AT519027B1 - Device for growing plants - Google Patents

Abstract

The invention relates to a device (1) for growing plants, wherein the device (1) comprises a, in particular upwardly open, substrate enclosure (2) and a closure body (3), wherein the substrate enclosure (2) for receiving a substrate (4 ), which is suitable for the cultivation of plants, is formed, wherein above the substrate (4) an air space (5) is provided and the closure body (3) for closing this air space (5) is formed, wherein the device (1) a substrate environmental apparatus comprising a first heat device (7) adapted to receive and deliver heat energy, a heat exchanger (8) arranged in the substrate (4) for conveying a heat carrier, and a first pump (9) pumping the heat carrier through the substrate air conditioning apparatus comprises, whereby the substrate (4) is heated or cooled.

Description

description

DEVICE FOR GROWING PLANTS

The invention relates to a device for growing plants, wherein the device comprises a, in particular upwardly open, substrate enclosure and a closure body. The substrate enclosure is adapted to receive a substrate suitable for plant growth. Above the substrate, an air space is provided and the closure body is designed to close this air space.

A variety of devices for growing plants is known from the prior art. Among other things, devices are known which do not comprise climatic devices, whereby an optimal cultivation of plants is not possible. Especially with year-round use of generic devices must, in order to allow optimal rearing of plants, at warm and / or cold outside temperatures, the device be heated and / or cooled. This heating or cooling is usually carried out electrically in generic devices. A disadvantage of these devices, however, is that they have a high energy consumption.

Conventional devices are known for example from CN 202503966 U, CN 102986479 A, CN 103636436 A, JP 2002330641 A, WO 2007078235 A1, EP 2342968 A1 and CN 103190313 B.

From the cited CN 202503966 U, a greenhouse is known which comprises a solar panel arranged outside the solar collector, arranged in a greenhouse Heizwendelsystem, a geothermal energy using heat exchanger and a heat storage.

The object of the invention is therefore to overcome the disadvantages of the prior art. In particular, it is an object of the invention to provide a device for growing plants, with one, especially year-round, rearing of plants in a wider outdoor temperature range is possible. This includes in particular that the object of the invention is to provide a device in which heating and / or cooling of the substrate and / or the air space of the device is energy-efficiently possible. In particular, it is an object of the invention to provide a device which uses solar energy optimally, efficiently, as flexibly and material-saving for heating.

The object of the invention is achieved in particular by the features of independent claim 1.

Optionally, it may be provided that the device comprises a Substratklimavorrichtung comprising a trained for receiving and emitting thermal energy first heat device, arranged in the substrate, designed to carry a heat carrier heat exchanger and the heat carrier pumping through the Substratklimavorrichtung first pump , whereby the substrate is heated or cooled. The air space is thus either withdrawn or fed this heat. By the substrate climate device, it is possible to influence the temperature of the substrate and / or in the substrate enclosure. On the one hand, it is possible to heat the substrate by heat energy absorbed by the first heat device. In this case, the heat carrier is heated by the first heating device and then outputs the absorbed heat energy via the heat exchanger to the substrate.

On the other hand, however, the air space of the device can be heated with the Substratklimavorrichtung. In this case, the heat carrier is heated by the substrate and outputs the absorbed heat energy in the first heat device to the air space of the device. The device according to the invention thus makes it possible, depending on the temperature of the substrate and the air space, to heat or cool the substrate or the air space. The substrate may be soil and / or water and / or any plant-suitable substrate or the like.

Optionally, it may be provided that the Substratklimavorrichtung comprises a trained for receiving and storing the heat carrier first expansion tank.

By the first expansion tank, the heat carrier from the first heating device, in particular when the first pump is stopped, flow into this first expansion tank. This makes it possible to prevent freezing of the heat carrier in the first heating device. Thus, this is protected from damage. Furthermore, it is possible to arrange the first pump in the first expansion tank. In particular, it is provided that the line leading from the first heat device in the first expansion tank line is disposed above the heat transfer medium in the first expansion tank, so that the heat carrier at standstill of the first pump, driven by gravity, flows back into the first expansion tank.

