JPH0327219A - Central control device in plant rearing circumference in greenhouse - Google Patents

Abstract

PURPOSE:To facilitate handling of a device in inexpensive equipment cost and simple equipment by combining specific two devices with temperature sensor; converting device and microcomputer for circumference control so as to carry out specific action. CONSTITUTION:Many plants P planted in pots and put on shelves 15 are housed in a green house A. The green house A is provided with a temperature sensor 1 for detecting inner temperature thereof, interior heating device 18, ceiling window-opening and closing device 21 for opening and closing ceiling window, enforced ventilation device 27 on upper side of door 16, control box 11 of a hanging-up-on-the wall style in which a microcomputer for circumference control is included, sprinkling device 30 and rearing lump 32. Temperature in the green house A is automatically controlled by operating a ceiling window opening and closing device 21 based on a control signal sent from the microcomputer 4 to open and close the ceiling window and simultaneously actuating or stopping the enforoed ventilation device 27. As a result, the green house A is automatically driven as high-temperature room (>=15 deg.C), middle-temperature room (>=10 deg.C) or low-temperature room (>=5 deg.C) at a prescribed set temperature.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application This invention relates to a centralized control device for a plant growing environment in a greenhouse.

Conventional technology In general, greenhouses have high temperature chambers (15
℃ or higher), medium greenhouse (10℃ or higher), and low temperature greenhouse (5℃ or higher).Of these, medium greenhouses allow you to grow quite a lot of hanimono, and high temperature greenhouses
You can grow anything, but in a low-temperature greenhouse, the types of plants that can be grown are limited.

By the way, conventionally, indoor heating devices (heaters) are installed in greenhouses.
Skylight opening/closing devices and ventilation fans (forced ventilation devices) have already been installed, but all of these conventional devices are equipped with temperature sensors that individually detect the temperature inside the greenhouse. Ta.

Problems to be Solved by the Invention However, in conventional greenhouses, it is necessary to install individual temperature sensors for each type of equipment, which not only increases costs but also makes it extremely troublesome to set the temperature of each equipment. There was a problem.

Furthermore, in the past, a separate power supply and switch were provided for each device, which caused problems such as ε, which required complicated equipment and was inconvenient to handle.

The purpose of this invention is to solve the above-mentioned problems of the prior art, and automatically control the operation of an indoor heating device, a skylight opening/closing device, a forced ventilation device, an irrigation device, and a cultivation lamp installed in a greenhouse. It is possible to centrally manage the plant growing environment inside the greenhouse, and since it is only necessary to install one temperature sensor inside the greenhouse, not only is the equipment cost extremely low, but also the cost of each device is very low. It is very easy to set the temperature of the greenhouse, and the power supply and switches for each device can be installed all at once, making the equipment simple and easy to handle. The aim is to provide a centralized control device for the breeding environment.

Means for Solving the Problems In order to achieve the above object, the first invention provides at least two devices ε out of three devices: an indoor heating device, a skylight opening/closing device, and a forced ventilation device. A temperature sensor that detects the temperature inside the greenhouse, a conversion device that converts the output of the temperature sensor into an electrical signal, and a control signal for the device based on the detected temperature by the electrical signal from the conversion device and a preset reference temperature. The main idea is a central control device for the plant growing environment in a greenhouse, which is equipped with a microcontroller for environmental control.

Next, a second invention provides a plant growing environment in a greenhouse, further comprising at least one device of an irrigation device and a growing lamp in the greenhouse, and a timer for operating the device in a microcomputer. The central control device is summarized as 1-.

Example Next, embodiments of the invention will be described based on the drawings.

FIG. 1 shows a greenhouse (A) equipped with a central control device for a plant growing environment according to the present invention.

In the figure, the greenhouse (A) contains many potted plants (P) placed on shelves (i5).The greenhouse (A) also detects the temperature inside the plants. temperature sensor (1), indoor heating device (heater) (1g), skylight opening/closing device (2t) to open and close the skylight (1B), and ventilation fan (forced ventilation device) above the door (1B) (27 )
A wall-mounted control box (11) containing a microcomputer (4) for environmental control, an irrigation system (30), and a growth lamp (32) are provided.

