CN210181432U - Greenhouse electric power dormancy control device - Google Patents

Abstract

The utility model discloses a warmhouse booth electric power dormancy controlling means relates to agricultural science technical field. The control device comprises an industrial automation instrument module, a sensor, a control button, a relay circuit and terminal equipment; the sensor comprises a rainwater sensor, a temperature sensor and an air speed sensor, wherein the temperature sensor is connected with the industrial automation instrument module, and the rainwater sensor and the air speed sensor are connected with the relay circuit; the industrial automation module is connected with the control button; the relay circuit comprises a manual switch signal, an automatic switch signal, rainwater and a wind speed switch signal, three active switch signals, a relay, a cycle time relay, a thermal relay, a cycle time relay, a relay circuit, a rainwater sensor and a wind speed sensor, wherein the cycle time relay is provided with sleep time and working time, the relay circuit is connected with the rainwater sensor, one end of the relay circuit is connected with the industrial automation instrument module, and the other end of the relay circuit is connected with a terminal device.

Description

Greenhouse electric power dormancy control device

Technical Field

The utility model relates to an agricultural science technical field, concretely relates to warmhouse booth electric power dormancy control device.

Background

With the continuous improvement of living standard of people and the concern of nutrition and health, the demand of people on fresh vegetables is increased day by day, the application of the greenhouse is more and more extensive, especially in northern cold areas, the greenhouse becomes necessary equipment for planting vegetables. The method has the advantages that high-grade vegetables, high-quality crop seeds, rare flowers and the like are planted in the greenhouse, the agricultural income can be greatly increased, and the environment in the greenhouse needs to be controlled and adjusted in order to ensure that the environmental conditions in the greenhouse meet the plant growth requirements. The greenhouse detection device, the control device and the execution device in the prior art have the advantages that the power supply is in a normally open state, and the on-off of the power supply cannot be controlled according to actual conditions, so that the waste of the power supply and the loss of circuit components are caused, the service life is greatly shortened, and the greenhouse detection device, the control device and the execution device are uneconomical and environment-friendly. Therefore, there is a need for a power sleep control device for a greenhouse capable of automatically turning off a power supply when the greenhouse is not in operation and automatically waking up when the greenhouse is in operation.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a warmhouse booth electric power dormancy controlling means solves the extravagant problem serious with the circuit components and parts loss of current warmhouse booth electric power controlling means power.

In order to solve the technical problem, the utility model adopts the following technical scheme: the utility model provides a warmhouse booth electric power dormancy controlling means which characterized in that: the system comprises an industrial automation instrument module, a sensor, a control button, a relay circuit and terminal equipment;

the sensor comprises a rainwater sensor, a temperature sensor and an air speed sensor, the temperature sensor is connected with the industrial automation instrument module, and the rainwater sensor and the air speed sensor are connected with the relay circuit;

the industrial automation module is connected with the control button and receives an instruction sent by the control button;

the relay circuit comprises a manual switch signal, an automatic switch signal, rainwater and wind speed switch signal three-way active switch signal, a relay, a cycle time relay and a thermal relay, wherein the cycle time relay is provided with two states of sleep time and working time, the relay circuit is directly connected with a rainwater sensor and a wind speed sensor, the rainwater sensor is used for converting data detected by the wind speed sensor into rainwater and a wind speed switch signal to act on the relay, one end of the relay circuit is connected with an industrial automation instrument module, and the other end of the relay circuit is connected with a terminal device.

The further technical scheme is that the control button module comprises an adjusting button and a control power supply button, and the adjusting button is divided into an automatic gear and a manual gear.

The industrial automation instrument module is further provided with two LED nixie tube displays, one of the LED nixie tube displays the ambient temperature, the other LED nixie tube displays a preset temperature value, and the preset temperature value can be modified through a key on the industrial automation instrument module.

The further technical scheme is that a protection box is arranged on the greenhouse electric power dormancy control device.

The further technical scheme is that a power supply indicator lamp is arranged on the greenhouse electric power dormancy control device.

A further technical scheme is that the terminal equipment comprises a fan, a water pump, a film winding motor and an internal shading motor.

The working principle is as follows: and powering on the greenhouse electric power dormancy device, and judging whether the detection device is powered on or not through the state of the power indicator lamp. After power is on, when an adjusting button is adjusted to an automatic gear, the industrial automation instrument module scans and stores data detected by a temperature sensor, and displays a temperature value detected by the temperature sensor on an LED nixie tube display on the industrial automation instrument; when the adjusting button is adjusted to a manual gear, the power supply control button is turned on, the power supply control button indicator lamp is on, the relay circuit detects a manual switching signal, the relay circuit is electrified and closed, and the terminal equipment is controlled to execute window opening or window closing operation; when the wind speed sensor and the rain sensor detect the change of the environmental information, the relay circuit detects rain and wind speed switch signals, the relay is electrified and closed to carry out windowing operation, and the power supply circuit is automatically cut off after the operation is finished.

