KR20160129262A - The apparatus vinyl house - Google Patents

Abstract

A snow removing apparatus is arranged on one side of the upper end of a conventional plastic greenhouse. However, the snow removing apparatus is frozen in cold winter and thus does not properly operate. Even though the snow removing apparatus operates properly, snow settles on an area excepting the snow removing apparatus so the flank of the conventional plastic greenhouse collapses. Furthermore, the snow removing apparatus can hardly remotely alert a plastic greenhouse manager to heavy snow via the plastic greenhouse managers smartphone, or the plastic greenhouse manager can hardly remotely control the whole plastic greenhouse system in real time via the smartphone. According to the present invention, in order to solve the two problems, provided are a hybrid-type remote control system and a method thereof to remove snow from a plastic greenhouse, which use a GTG electrothermal network and an environment-friendly snow removal material-sprinkling means. The hybrid-type remote control system to remove snow from a plastic greenhouse comprises: a power supply unit, a snowfall sensor, a first temperature sensor, a second temperature sensor, a humidity sensor, a soil moisture measuring sensor, a sprinkler actuating motor, a flank opening and closing motor, a first snow removal unit, a second snow removal unit, and a control box. The first snow removal unit is covered with a hot wire, and thus can properly use an environment-friendly snow removal material even under heavy snow and cold conditions. A plastic greenhouse manager can effectively remove snow from a plastic greenhouse by 80% in a hybrid-type snow removal method using a GTG electrothermal network and an environment-friendly snow removal material-sprinkling means. The whole plastic greenhouse system can be grouped into a CAN communication group and a Zigbee communication group so an accurate control command can be outputted. Furthermore, soil contamination can be reduced by 70% by using an environment-friendly snow removal material in comparison with an existing snow removal material.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an environmentally-

The present invention relates to an environmentally friendly vinyl house apparatus capable of preventing an accident that a vinyl house is collapsed due to snowfall in the winter and managing the inside and outside of the vinyl house remotely.

In general, greenhouses are said to be facility horticulture cultivated using artificial devices.

In other words, it cultivates vegetables, plants, fruit trees and other seedlings in the house, and it is also used to dry fruits and livestock excrements.

In addition, most of them use greenhouses when they want to change their production period or use facilities for special production in agriculture, and they are often used for anniversary cultivation

The structure of such a vinyl house has a plurality of arcuate supports, both ends of which are fixed on the ground and are fixed, a plurality of transverse supports fixed at a predetermined interval in a direction perpendicular to the arcuate supports, It is made of vinyl which is installed as a transparent material that can easily inflow sunlight and is installed to block the outside air. By keeping the inside of the house at a constant temperature, it is possible to cultivate necessary crops or raise livestock.

However, since the conventional vinyl house has only the general support structure as described above, when the snow is piled up on the upper surface due to heavy snowfall in the winter, the vinyl house can not support it and can be easily collapsed.

In particular, the weight of snow is usually about 100 ㎏ per 1 ㎥, and for wet eyes it is about 300 ㎏ per 1 ㎥. When snow is accumulated 10cm on the roof of 20p flat area, its weight is almost 2t. This often caused the roof to collapse due to heavy snow.

In order to solve such a problem, a snow removal apparatus is provided on one side of the upper part of a vinyl house in the prior art, however, there is a problem that cold snow fall snow removal equipment is frozen and can not be operated properly. Even if the snow removal apparatus is operated properly, Snow was piled up and the side of the vinyl house collapsed.

In addition, when heavy snow falls around the vinyl house, there is a problem that it is difficult to remotely control the entire system of the vinyl house through the smart phone or the remote notification function due to snowfall with the smartphone of the vinyl house manager.

Registration Utility Model No. 20-0415463

In order to achieve the above-mentioned object, the first snow making part is wound with a hot wire to enable the eco-friendly agent to operate properly even in heavy snow and cold, and a hybrid snow- House can be reduced to 80%, and the entire system can be grouped into can communication and zigbee communication, minimizing control command and data transmission / reception errors, and using environmentally friendly fire extinguishing materials, And a method for remotely managing a hybrid vinyl house snow remover through an environmentally friendly spraying method.