Here, the skylight opening/closing device (21) has a rotating shaft (22>) that extends horizontally inside the top of the greenhouse (A), and a rotating shaft (22) that extends horizontally inside the top of the greenhouse (A).
It is equipped with levers (23) attached at predetermined intervals to the levers (23), and links (24) passed to the tip ε skylight (10) of each lever (23), and the rotating shaft is driven by a motor (25). (22) is rotated by a predetermined angle, thereby opening and closing the skylight (lO>) by a predetermined angle via a lever (23) and a link (24).

The irrigation system (30) also includes a water sprinkling pipe (31) having a large number of water nozzles, and a bomb (3) connected to one end of the water sprinkling pipe (31).
3).

As the temperature sensor (1), a platinum temperature sensor, a transistor temperature sensor, or the like is used.

For example, the platinum temperature sensor 0〉 utilizes the temperature change in the electrical resistance of a metal wire. A conversion circuit (2) is provided that converts the resistance value based on the indoor temperature detected by the temperature sensor (1) into a predetermined analog quantity made of voltage, and the analog quantity output from this conversion circuit (2>) is converted into a digital signal. An A/D converter (3) is provided for converting into quantities.

In addition, the microcomputer (4) in the control box (11) is connected to the central processing unit (4) as shown in the figure.
The basic structure is a CPU) (5), an input/output (I/O) board (6), and an information storage device (7) consisting of a programmable ROM and static RAM, and a keyboard device for manually inputting data to the information storage device (7). (8), and a relay drive circuit (10) to which a liquid crystal display (LCD) is connected and which is controlled by a signal from a microcombisuiter (4).

The keyboard device (8>) is provided with operation keys that can individually set the reference temperature at which the greenhouse (^) should be operated, that is, the operation start temperature and operation stop temperature of each device.

In addition, when setting the operating temperature of each device individually, it is desirable to set the operating start temperature and the operating stop temperature ε each with a width of about 2°C.

The relay drive circuit (lO) further includes relays for operating various actuators, such as a greenhouse heater relay, a skylight opening/closing sweater relay, a ventilation fan relay,
The irrigation relay and the growth lamp relay are not connected.

In addition, the central processing unit (C) of the microcomputer (4)
If the PU (5) is equipped with a timer, the microcomputer (4) is also equipped with a backup battery for use in the event of a power outage.

In the greenhouse (A) equipped with the centralized control device for the plant growing environment according to the present invention, the operation start temperature ε of each device can be controlled by the operation keys of the keyboard device (8), each at a temperature of about 2°C. Individual settings are made with a certain width, and these are stored in the storage device (7).

First, when the temperature inside the greenhouse (A) is detected by the temperature sensor (1), the output of this temperature sensor (1) is converted into an electrical signal by the converter (2) and (3), An electrical signal of this detected temperature is introduced into the microcomputer (4).

Here, if this detected temperature is lower than the reference temperature preset in the microcomputer (4),
Microcombi p. Control Shinya is issued from Ichita (4),
The inside of the greenhouse (A) is heated by operating the indoor heating device (18) based on this signal. On the other hand, if the temperature detected by the temperature sensor (1) introduced into the microcomputer (4) is higher than the reference temperature, a control signal is output from the microcombi coater (4). , Based on this signal, the operation of the indoor heating device (18) is stopped.

In addition, in these cases, a microcomputer (4
) based on the control signal issued from the skylight opening/closing device (21
) is activated, the skylight (17) is opened and closed as appropriate, and the ventilation fan (27) is activated or stopped as appropriate, so that the temperature inside the greenhouse (A) is controlled manually. The greenhouse (A) is automatically operated at a predetermined set temperature as a high temperature room (15° C. or higher), a medium greenhouse (10° C. or higher), or a low temperature room (5° C. or higher).