Compared with the prior art, the beneficial effects of the utility model are that: the application provides a greenhouse electric power dormancy control device, a sensor is used for detecting the surrounding environment, a temperature sensor is used for transmitting detected data to an industrial automation instrument module, the industrial automation instrument module is used for judging and processing information detected by the sensor and transmitting a trigger signal to a relay circuit, a rainwater sensor and a wind speed sensor convert the detected signals into switch signals and transmit the switch signals to the relay circuit, and the relay circuit controls terminal equipment to execute corresponding operation, so that the device can be automatically awakened according to the change of the environment temperature; through the dormancy time and the operating time two kinds of operating condition of cycle time relay in the relay circuit, automatic awakening in the operating time, auto-power-off after relay control terminal equipment accomplishes corresponding operation to sleep useless operating condition, saved the power, simultaneously, also prolonged the life of electrical apparatus, and because the device is in the outage state most of the time, thereby reach safe effect.

Drawings

FIG. 1 is a block diagram of the present invention;

fig. 2 is a schematic diagram of the relay circuit of the present invention.

In the figure: 1-temperature sensor, 2-industrial automation instrument module, 3-control button, 4-relay circuit, 5-wind speed sensor, 6-rain sensor, 7-terminal equipment, 8-manual switch signal, 9-automatic switch signal, 10-rain, wind speed switch signal, 11-relay, 12-cycle time relay, 13-thermal relay

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example 1

Fig. 1 shows a greenhouse electric power dormancy control device, which is characterized in that: the system comprises an industrial automation instrument module 2, a sensor, a control button 3, a relay circuit 4 and a terminal device 7;

the sensor comprises a rainwater sensor 6, a temperature sensor 1 and a wind speed sensor 5, wherein the temperature sensor 1 is connected with the industrial automation instrument module 2, and the rainwater sensor 6 and the wind speed sensor 5 are connected with the relay circuit 4;

the industrial automation module 2 is connected with the control button 3 and receives the instruction sent by the control button 3;

as shown in fig. 2, the relay circuit 4 includes a manual switch signal 8, an automatic switch signal 9, a rain and wind speed switch signal 10, three active switch signals, a relay 11, a cycle time relay 12, and a thermal relay 13, the cycle time relay 12 is provided with two states of a sleep time and a working time, the relay circuit is directly connected with the rain sensor 6 and the wind speed sensor 5, the data detected by the rain sensor 6 and the wind speed sensor 5 are converted into rain and wind speed switch signals 10 to act on the relay 11, one end of the relay circuit is connected with the industrial automation instrument module 2, and the other end of the relay circuit is connected with the terminal device 7.

After the power dormancy control device of the greenhouse is powered on, the temperature sensor 1 starts to detect the temperature of the greenhouse and transmits the detected temperature information to the industrial automation instrument module 2, the industrial automation instrument module 2 displays the temperature value detected by the temperature sensor 1 on the LED nixie tube display, compares the detected temperature value with the preset temperature value, and if the detected temperature value is larger than the maximum preset temperature value or smaller than the minimum preset temperature value, the industrial automation instrument module 2 sends a trigger signal to the relay circuit. Meanwhile, the rain sensor and the wind speed sensor detect rain and wind speed in the surrounding environment, and convert the rain and wind speed into rain and wind speed switch signals 10 to act on the relay circuit 4. After the relay circuit 4 receives the trigger signal, the relay 11 is electrified and closed, and because the cycle time relay 12 is provided with two working states of working time and sleeping time, the automatic awakening in an effective working state can be realized, and the power supply is automatically cut off after the relevant operation is executed, so that the useless working state is dormant, the energy is saved, the service life of the electric appliance is prolonged, and the thermal relay 13 in the relay circuit 4 can perform overload protection on the terminal equipment, thereby further prolonging the service life of the electric appliance.

Example 2

In order to further optimize the technical solution in embodiment 1, in this embodiment, the control button 3 includes an adjusting button, a control power button, and the adjusting button is divided into an automatic gear and a manual gear. The control power supply button can automatically power on or power off the greenhouse electric power dormancy control device, the control power supply button can be controlled at any time in the use process, the safety operation of workers is ensured, and the automatic gear and the manual gear of the adjusting button are convenient for the greenhouse electric power dormancy control device to automatically awaken and manually awaken, and automatically hibernate and manually hibernate.

