The operating software, which is stored in its data storage, is running in the operating unit. In addition to managing the operation of the greenhouse 1, the software allows the exchange of information with a user application that is installed on a mobile phone, computer, personal tablet, etc. The user can remotely monitor the traffic and the situation in the greenhouse 1 via his device, can take video recordings via a webcam, can enter into the planned traffic management and make changes.

Industrial applicability

The greenhouse for year-round bio-aqua-growing cultivation of plants according to the technical solution will find application in plant production, especially for small-volume cultivation in the gardens of family houses, restaurants, institutions, etc.

Claims (15)

CLAIMS FOR PROTECTION A greenhouse (1) for year-round bioacaponic plant cultivation provided with at least one hydroponic tank (2) for feeding root systems of cultivated plants and at least one fish farm tank which is connected to the hydroponic tank (2) via a water circuit ), characterized in that the greenhouse (1) is provided with at least one source of renewable energy from the group photovoltaic panel (4), wind power plant (5), for supplying the electrical equipment of the greenhouse (1), in particular for supplying the circulation circuit (3). Greenhouse according to claim 1, characterized in that it is equipped with a heat pump for heating the interior of the greenhouse or heating the water. Greenhouse according to claim 2, characterized in that it is equipped with underfloor heating connected to a heat pump for heat supply. Greenhouse according to one of Claims 1 to 3, characterized in that it is equipped with a battery storage of electrical energy. Greenhouse according to one of Claims 1 to 4, characterized in that it is equipped with an automatic shading system. Greenhouse according to one of Claims 1 to 5, characterized in that it is equipped with a rainwater retention tank, the retention tank being connected to the circulation circuit (3). Greenhouse according to one of Claims 1 to 6, characterized in that it is equipped with an artificial lighting system. Greenhouse according to one of Claims 1 to 7, characterized in that it is equipped with a fish feed dispenser arranged next to a fish farming tank. -5 CZ 32196 UI Greenhouse according to Claim 8, characterized in that the fish feed dispenser is provided with an automatic control unit or a remote-controlled control unit. Greenhouse according to one of Claims 1 to 9, characterized in that it is equipped with a ventilation system. Greenhouse according to one of Claims 1 to 10, characterized in that it is equipped with at least one insect refuge. Greenhouse according to one of Claims 1 to 11, characterized in that it is equipped with at least one battery charger. Greenhouse according to one of Claims 1 to 12, characterized in that it is provided with at least one storage space (6). Greenhouse according to one of Claims 1 to 13, characterized in that it is provided with at least one operating unit provided with means for connection to a computer network which is connected to at least one sensor for sensing physical quantities inside or outside the greenhouse (1). Greenhouse according to claim 14, characterized in that the operating unit is wired or wirelessly connected for remote operation with at least one greenhouse equipment (1) from the group of circulation circuit (3), photovoltaic panels (4), wind turbine (5) , heat pump, battery storage, automatic shielding system, artificial lighting system, fish feed dispenser control unit, ventilation system, battery charger, webcam, alarm.