NL1039722C2 - INSTALLATION SYSTEM AND METHOD FOR A CASH. - Google Patents

Description

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Short indication: Installation system and working method for a greenhouse

The invention relates to a switch unit for a greenhouse, an installation system comprising such a switch unit, a greenhouse comprising such an installation system and a method for operating a consumer. Installations in greenhouses require the connection of a large number of electrical elements, such as lighting fixtures (for example lighting fixtures), heating elements, awnings, sprinklers, but also sensors such as humidity sensors, CO2 sensors, temperature sensors, etc. The various elements and sensors can be connected to a control, such as a climate computer, to compare measured values with desired values. The climate computer can use the comparison to control the various consumers, such as lighting, heating, nebulizers, etc., in order to create a desired growth environment in the greenhouse. The climate computer is generally provided with a plurality of interface cards, for example an interface card per sensor type and / or per user type, for example an interface card for the temperature sensors for reading in temperature data, etc. As a result, a large amount is generally available. wiring required to feed and control the various sensors and consumers. The higher the climate control requirements, the more complex the wiring will be in general.

A problem is that installing such installations is time-consuming and that changes to such installations, such as extensions, modifications, etc, are time-consuming and costly.

The object of the invention is to enable a simple change of installations in greenhouses.

To achieve this goal, the switching unit according to the invention comprises: - a 3-phase mains connection for connecting the switching unit to 3 phases of a 3-phase mains network, - an output connection for connecting the switching unit to an electrical consumer, - a controllable switch for connecting the output terminal to a phase of the 3-phase mains connection, - a control device for controlling the controllable switch, wherein the control device comprises a wireless communication unit for 1039722 -2 data communication, and the control device is arranged for controlling the controllable switch on the basis of data received via the wireless communication device.

By means of the switch unit, the electrical consumer, such as a lighting fixture (for example a lighting fixture), can easily be connected in a desired configuration. The consumer can be connected to a desired group of a 3-phase mains with the help of the switch unit. The consumer can also be switched on or off via the switch unit if desired. The switching unit, and thus the controllable switch of the switching unit, can be controlled via the wireless network. Controlling the controllable switch is thus possible without wiring having to be laid in the greenhouse for the purpose of such a control.

In a preferred embodiment, the switching unit further comprises at least one of a sensor connection and an actuator connection, the at least one of the sensor connection and the actuator connection being connected to the control device. This makes it possible to use the wireless network that has been created using the switch units to control a collection of data from sensors, actuators, etc. installed in the greenhouse.

Similar advantages as can be achieved with the switch unit according to the invention can also be achieved with an installation system according to the invention. The installation system for a greenhouse comprises: - at least two switching units according to the invention which, in use, form a wireless network, and - a 3-phase mains wiring connected to each switching unit.

The installation system may further comprise a system control device which is adapted to control the switch units via the wireless network on the basis of data concerning the load by the consumers connected to the switching units for distributing a total load over the 3 phases . The load can hereby be distributed over the phases of the mains, without having to change the wiring in the greenhouse or otherwise connected. The installation system can furthermore comprise a load measuring device connected to the 3 phases mains wiring, for measuring a load on each of the phases and providing data on the load on each of the phases to the system controller. The system controller can then control the switching units via the wireless network in such a way that the consumers are distributed over the phases of the mains wiring. The load can thus be automatically distributed over the phases, so that the phase, for example -3- are each loaded substantially equally. In addition to or instead of measuring the load by a load measuring device, the control devices of the switching units can be adapted to send data concerning the load by the consumer to the central control unit. When a certain type of consumer 5 is connected to the switch unit, information regarding the consumption of this consumer can be forwarded from the relevant switch unit to the central control. When, for example, a lighting fixture or a heating element is connected, and this is operated by the switching unit in a certain position (for example with a 50% duty cycle), then an indication of its consumption (in this example 50% of the consumption at full operation) can be sent to the central control so that an estimate of the consumption can be made on each of the phases, if desired without actual measurement.

The installation system may further comprise several lighting fixtures, each lighting fixture being connected via a respective switching unit to the 3-phase mains wiring, so that the lighting fixtures, which usually form a large part of the total electrical consumption of the installation, are simply and flexibly desired. can be distributed over the phases of the mains.

The consumers connected to the switch units are, for example, selected from: a lighting fixture, a spraying installation, a sunshade, a pump, a heating element, an air pump or any other consumer.

The sensors connected to the switching units are for instance selected from: a light sensor, a temperature sensor, a humidity sensor, a carbon dioxide sensor.

The control devices of the switch units can further be arranged to transmit data from one or more sensors connected to the switch units via the wireless network, so that the sensors can be connected with minimal wiring, since the transmission of the data to the central control via the wireless network that is formed by the switching units.

The installation system can further comprise a number of junction boxes, each switching unit being mounted in a respective junction box. The junction box with switch unit can then be connected to the mains wiring and to the consumer, sensor, etc., so that a simple and reliable installation is possible.

According to an aspect of the invention, a greenhouse for growing a crop is provided, comprising an installation system according to the invention.