In the above embodiment, the temperature that can be detected by the temperature sensor (1) is usually 0 to 50°C, and the temperature in the greenhouse (^
) is normally used in a temperature range of -10 to 50°C.

In this embodiment, the greenhouse (A) further includes an irrigation system (30). ! :, a growing lamp <32> is equipped, and a timer for operating these devices is provided in the microcomputer (4), and this timer operates the shrub device (30) at regular intervals. , the plants in the greenhouse (A) are watered and cultivated (32
) is irradiated for a required period of time, and the growing body of the plant (P) in the greenhouse (A) is also intensively managed.

In the above embodiment, three devices, the indoor heating device (18), the skylight opening/closing device (21), and the forced ventilation device (27), are installed at the same time in the greenhouse (A), but the invention is not limited to this. In some cases, at least 2-) of these three devices may be provided.

Further, in the above embodiment, the irrigation device (30) and the growth lamp (32) are installed together, but the invention is not limited to this. Either one of them may be provided, and only one of the water irrigation device (30) and the growth lamp (32) may be operated by the timer of the micro combisuiter (4).

Effects of the Invention As described above, the centralized control device for a plant growing environment in a greenhouse according to the first aspect of the present invention has at least two of the three devices: the indoor heating device, the skylight opening/closing device, and the forced ventilation device.
a temperature sensor that detects the temperature inside the greenhouse, a conversion device that converts the output of the temperature sensor into an electrical signal, and a temperature detected by the electrical signal from the conversion device and a preset reference temperature. It is equipped with an environmental control microcomputer that outputs control signals for the devices mentioned above, and can dynamically control the operation of the indoor heating device, skylight opening/closing device, and forced ventilation device installed in the greenhouse. This makes it possible to centrally manage the clay cultivation environment inside the greenhouse, and since it is only necessary to install one temperature sensor inside the greenhouse, the equipment cost is not only extremely low, but also extremely low. , it is very easy to set the temperature of each device, and the power supply and switches for each device can be provided all at once.
The equipment is simple, easy to handle, and extremely convenient.

According to the second aspect of the present invention, the greenhouse is further provided with at least one of an irrigation device and a cultivation lamp, and a timer for operating the two devices is provided in the microcombicotor. It is possible to further automatically control the operation of irrigation equipment and growth lamps.
Not only the environment within the greenhouse but also the growth of the plants can be intensively managed, resulting in a very convenient effect.

[Brief explanation of drawings]

The drawings show an embodiment of the present invention, and FIG. 1 is a schematic diagram of a greenhouse equipped with a central control device for a plant growing environment according to the present invention.
Figure 2 is a block diagram showing an embodiment of this device. (A)...Greenhouse, (1)...Temperature sensor, (2)...
・・Resistance value-to-voltage conversion circuit, (3) ・・A/D converter,
(4)...Environmental control macro computer, (5
)... Central processing unit (CPU), <8)... Input/output board 1., (7>... Information storage device, (17)...
Skylight, (18)... Indoor heating device, (21)... Skylight opening/closing device, (27>... Ventilation fan (forced ventilation device)
, (30)...Irrigation device, (32)...Growing lamp. that's all

Claims (2)

[Claims] (1) At least two of the three devices: indoor heating device (18), skylight opening/closing device (21), and forced ventilation device (27), and a temperature sensor (1) that detects the temperature inside the greenhouse (A). ), conversion devices (2) (3) that convert the output of the temperature sensor (1) into electrical signals, and conversion devices (2) (3).
A central control device for a plant growing environment in a greenhouse, comprising: an environmental control microcomputer (4) that issues a control signal for the device based on a temperature detected by an electric signal from a temperature sensor and a preset reference temperature. (2) Furthermore, an irrigation device (30) and a growth lamp (
32) A centralized control device for a plant growing environment in a greenhouse according to claim 1, wherein the microcomputer (4) is provided with a timer for operating said device.