In order to accomplish the above object, the present invention provides a power supply unit for a vehicle, comprising: a power supply unit which receives AC power and supplies power to each device; a snow sensor installed on one side of the vinyl house to detect snowfall; A second temperature sensor installed at one side of the vinyl house to measure the inside temperature of the vinyl house, a humidity sensor located at one side of the temperature sensor for measuring the humidity inside the vinyl house, A soil moisture sensor installed in the inner soil for measuring soil moisture; a sprinkler driving motor for receiving a control command under the control of the control box part to drive a plurality of sprinklers in the greenhouse; A side opening and closing drive motor for opening and closing the side surface of the vinyl house, A first snow removing unit installed along the longitudinal direction on one side of the side and melting snow by a heat generated amount and an eco-friendly detergent pumped under the control of the control box unit on one side of the outer ceiling vertex of the vinyl house, And a second snow removing unit which is connected to the first snow removing unit and the second snow removing unit, and a second snow removing unit that can communicate with the snow removing sensor, the first temperature sensor, the second temperature sensor, the humidity sensor, the soil moisture sensor, And Zigbee communication to control the overall operation of each device and to monitor and transmit sensor information measured by snow sensor, temperature sensor, humidity sensor and soil moisture sensor to remote monitoring server and smartphone, When the snow accumulation amount is detected, the control box is controlled so that the first snow removing unit and the second snow removing unit are simultaneously driven to perform automatic snow removal in a hybrid manner. .

As described above, according to the present invention, the eco-friendly snow removing material is periodically sprayed through the spray nozzle tube fixed on the upper side of the plastic house, and the snow accumulated on the roof is guided by the second GTG pre- It is possible to effectively prevent the collapse damage of the plastic greenhouse and to minimize the damage of the crops.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing the components of a hybrid type vinyl house remotely remotely managing apparatus through a GTG electric wire network and an environmentally friendly agent spraying apparatus according to the present invention;
2 is a block diagram showing the components of the first snow removing unit according to the present invention,
3 is a structural view showing components of a carbon flexible GTG wire mesh according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.

1 is a block diagram showing components of a hybrid type vinyl house snow remotely managing apparatus 1 through a GTG electric wire network and an environmentally friendly agent spraying apparatus according to the present invention,

The first and second temperature sensors 30, 40, the humidity sensor 50, the soil moisture measuring sensor 60, the sprinkler driving motor 70, A first opening / closing drive motor 80, a first snow removing unit 90, a second snow removing unit 100, and a control box 110.

First, the power supply unit 10 according to the present invention will be described.

The power supply unit 10 receives AC power and supplies power to the devices.

This AC 230 [V] to fuse, a transformer, a diode (D ₁ ~ D _4), a capacitor (C _s) a zener diode to produce a DC voltage, and the resulting DC voltage via resistors R _s and R _d over the Z _d As shown in Fig.

Next, the snowfall sensor 20 according to the present invention will be described.

The snow cover sensor 20 is installed on one side of the outside of the vinyl house, and serves to detect snowfall.

It consists of an ultrasonic design (Snow Depth Meter SL-340).

That is, the ultrasonic pulse emitted from the transceiver is reflected on the surface of the eye particle accumulated on the ground surface and is received by the transceiver again, and the change of the transmission time of the ultrasonic pulse is detected Thereby setting the snowfall amount.

The snow sensor according to the present invention detects the snow surface by the reflection signal of the ultrasonic pulse and can observe an accurate snowing amount without distortion of the snow surface, and can measure about five measurement times per second, a sound frequency of 40KHz, 24 m, and a resolution of 1 mm.

Also, the snowy sensor according to the present invention is connected to the Zigbee communication module of the control box part, and inputs the measured snowfall amount to the control box part through Zigbee communication.

Next, the first temperature sensor 30 according to the present invention will be described.