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According to an aspect of the invention, a method is provided for operating at least two consumers, such as lighting fixtures, in a greenhouse, comprising: - connecting the consumers to a respective switching unit according to an aspect of the invention, - connecting the switching units on a 3-phase mains wiring, - the establishment of a wireless network with the switching units, and - the electrical connection of the consumers with one or more conductors of the 3-phase mains wiring by transmitting data to the switching units via the wireless network .

The same or similar effects can be achieved with the method as with the switching unit and installation system according to the invention.

The method according to the invention can further comprise: - measuring a load on each of the phases of the 3-phase mains wiring, and - controlling the switching units for distributing the consumers among the phases via the wireless network.

The method may further comprise: - connecting a sensor to one of the switching units, and - transmitting data comprising measurement data from the sensor via the wireless network, and - transmitting data comprising the measurement data via the transmitted data via the wireless network wireless network control of at least one of the consumers.

With the switch unit, the installation system and the method according to the invention, it is possible to set up an installation in a greenhouse efficiently and flexibly. A mains power cable, such as a 3-phase mains power cable, is laid in the greenhouse. Consumers, such as light fixtures, are each connected to the mains wiring via a switch unit. Sensors and other equipment are mounted in the greenhouse and either connected to a (for example already present) switch unit, or included in the wireless network via their own wireless communication unit. The installation of cabling in the greenhouse can thus be greatly reduced. Moreover, such a solution is easy to adapt: the conversion of lamps to a different phase can easily take place with software, the addition of, for example, additional sensors can easily be realized by, for example, connecting each sensor to a nearby switching unit. Sensors or other equipment can also be installed that have their own wireless communication unit, so that connection to a nearby switch unit can be dispensed with. In operation, various advantages can also arise: for example, if the lighting fixtures are connected via several switching units, for example a switching unit per lighting fixture or per group of 2 lighting fixtures - the lighting fixtures can be switched on and off individually (or per 5 switching unit) . This makes it possible to save energy on the one hand by turning off lighting that is not currently required (instead of switching on all lamps or a large number of lamps unnecessarily), and on the other improve growing conditions for the plants in the greenhouse by targeted operation (for example, switching on lighting) at the places where this is desired. All in all, it is possible with the switching unit, the installation system and the method according to the invention to obtain a very fine-meshed control of climate parameters (light, temperature, moisture, etc.) in the greenhouse, since equipment (such as lighting fixtures, awnings, etc) can be controlled individually via a respective switching unit and since the simple installation and communication via the wireless network makes it possible to connect a large number of sensors, so that fine-grained measurement and individual control are made possible.

Further advantages, effects and embodiments of the invention will become clear with reference to the accompanying drawing, in which a non-limiting exemplary embodiment is shown, in which:

FIG. 1 is a schematic view of a switching unit according to an aspect of the invention; and

FIG. 2 is a schematic view of an installation system according to an aspect of the invention.

Figure 1 shows a switching unit SU which is connected to 3 phases of a 3-phase mains network. The 3 phases can be connected to an electrical consumer via programmable switches PS, such as in this example a lighting fixture AR. By setting the programmable switches to different positions, the consumer can be connected between two of the phases of the mains, or switched off, for example by connecting the two connections of the consumer via the two switches with the same phase. The programmable switches (for example designed as relays, so-called "solid state relays", power transistors, or other switchable semiconductor elements) are controlled by a control device, such as a microcontroller, microprocessor 35 or other electronic control component. The control device is provided with a wireless communication unit for data communication in a wireless communication network (e.g. Zigbee, wireless LAN or any other wireless communication network). Further components, such as sensors (for example a light sensor, a CO2 sensor, a temperature sensor, a humidity sensor, etc.), can be connected to the switch unit and send measurement data via the control device thereof. Temperature sensor TS and light sensor LS 5 are shown in this example. It is also possible that one or more actuators (for example a heating element, a sunshade, a nebulizer) are connected to the control unit of the switch unit, to be controlled on the basis of data transmitted via the wireless communication network. The actuators can be directly controlled by the control device, or can be connected via one or more programmable switches PS of the switching unit.

Figure 2 shows a very schematic representation of an installation system. Several switching units SU are each connected to a mains network cabling LN, in this example a 3-phase mains network cabling. The mains wiring can be laid through the greenhouse. Each of the switch units is connected to a lighting fixture AR for supplying the respective fixture from the mains via the programmable switch of the respective switching unit SU. Each switching unit is equipped with a communication unit for wireless communication, for example a Zigbee or wireless LAN. The communication units of the switching units 20 can together form a wireless network for data communication. In particular when each fixture in the greenhouse is connected via its own switch unit, a large number of switch units is present in the greenhouse with which a fine-meshed wireless communication network can be formed. FIG. 2 further shows a system control SB, such as a control computer, which is also provided with a wireless communication unit. The switching units can communicate with the system controller SB via the wireless network. As shown in Fig. 2, further elements can be connected to the switching units, such as in the example shown a light sensor LS and a temperature sensor TS. The various elements in the greenhouse, such as lighting fixtures, temperature sensors and light sensors, one or a few of which are shown by way of example, but also actuators such as, for example, nebulizers, heating elements, fans and / or air motors, sunshades, ventilation valves, or other consumers, and / or sensors such as for example CO2 sensors, humidity sensors, outside temperature sensors, inside temperature sensors, light sensors, etc, can all exchange data via the wireless network. On the basis of the information obtained from the sensors, the system controller SB can control the actuators to achieve a desired situation. Via the wireless network, the actuators can, for example, each be individually addressable, so that they can each be individually controlled to achieve fine-meshed and precise control of desired quantities such as temperature, light, moisture, etc. The system control may comprise a separate computer, however, it is also possible that the system control is carried out at least partially distributed over the control units of (at least a part of) the switching units.