Example 3

In order to further optimize the technical solution in embodiment 1, the industrial automation instrument module in this embodiment includes a CPU, a memory, LED nixie tube displays, and keys, two LED nixie tube displays are disposed on the industrial automation instrument module 2, one of the LED nixie tube displays the ambient temperature, and the other displays a preset temperature value, and the preset temperature value can be modified by the keys on the industrial automation instrument module 2. In the use process of the greenhouse electric power dormancy control device, the data detected by the sensor can be conveniently reflected through the two LED nixie tube displays, the preset maximum temperature value and the preset minimum temperature value are displayed, and workers can conveniently set and modify parameters according to actual conditions such as seasonal climate and the like.

Example 4

In order to further optimize the technical solution in any one of embodiments 1 to 3, a protection box is disposed on the greenhouse electric power dormancy control device in this embodiment. Set up the guard box on electric power dormancy controlling means, can effectually prevent the rainwater, isolated dust damages controlling means, increases warmhouse booth electric power dormancy controlling means's life and avoids the emergence of accident.

Example 5

In order to further optimize the technical solution in embodiment 4, a power indicator is provided on the greenhouse electric power dormancy control device in this embodiment. The power-on condition of the greenhouse electric power dormancy control device can be visually judged through the power indicator lamp.

Example 6

In order to further optimize the technical solution in embodiment 5, in this embodiment, the terminal device 7 includes a fan, a water pump, a film winding motor, and an internal shading motor. In the working process of the greenhouse electric power dormancy control device, the fan, the water pump, the film rolling motor and the inner shading motor are used as the terminal device 7, the industrial automation instrument module automatically or manually detects surrounding environment information, sends a trigger signal to the relay circuit, and the relay circuit is electrically connected and attracted, so that the motor, the fan, the water pump and other actions in the terminal device 7 are controlled.

Although the invention has been described herein with reference to a number of illustrative embodiments thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the spirit and scope of the principles of this invention. More specifically, various variations and modifications are possible in the component parts and/or arrangements of the subject combination arrangement within the scope of the disclosure, the drawings and the appended claims. In addition to variations and modifications in the component parts and/or arrangements, other uses will also be apparent to those skilled in the art.

Claims (6)

1. The utility model provides a warmhouse booth electric power dormancy controlling means which characterized in that: the system comprises an industrial automation instrument module (2), a sensor, a control button (3), a relay circuit (4) and a terminal device (7);

the sensor comprises a rainwater sensor (6), a temperature sensor (1) and a wind speed sensor (5), the temperature sensor (1) is connected with the industrial automation instrument module (2), and the rainwater sensor (6) and the wind speed sensor (5) are connected with the relay circuit (4);

the industrial automation instrument module (2) is connected with the control button (3) and receives the instruction sent by the control button (3);

relay circuit (4) include manual switch signal (8), automatic switch signal (9), rainwater, wind speed switch signal (10) three routes active switch signal to and relay (11), cycle time relay (12), thermorelay (13), cycle time relay (12) are equipped with dormancy time and operating time two kinds of states, the relay circuit is direct and rain sensor (6), and wind speed sensor (5) are connected, rain sensor (6), and the data conversion that wind speed sensor (5) detected is rainwater, wind speed switch signal (10) and act on relay (11), industrial automation instrument module (2) is connected to relay circuit one end, other end connection terminal equipment (7).

2. The greenhouse electric power dormancy control device of claim 1, wherein: the control button (3) comprises an adjusting button and a control power supply button, and the adjusting button is divided into an automatic gear and a manual gear.

3. The greenhouse electric power dormancy control device of claim 1, wherein: the industrial automation instrument module (2) comprises a CPU, a memory, LED nixie tube displays and keys, wherein the industrial automation instrument module (2) is provided with two LED nixie tube displays, one of the LED nixie tube displays the ambient temperature, the other of the LED nixie tube displays a preset temperature value, and the preset temperature value can be modified through the keys on the industrial automation instrument module (2).

4. The greenhouse electric dormancy control apparatus of any one of claims 1-3, wherein: and a protection box is arranged on the greenhouse electric power dormancy control device.

5. The greenhouse electric power dormancy control device of claim 4, wherein: and the greenhouse electric power dormancy control device is provided with a power indicator lamp.

6. The greenhouse electric power dormancy control apparatus of claim 5, wherein: the terminal equipment (7) comprises a fan, a water pump, a film winding motor and an internal shading motor.

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