The first temperature sensor 30 is installed at one side of the snow sensor, and serves to measure the temperature outside the greenhouse.

It consists of the DS1620, which can directly read the temperature value digitally.

The first temperature sensor according to the present invention is a digital thermometer capable of measuring the temperature in units of 0.5 ° C from -55 ° C to + 125 ° C through a 3-wire interface (synchronous SPI protocol) There is no need for a separate conversion process, and the synchronous communication (clock signal, data use) required to read the temperature from the main chip can be read out by simply implementing it using the Shiftout and Shiftin () commands.

Also, the first temperature sensor according to the present invention is connected to the Zigbee communication module of the control box part, and inputs the measured temperature of the vinylhouse outside through the Zigbee communication to the control box part.

Next, the second temperature sensor 40 according to the present invention will be described.

The second temperature sensor 40 is installed at one side of the vinyl house to measure the temperature inside the vinyl house.

It consists of the DS1620, which can directly read the temperature value digitally.

The second temperature sensor according to the present invention is connected to the Zigbee communication module of the control box part, and inputs the measured temperature of the greenhouse to the control box part through Zigbee communication.

Next, the humidity sensor 50 according to the present invention will be described.

The humidity sensor 50 is located at one side of the temperature sensor and measures humidity inside the vinyl house.

It consists of a high precision humidity sensor (SHT75).

The humidity sensor according to the present invention is a digital output type temperature / humidity sensor humidity having a precision of +/- 3% and a temperature accuracy of +/- 0.3 [deg.].

In addition, the humidity sensor according to the present invention is connected to the Zigbee communication module of the control box part, and inputs the measured humidity of the vinyl house into the control box part through Zigbee communication.

Next, the soil moisture measurement sensor 60 according to the present invention will be described.

The soil moisture measurement sensor 60 is installed in the soil inside the vinyl house, and serves to measure soil moisture.

It consists of a soil moisture sensor for each layer.

The soil moisture sensor according to the present invention is made of an electrical capacitor method through a dielectric, and has a measurement depth of 10 to 50 cm and a measurement range of 10 cm in volume water content (%) around the sensor.

In addition, the soil moisture sensor according to the present invention is connected to the Zigbee communication module of the control box part, and inputs the measured soil moisture inside the vinyl house into the control box part through Zigbee communication.

Next, the sprinkler drive motor 70 according to the present invention will be described.

The sprinkler driving motor 70 receives a control command under the control of the control box unit and drives a plurality of sprinklers in the greenhouse.

It is mounted on the vinyl house soil surface in a plurality so as to spray the water at high speed by rotating the sprinkler on the crop inside the vinyl house.

The sprinkler drive motor according to the present invention is connected to the can communication module of the control box part and is driven by receiving a control command from the control box part through the can communication.

Next, the side opening and closing drive motor 80 according to the present invention will be described.

The side opening / closing drive motor 80 receives a control command under the control of the control box unit and serves to open / close the side of the vinyl house.

A rolling bar (81) is formed on one side of both sides of the vinyl house.

The rolling bar 81 is formed in the longitudinal direction along both sides of the vinyl house and receives the rotational force of the side opening and closing drive motor to roll up the vinyl house side cover in the upper direction.

The side opening and closing drive motor 80 receives a control command under the control of the control box part and rotates the rolling bar to open and close the side of the vinyl house.

The side opening and closing drive motor according to the present invention is connected to the can communication module of the control box part and is driven by receiving a control command from the control box part through the can communication.

Next, the first snow remover 90 according to the present invention will be described.

The first snow removing unit 90 is installed along one side of the outer ceiling of the greenhouse and on one side of the outer side of the greenhouse, and melts snow by heating amount.

As shown in FIG. 2, this is constituted by a power supply switching unit 91 and a carbon flexible GTG conversion network 92.

The power switching unit 91 functions to turn on or off the power to the GTG electric power network under the control of the control box unit.

The carbon flexible GTG wire netting 92 is coated on an electroconductive composition composed of a carbon powder having a size of several tens of nanometers and a flexible matrix on a web structure made of a glass fiber material and woven in a warp and weft pattern, When it is injected, it plays a role of generating heat.