Optionally, it may be provided that the device comprises a Luftraumklimavorrichtung, which is a heat carrier through the Luftraumklimavorrichtung pumping second pump, a arranged in the air space and designed for receiving and emitting heat energy second heating device and designed for receiving and storing the heat carrier second Compensating tank, whereby the air space is heated or cooled. By Luftraumklimavorrichtung the device, it is possible to heat or cool the air space of the device. If the temperature of the heat carrier in the second expansion tank is colder than that in the air space of the device, it is on the one hand possible to cool the air space of the device by the Luftraumklimavorrichtung. On the other hand, if the heat carrier in the second surge tank is warmer than the temperature in the air space of the apparatus, it is possible to heat the air space of the apparatus through the air space conditioning apparatus. In both cases, the heat transfer medium is pumped by the second pump through the second heating device and back into the second expansion tank. In the second heating device, either heat energy is released from the heat transfer medium to the air space, or heat energy is transferred from the air space to the heat transfer medium. The Luftraumklimavorrichtung is designed so that, especially at standstill of the second pump, the heat carrier located in the second heating device can flow into the second expansion tank. Thus, a freezing of the heat carrier in the second heating device is prevented and this protected by resulting damage.

In particular, the line which leads from the second heating device into the second expansion tank ends above the heat transfer medium in the second expansion tank. Thus, when the second pump stops, the second heating device automatically deflates and the heat carrier in the second heating device automatically flows into the second expansion tank.

Optionally, it may be provided that the device comprises a heat transfer air conditioning device, which comprises a third heat device designed for dispensing and receiving heat energy, designed as a heat storage second expansion tank and a heat carrier by the heat transfer air conditioning pump third pump, whereby the heat carrier is heated or is cooled. The heat transfer air conditioning device makes it possible to heat or cool the heat carrier in the second expansion tank. Here, the heat transfer medium located in the second expansion tank is pumped by the third pump in the third heat device. In the third heating device, heat energy absorbed by the third heating device is released to the heat carrier or heat energy from the heat carrier to the environment. The thus heated or cooled heat transfer medium can then be fed through the Luftraumklimavorrichtung the second heat device, which is arranged in the air space.

Thus, a cooling or heating of the air space, in particular in a wider outside temperature range, possible. The heat transfer air conditioning apparatus is configured such that, in particular when the third pump is at a standstill, the heat carrier located in the third heat device can flow into the second expansion tank. Thus, a freezing of the heat carrier in the third heat device is prevented and protected from damage. In particular, the line leading from the third heat device into the second expansion tank is arranged so that it ends above the heat transfer plate in the second expansion tank. Thus, an automatic drainage of the heat carrier is made possible and the third heating device empties itself at standstill of the third pump.

Optionally, it may be provided that a tube is arranged in the second expansion tank, which receives the heat leaving the second heater and supplies to the bottom of the second expansion tank, whereby a mixing of the heat carrier in, in particular the upper area of the second expansion tank is prevented , Thus, it is possible that the heat carrier has different temperatures in the second expansion tank.

In particular, it is provided that the second pump or the intake manifold of the second pump is located just below the heat transfer medium in the second expansion tank. Thus, it is possible that the second pump sucks in particular a heat carrier with a higher temperature, with which the air space of the device can be heated. In particular, it is also provided that the first pump or the intake port of the first pump is arranged at the bottom of the second expansion tank. Thus, it is possible to heat, in particular, a heat carrier having a low temperature by the heat transfer air conditioning apparatus.

Optionally, it can be provided that at least one temperature sensor is provided in the air space and / or in the substrate and / or in the heat exchanger and / or in the first heating device. This makes it possible to determine the temperature in the air space, and / or in the substrate and / or in the heat exchanger and / or in the first heating device.

Optionally, it can be provided that at least one temperature sensor is provided in the second expansion tank and / or in the second heating device. This makes it possible to determine the temperature in the second expansion tank and / or in the second heating device.

Optionally, it may be provided that at least one temperature sensor is provided in the third heating device. This makes it possible to determine the temperature in the third heat device.

Optionally, it can be provided that the first and / or the third heat device is designed as a solar collector or are.