In order to distribute the total load in a desired manner over the different phases, a load measuring device can be provided which, for example, measures a total electrical load on each phase or performs a measurement of the relevant consumption per switching unit. On the basis of the measured consumption, one or more consumers can be switched to another phase via the switch of the relevant switching unit (s).

The installation of the installation system can take place as follows: the consumers (such as lighting fixtures) are each connected to a respective switching unit, and each switching unit is connected to the mains wiring installed or to be installed in the greenhouse. Each switching unit can be mounted in its own welding box. A wireless network is set up with the switching units. The consumers (such as lighting fixtures, heating elements, nebulizers, valves, awnings, etc.) can now be controlled collectively, per group or each individually by sending a corresponding data command via the wireless network. Further sensors can be connected to one or more of the switching units. Data comprising measurement data from the sensor can then be sent via the wireless network, and on the basis of the data sent comprising the measurement data, the consumers (or a part thereof) can be controlled via the wireless network. The installation system can thus be installed in a short time since only a small amount of wiring needs to be installed. Moreover, the system is flexible as extensions or changes can be implemented quickly.

1039722

Claims (15)

1. Switching unit for a greenhouse, comprising: - a 3-phase mains connection for connecting the switching unit to 3 phases of a 3-phase mains network, - an output connection for connecting the switching unit to an electrical consumer, - a controllable switch for connecting the output terminal with a phase of the 3-phase mains connection, - a control device for controlling the controllable switch, wherein the control device comprises a wireless communication unit for data communication, and the control device is adapted to control the controllable switch on the basis of data received via the wireless communication device. 2. Switching unit according to claim 1, further comprising at least one of a sensor connection and an actuator connection, wherein the at least one of the sensor connection and the actuator connection is connected to the control device. An installation system for a greenhouse, comprising: 20. at least two switching units according to any of the preceding claims that form a wireless network in use, and - a 3-phase mains wiring connected to each switching unit. 4. Installation system as claimed in claim 3, further comprising a system control device which is adapted for controlling the switching units via a wireless network from the consumers connected to the switching units for distributing a total load over the 3 phases. The installation system of claim 4, further comprising a load measuring device connected to the 3-phase mains wiring for measuring a load on each of the phases and providing data regarding the load on each of the phases to the system control device. 35 1039722 -9- Installation system according to one of claims 4 or 5, wherein the control devices of the switching units are adapted to send data concerning the load by the consumer to the central control unit. An installation system according to any of claims 3-6, further comprising a plurality of lighting fixtures, wherein each lighting fixture is connected to the 3-phase light grid wiring via a respective switching unit. Installation system as claimed in any of claims 3-7, wherein the consumers connected to the 10 switching units are selected from: a lighting fixture, a spraying installation, a sunshade, a pump, a heating element, an air pump. Installation system as claimed in any of claims 3-8, wherein sensors connected to the switching units 15 are selected from: a light sensor, a temperature sensor, a humidity sensor, a carbon dioxide sensor. 10. Installation system as claimed in any of claims 3-9, wherein the control devices of the switch units are further adapted to transmit data from one or more sensors connected to the switch units via the wireless network. The installation system of any of claims 3-10, further comprising a plurality of junction boxes, wherein each switch unit is mounted in a respective junction box. 25 12. Greenhouse for growing a crop, comprising an installation system according to one of claims 3 - 11. 13. Method for operating at least two consumers, such as lighting fixtures, in a greenhouse, comprising: - connecting the consumers to a respective switching unit according to one of claims 1-3, - connecting the switching units to a 3-phase mains wiring, - setting up a wireless network with the switching units, and 35. electrically connecting the consumers to one or more conductors of the 3-phase mains wiring by transmitting data to the switching units via the wireless network. -10- « 14. Method as claimed in claim 13, further comprising - measuring a load on each of the phases of the 3-phase mains wiring, and - controlling the switching units via the wireless network for distributing the consumers among the phases. 15. Method according to claim 13 or 14, further comprising - connecting a sensor to one of the switching units, and - transmitting data comprising measurement data from the sensor via the wireless network, and - on the basis of the transmitted data comprising controlling the measurement data via the wireless network of at least one of the consumers. 1039722