As shown in Fig. 3, includes a braided electrode terminal formed to be longer than the warp or weft of the woven fabric to supply power to both ends of the warp or weft.

The braided electrode terminal is formed by weaving with a good conductor metal wire such as a tin-plated copper wire or a silver wire excellent in conductivity.

As shown in FIG. 3, the operating principle of the carbon flexible GTG conductive wire according to the present invention is such that a carbon powder is aggregated in a fine space filled with a matrix between conductive carbon powder particles.

At this time, a minute space serves as a potential barrier, and electrons tunnel through the minute space due to thermal fluctuation, thereby exhibiting electrical conductivity.

The carbon flexible GTG wire grid according to the present invention has a self-controlled resistance heating function.

This tunneling current is used to flow between the fine spaces when the tunneling current is maintained within a range of 1 nm of the fine space made of the matrix and is very sensitive to the distance, In the same manner as in the first embodiment.

Therefore, when the power is applied to the carbon flexible GTG electric wire network through the electrode terminal, the temperature increases and the matrix expands the distance between the conductive carbon particles by the thermal expansion to suppress current.

According to the present invention, the greenhouse can be installed on one side of the outer ceiling and on the outer side of both sides of the outside of the greenhouse according to the present invention to melt snow directly by the carbon flexible GTG electric wire net even if snow falls on the outer ceiling or both sides of the greenhouse , It is possible to exert a snow removal effect of 80% compared with the existing one.

Next, the second snow removing unit 100 according to the present invention will be described.

The second snow removing unit 100 functions to spray the environmentally-friendly agent pumped under the control of the control box unit at one side of the outer ceiling vertex of the greenhouse at a high speed rotative ceiling on the outside of the greenhouse.

This constitutes the stock material tank 101, the stock material feed pump 102, and the stock material rotary injection nozzle 103.

The stocker tank 101 serves to store the eco-friendly agent.

The spray material supply pump 102 is located at one side of the spray material tank and is driven to be turned on and off under the control of the control box part to supply the environment-friendly spray material stored in the spray material tank to the spray material spin injection nozzle.

The spray material rotary spray nozzle 103 serves to spray the environmentally friendly spray material supplied from the spray material supply pump while rotating at high speed.

In addition, the stock tank, the stock material feed pump, and the spray material rotary spray nozzle according to the present invention are formed by winding the outer surface thereof with a hot wire.

The reason for this is to prevent freezing of environmentally friendly re-construction on cold winter days.

According to the present invention, there is provided an eco-friendly snowmelt material, wherein the eco-friendly snowmelt material comprises 50 to 70 wt% of 2 to 3% of acetic acid (CH ₃ COOH), 15 to 30 wt% of potassium hydroxide (KOH), 10 to 20 wt% of succinic acid, 2 to 7 wt% of sodium chloride (NaCl), and 2 to 5 wt% of water.

More specifically, a mixture composed of 60 wt% of acetic acid (CH ₃ COOH), 20 wt% of potassium hydroxide (KOH), 10 wt% of succinic acid, 5 wt% of sodium chloride (NaCl) and 5 wt% of water is used .

When the amount of the acetic acid (CH ₃ COOH) is less than 50 wt%, the performance of the snow removal is poor. When the amount of the acetic acid (CH ₃ COOH) is more than 70 wt%, the acetic acid is used in an amount of 50 to 70 wt% The potassium hydroxide (KOH) acts as a fertilizer component and is harmless to plants. When the amount of the potassium hydroxide (KOH) used is less than 15 wt%, the snow removing function is poor. When it exceeds 30 wt% , And the amount of potassium hydroxide (KOH) to be used is preferably kept within a range of 15 to 30 wt% with respect to the total amount of the snow removing material.