This makes it possible that the first and / or the third heating device heats the heat carrier by solar energy and / or emits heat energy from the heat transfer medium to the air space and / or to the environment.

Optionally, it can be provided that the second thermal device is designed as a radiator. As a result, it is possible that the second heating device releases heat energy to the air space or receives it from the air space.

Optionally, it may be provided that the first and second heating device is designed as a common heating device, in particular as a combined solar collector with a radiator.

Optionally, it can be provided that the closure body, in particular made of a transparent material such as glass, plastic or the like.

Due to the design of the closure body, it is possible that the first heating device, which may be arranged in the air space of the device, can absorb solar energy. Furthermore, it can be provided that the closure body is a part of the substrate enclosure. Optionally, it may be provided that the closure body, in particular automatically opens at high temperatures of the air space and / or the substrate, in particular automatically.

The methods for heating and / or cooling the substrate and / or the air space arranged above the substrate and / or the heat transfer medium in the second expansion tank are described below: Method for heating and / or cooling the substrate, and / or [0028] determining temperature ranges, measuring the temperature of the substrate, of the air space and in the first heating device by means of temperature sensors, switching on the temperature range of the device arranged above the substrate by means of the substrate air conditioning device first pump, if the measured temperatures are in the predetermined temperature ranges, whereby the heat carrier, in particular from the first expansion tank and / or the heat exchanger of the substrate, is pumped through the heat exchanger of the substrate in the first heat device and back into the first expansion tank, so the substrate and / or the air dream of the device is heated or cooled.

Method for heating and / or cooling of the above the substrate arranged air space of the device by means of Luftraumklimavorrichtung, comprising the following steps: - Determination of temperature ranges, - Measuring the temperature of the air space and the heat carrier in the second expansion tank by means Temperature sensors, - Turning on the second pump, if the measured temperatures are in the predetermined temperature ranges, whereby the heat transfer medium from the second surge tank through the second heating device and back into the second surge tank, in particular in the tube of the second surge tank, is pumped so that the air space of the device is heated or cooled.

Method for heating and / or cooling of the heat carrier in the second expansion tank of the device by means of the heat transfer air conditioning apparatus, comprising the following steps: - Determination of temperature ranges, - Measuring the temperature in the third heat device and the heat carrier in the second expansion tank by means of temperature sensors, - Turning on the third pump, if the measured temperatures are in the specified temperature ranges, whereby the heat transfer medium from the second surge tank through the third heat pump and back into the second surge tank is pumped so that the heat carrier of the second surge tank heated or cooled.

Further features of the invention will become apparent from the claims, the description of the embodiments and the figures.

The invention will now be explained in more detail using the example of exemplary, non-exclusive, exemplary embodiments.

FIG. 1 shows a schematic flow diagram of a first embodiment of a device according to the invention; FIG. Fig. 2 is a schematic 3D representation of a first embodiment of a device according to the invention.

1 shows a flow diagram of the device 1 according to the invention. The substrate enclosure 2 is designed to accommodate a substrate 4. Above the substrate 4, an air space 5 is arranged. This air space 5 can be closed with a closure body 3. The closure body 3 is transparent and made of polycarbonate in this embodiment. The device 1 comprises a substrate air conditioning apparatus. The substrate air conditioning apparatus comprises a first heat device 7 designed to receive and deliver heat energy. This first heat device 7 is designed as a solar collector. The substrate air conditioning apparatus further comprises a heat exchanger 8 arranged in the substrate 4 and adapted to carry a heat carrier. Further, the substrate air conditioning apparatus comprises a first pump 9 pumping the heat carrier through the heat device 7 and the heat exchanger 8. In this embodiment, the substrate air conditioning apparatus also includes one for receiving The first expansion tank 10 is designed so that at standstill of the first pump 9, the heat carrier located in the first heat device 7 flows into the first expansion tank 10. Thus, a freezing of the heat carrier in the first heating device 7 is prevented and protected from damage. The leading from the first heat device 7 in the first expansion tank 10, the heat transfer line is located above the heat transfer medium in the first expansion tank 10. By the substrate-conditioning apparatus, it is possible to heat or cool the substrate 4 as well as the air space 5 of the apparatus 1.

It is possible to heat the substrate 4 with the heat energy transferred from the first heat device 7 to the heat carrier. But it is also possible that the heat transfer medium from the substrate 4 absorbs heat energy and releases it to the air space 5 of the device 1.

The apparatus 1 shown further comprises an air space conditioning apparatus comprising a second pump 12, a second heat device 13 and a second expansion tank 14. The second pump 12 pumps a heat carrier through the heat device 13, whereby the air space 5 is heated or cooled. The second heating device 13 is designed to receive and dispense heat energy. The second expansion tank 14 is designed for receiving and / or storing the heat carrier. By Luftraumklimavorrichtung it is possible to heat the air space 5 of the device 1 or to cool. On the one hand, heat energy can be released from the heat transfer medium via the second heat device 13 to the air space 5. On the other hand, it is also possible that the heat transfer medium 5 receives heat energy from the air space and thus cools the air space 5. The second heat device 13 is formed in this embodiment as a radiator. The second pump 12 is arranged just below the heat transfer medium in the second surge tank 14. The line which leads from the second heat device 13 into the second expansion tank 14, is arranged above the heat transfer plate and opens into a arranged in the second expansion tank 14 pipe 18. Thus, it is possible that the heat carrier located in the second heat 13, in particular Standstill of the second pump 12, flows into the second expansion tank 14. By arranged in the second expansion tank 14 pipe 18 is a mixing of the heat carrier, in particular upper region of the second surge tank 14, prevented because the exiting the second heat 13 heat transfer medium is supplied to the bottom of the second surge tank 14.

The device 1 further comprises a heat transfer air conditioning apparatus which is capable of heating or cooling the heat carrier. The heat transfer air conditioning apparatus comprises a third heat device 16, the second expansion tank 14 designed as a heat accumulator, and a third pump 17.

The third heat device 16 is designed for the delivery and absorption of heat energy and designed as a solar collector. The third pump 17 is configured to pump the heat carrier through the third heat device 16. The third pump 17 is disposed at the bottom of the second surge tank 14.

By Wärmeträgerklimavorrichtung it is possible, the heat carrier in the second

Heat equalizing tank 14 or to cool. On the one hand, the heat energy absorbed in the third heating device 16 can be transmitted to the heat carrier. On the other hand, heat energy can be released from the heat carrier in the third heating device 16 to the environment. The thus heated or cooled heat transfer medium can then be fed through the Luftraumklimavorrichtung the second heat device 13, which is arranged in the air space 5 of the device 1. In this embodiment, the first heat device 7 and the second heat device 13 are implemented as a common heat device 7, 13, as a combined solar collector with a radiator. By means of this combination of the heat devices 7, 13, the heated or cooled heat carrier of the second expansion tank 14 can heat or cool the heat carrier of the substrate climate device. Thus, cooling or heating of the substrate 4 and the air space 5 in a wider outside temperature range is possible. However, this heating or cooling depends on non-influenceable environmental factors, such as solar radiation from. The line leading from the third heat device 16 into the second expansion tank 14 is arranged above the heat transfer plate. Thus, a discharge of the heat carrier from the third heating device 16 is possible when the third pump 17 is stationary. As a result, a freezing of the heat carrier in the third heating device 16 is prevented and this protected from damage. Temperature sensors are provided in the air space 5 and in the substrate 4 of the device 1, in the compensation tanks 14, in the heat exchanger 8 and in the heat devices 7, 13, 16. With these temperature sensors, the temperature in the specified device parts can be determined. These specific temperatures are supplied to a control device, not shown, which controls and / or regulates the pumps 9, 12, 17. In addition, this control device is set up to carry out the described methods for heating and / or cooling the substrate 4 and / or the air space 5 and / or the heat carrier arranged above the substrate 4 in the second expansion tank 14.