If the amount of sodium chloride (NaCl) is less than 2 wt%, sufficient snow removing action and anti-icing effect can not be obtained. If it exceeds 7 wt%, an environmental problem due to an excessive increase of salinity may occur. It is preferable that the amount of sodium chloride (NaCl) used is kept within the range of 2 to 7 wt% with respect to the total amount of the snow removing material.

If the amount of the water used is less than 2 wt%, it is difficult to form a uniform mixture of constituents of the building material, and the amount of water used may fall within a range of 2 to 5 wt% It is desirable to keep the inside.

In order to produce the eco-friendly snowmelt material, potassium hydroxide (KOH) is added to 50 to 70 wt% of acetic acid (CH ₃ COOH) of 2 to 3%, 10 to 20 wt% of succinic acid, And 2 to 5 wt%, in that order, followed by stirring.

Next, the control box 110 according to the present invention will be described.

The control box 110 communicates with the snow sensor, the first temperature sensor, the second temperature sensor, the humidity sensor, the soil moisture sensor, the sprinkler driving motor, the side opening and closing drive motor, the first snow removing unit, And Zigbee communication to control the overall operation of each device and to monitor and transmit sensor information measured by snow sensor, temperature sensor, humidity sensor and soil moisture sensor to remote monitoring server and smartphone, When the snow accumulation amount is detected, the first snow removing unit and the second snow snow removing unit are simultaneously driven to control the snow removal in a hybrid manner.

A LCD window 112 for displaying the operation status of each device is formed on the surface of the main body and a power switch button 113 for turning on and off the power supply is formed on one side of the LCD window And a selection button 114 for selecting an operation mode of each device is formed at the lower end of the power switch button.

A can communication module 116 for transmitting control commands of the microcomputer to each of the devices is connected to the microcomputer 115 for connection and data processing of each device inside the main body, Is connected to the snowfall sensor 20, the first temperature sensor 30, the second temperature sensor 40, the humidity sensor 50, and the soil moisture measurement sensor 60 via Zigbee communication, And a WiFi communication module 118 connected to the remote monitoring server and the smartphone with the WiFi network to transmit sensing information of the sensors.

The microcomputer unit is composed of AT90CAN 128 of Atmel.

It supports A / D converter, timer / counter, I2C, SPI and UART communication for sensor interface.

That is, a snowfall sensor is connected to one side of the input terminal, a snowfall amount is inputted from the snowfall sensor via the can communication, and a first temperature sensor is connected to one side of the other input terminal, A second temperature sensor is connected to one input terminal of the second input terminal, a temperature of the vinyl house is received from the second temperature sensor via the can communication, a humidity sensor is connected to the other input terminal, And the soil moisture sensor is connected to one side of the other input terminal to receive the amount of the vinyl house soil moisture from the soil moisture measurement sensor through the can communication and the sprinkler A drive motor is connected to control the sprinkler to be driven by outputting a control command through the can communication, Closing drive motor is connected and a control command is outputted through the can communication to drive the side opening and closing drive motor and the first snow removing part is connected to one side of the other output terminal to output a control command through the can communication, The first snow removing unit is controlled to drive the first snow removing unit and the second snow removing unit is connected to one of the other output terminals to output the control command through the can communication to drive the second snow removing unit.

And, it has built-in CAN controller and it is connected with CAN communication module which is configured on one side and supports CAN interface.

In addition, two USART ports are incorporated to connect to the Zigbee communication module and to connect the snow sensor 20, the first temperature sensor 30, the second temperature sensor 40, the humidity sensor 50, the soil moisture sensor 60) and ZigBee communication.

The WiFi communication module 118 is connected to one side of the transmission / reception ports RX and TX to support WiFi communication with the remote monitoring server and the smart phone.

In addition, the hybrid type vinyl house remotely managing apparatus 1 according to the present invention is installed in the network camera 150 to monitor the internal situation and monitor the operation status of the controller.

The network camera 150 is configured to be monitored and controlled via a wired / wireless LAN at a remote location with a smart phone and a remote server.

As described above, since the network camera is constructed inside the hybrid type vinyl house remotely managing apparatus 1, there is a good effect that the network camera can be monitored in real time through theft prevention and remote control.

Hereinafter, a specific operation of the hybrid vinyl house snow remotely management method using the GTG electric wire network and the environmentally friendly agent spraying method according to the present invention will be described.

First, power is supplied to each device through a power supply unit (S10).

Then, the snow sensor is driven to detect the snowfall amount, and then transmitted to the control box unit via the can communication (S20).

Then, the first temperature sensor is driven to measure the outside temperature of the vinyl house, and then the outside temperature of the vinyl house measured through the can communication is transmitted to the control box part (S30).

Then, the second temperature sensor is driven to measure the internal temperature of the greenhouse, and then the internal temperature of the greenhouse measured through the can communication is transmitted to the control box unit (S40).

Next, the humidity sensor is driven to measure the humidity inside the vinyl house, and then the humidity inside the vinyl house measured through the can communication is transmitted to the control box part (S50).

Then, the soil moisture sensor is driven to measure the soil moisture of the vinyl house, and then the soil moisture measured through the can communication is transmitted to the control box unit (S60).

Then, in the control box unit, the sensor information measured by the snow sensor, the temperature sensor, the humidity sensor, and the soil moisture measurement sensor is transmitted to the remote monitoring server and the smart phone (S70).

Then, when the sprinkler driving command is received from the remote monitoring server and the smartphone, a control command is outputted to the sprinkler driving motor under the control of the control box unit to drive a plurality of sprinklers in the vinyl house (S80).

Then, when receiving a drive command of the vinylhouse side opening / closing drive motor from the remote monitoring server and the smartphone, a control command is output to the side of the vinyl house by the side opening / closing drive motor under the control of the control box unit.

If a snowfall amount equal to or greater than a reference value is detected under the control of the control box unit, a control command is output to the first snow removing unit and the second snow removing unit (S100).

Next, the first snow removal unit is driven primarily to melt snow by a calorific value (S110).

Finally, the second snow removal unit is driven in a second order so that the eco-friendly snow-making material is sprayed at a high speed from the ceiling of the vinyl house to melt snow to snow (S120).

10: Power supply unit 20: Snowfall sensor
30: first temperature sensor 40: second temperature sensor
50: humidity sensor 60: soil moisture sensor
70: sprinkler drive motor 80: side opening / closing drive motor
90: first snow making part 100: second snow making part
110: Control box section

Claims (3)

A power supply unit 10 that receives AC power and supplies power to each device,
A snow cover sensor 20 installed at one side of the vinyl house to detect a snowfall amount,
A first temperature sensor (30) installed at one side of the snow sensor and measuring the outside temperature of the vinyl house,
A second temperature sensor 40 installed at one side of the vinyl house to measure the inside temperature of the vinyl house,
A humidity sensor 50 located at one side of the temperature sensor for measuring humidity inside the vinyl house,
A soil moisture measurement sensor 60 installed in the soil inside the vinyl house to measure soil moisture,
A sprinkler drive motor 70 for receiving a control command under the control of the control box unit and driving a plurality of sprinklers in the greenhouse,
A side opening and closing drive motor 80 for receiving a control command under the control of the control box part and opening and closing the side of the vinyl house,
And a first snow removing unit (90) installed along one side of the outer ceiling of the vinyl house and on one side of the outer side of the vinyl house in the longitudinal direction for melting snow by a heating value. The method according to claim 1,
(101), a stock material supply pump (102), a stock material rotation spraying unit (102), and a stock material supply unit (103) so that an eco-friendly stock material pumped under the control of the control box unit at one of the outer ceiling vertices of the above- And a second snow removing part (100) composed of a nozzle (103). The method according to claim 1,
The first snow removing portion 90
A power switching unit 91 for turning on or off power to the GTG electric wire network under the control of the control box unit,
A carbon-based flexible GTG wire netting which is coated on a mesh-type structure frame woven with warp and weft by adding a glass fiber material to a conductive composition composed of tens of nano-sized carbon powder and a flexible matrix, 92). ≪ / RTI >

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