2 shows a schematic 3D representation of a first embodiment of a device 1 according to the invention. The substrate border 2 is designed to receive a substrate 4 which is suitable for the cultivation of plants. Above the substrate 4, an air space 5 is arranged. This air space 5 can be closed with a closure body 3. The closure body 3 is transparent and made of polycarbonate in this embodiment. The apparatus 1 comprises a substrate air conditioning apparatus, an air space conditioning apparatus and a heat transfer air conditioning apparatus. These air conditioning devices are described in detail in the description of FIG. 1 with reference to the schematic flow diagram. The first heating device 7 and the second heating device 13 are arranged in the air space 5 of the device 1 above the substrate 4. In the substrate 4, the heat exchanger 8 of the Substratklimavorrichtung is arranged. In this embodiment, a tool shaft is provided in the substrate 4, in which the first pump 9 and the first expansion tank 10 of the Substratklimavorrichtung are arranged. The third heating device 16 of the heat transfer air conditioning device is arranged above the closure body 3. In addition to the substrate enclosure 2 of the device 1, the second expansion tank 14 is arranged. In this embodiment, the second pump 12, the third pump 17 and the pipe 18 are arranged in the second surge tank 14.

REFERENCE LIST 1 device 2 substrate enclosure 3 closure body 4 substrate 5 air space 7 first heating device 8 heat exchanger 9 first pump 10 first expansion tank 12 second pump 13 second heating device 14 second expansion tank 16 third heating device 17 third pump 18 pipe

Claims (12)

claims 1. Device (1) for growing plants, the device (1) comprising a, in particular upwardly open, substrate enclosure (2) and a closure body (3), wherein the substrate enclosure (2) for receiving a substrate (4), which is suitable for the cultivation of plants, is formed, wherein above the substrate (4) an air space (5) is provided and the closure body (3) for closing this air space (5) is formed, characterized in that the device (1 ) comprises a substrate air conditioning apparatus, which has a first heat device (7) designed to receive and release heat energy, whereby the air space (5) can be heated or cooled, a heat exchanger (8) arranged in the substrate (4) for conveying a heat carrier, whereby the substrate (4) can be heated or cooled, and a first pump (9) pumping the heat carrier through the substrate-conditioning device. 2. Device (1) according to claim 1, characterized in that the Substratklimavorrichtung comprises a receiving and / or storage of the heat carrier formed first expansion tank (10). 3. Device (1) according to claim 1 or 2, characterized in that the device (1) comprises a Luftraumklimavorrichtung comprising a heat transfer medium by the Luftraumklimavorrichtung second pump (12), one in the air space (5) arranged and for receiving and Delivery of thermal energy formed second heating device (13), and a trained for receiving and storing the heat carrier second expansion tank (14), whereby the air space (5) is heated or cooled. 4. Device (1) according to claim 3, characterized in that the device (1) comprises a heat transfer air conditioning device, which is designed for dispensing and receiving thermal energy third heat device (16) designed as a heat storage second expansion tank (14) and a Heat carrier by the heat transfer air conditioning device pumping third pump (17), whereby the heat carrier is heated or cooled. 5. Device (1) according to claim 3 or 4, characterized in that in the second expansion tank (14) a tube (18) is arranged, which receives the heat from the second device (13) exiting heat transfer medium and the bottom of the second expansion tank, whereby a mixing of the heat carrier in the second expansion tank (14) is prevented. 6. Device (1) according to any one of the preceding claims, characterized in that in the air space (5) and / or in the substrate (4) and / or in the heat exchanger (8) and / or in the first heating device (7) at least one temperature sensor is provided. 7. Device (1) according to one of claims 3 to 6, characterized in that in the second expansion tank (14) and / or in the second heating device (13) at least one temperature sensor is provided. 8. Device (1) according to one of claims 4 to 7, characterized in that in the third heating device (16) at least one temperature sensor is provided. 9. Device (1) according to one of the preceding claims, characterized in that the first and / or the third heating device (16) is designed as a solar collector or are. 10. Device (1) according to one of the preceding claims, characterized in that the second heating device (13) is designed as a radiator. 11. Device (1) according to any one of the preceding claims, characterized in that the first (7) and second heating device (13) as a common heat device (7, 13), in particular as a combined solar collector with radiator executed. 12. Device (1) according to any one of the preceding claims, characterized in that the closure body (3), in particular made of a transparent material such as glass, plastic or the like. For this 2 sheets of drawings