CN205052358U - A watering device for vineyard - Google Patents

Abstract

The utility model belongs to the technical field of the thing networking, especially, relate to a watering device for vineyard, including big -arch shelter, secret heat - supply pipeline and solar heating supply system, the solar heating supply system mainly comprises thermal -collecting tube, heat exchanger and the heat exchange water tank of mutual intercommunication, is equipped with the circulating pump on the hot circulation pipeline of solar heating supply system, be equipped with the circulating pump on heat exchange water tank and secret heat - supply pipeline intercommunication and the raceway between the two, the inside intelligence watering mechanism that is equipped with of big -arch shelter, this system can be according to the irrigations that the water requirement is suitable of grape, therefore the pertinence of watering is stronger, has avoided the waste of valuable water resource.

Description

For the irrigation device in vineyard

Technical field

The utility model belongs to technology of Internet of things field, particularly relates to a kind of irrigation device for vineyard.

Background technology

At present, the plantation frequency increased about crop by the method for off-season cultivation is of common occurrence, as the greenhouse gardening etc. of vegetables.But existing greenhouse gardening can not be directly applied for wine-growing, therefore, existing grape still can only be limited in the particular season plantation in the middle of a year.In addition, irrigating vineyard is all man-made irrigation, increase the workload of staff, and efficiency is low.

Utility model content

The purpose of this utility model is the deficiency overcoming above-mentioned technology, and provides a kind of irrigation device for vineyard, can realize automatic irrigation.

The utility model for achieving the above object, by the following technical solutions: a kind of irrigation device for vineyard, is characterized in that: comprise booth, underground heat supplying pipeline and solar energy heat distribution system; Described solar energy heat distribution system is formed primarily of the thermal-collecting tube be interconnected, heat exchanger and heat-exchanging water tank, the thermal cycle pipeline of solar energy heat distribution system is provided with circulating pump, and described heat-exchanging water tank is communicated with underground heat supplying pipeline and water-supply-pipe is between the two provided with circulating pump; Described booth inside is provided with intelligent irrigation mechanism, and described intelligent irrigation mechanism comprises:

Warm and humid sensor, this warm and humid sensor exports the warm and humid detected value of soil, and is transported in described single-chip microcomputer by this warm and humid detected value;

Warm and humid sensor, is arranged in the alley of soil,

Single-chip microcomputer, for receiving the Temperature and Humidity value that warm and humid sensor exports, and controls the magnetic valve folding on water pump;

Water pipe, every root water pipe is separately positioned on one end of alley, for being every root alley conveying water;

Humidity sensor, is separately positioned on the other end of alley, is all completed by irrigation, if the other end monitoring alley has water to flow into, then give single-chip microcomputer control signal, single-chip microcomputer shut electromagnetic valve for the whether every root alley of monitoring;

Well, is connected with described water pump, for supplying water for water pipe;

Wireless transmitter module, for being sent to mobile phone by the information on single-chip microcomputer;

Mobile phone, receives the information that single-chip microcomputer sends, the duty of each sensor of Real-Time Monitoring;

Intelligent power supply unit, for powering for described single-chip microcomputer.

Be provided with liquid level sensor in described well, described liquid level sensor is connected with described single-chip microcomputer, and single-chip microcomputer gathers the liquid level information in well, and sends this information to mobile phone.

Thermal cycle pipeline on described solar energy heat distribution system is provided with expansion tube and fluid infusion case.

Beneficial effect: with grape at the booth of anti-season environment, is more conducive to the discharge of CO2 and the replacing of fresh air after photosynthesis and photosynthesis; The utility model intactly overcomes and changes over single off-season greenhouse heat exchange temperature, the vegetative period of grape (during being seeded into ripe and harvested) can be shifted to an earlier date or delay, to resist the output that the adverse effect of natural cause to grape growth improves unit are, and by the control to the grape growth phase, the plantation frequency of grape can be increased, reach better effect of increasing production with this; The irrigation that native system can be suitable for according to the water requirement of grape, the specific aim of thus watering is stronger, avoids the waste of valuable water resource.When the humidity sensor being positioned at alley end detect this alley irrigate full after, automatically can give single-chip microcomputer shutdown signal, by the valve closing on the water pipe that is positioned on this alley.The magnetic valve that native system controls easily according to the suitable increase of customer demand or minimizing, can realize wide magnitude control.The irrigation method of grape fruit tree is drip irrigation, and drip irrigation is undertaken by the mode of water dropper drop, and method is root water being directly delivered to fruit tree by rubber tube, fundamentally changes " irrigating the fields " and become " water tree, water root ".Watering period for grape is reasonable, also has following beneficial effect: 1. economize on water simultaneously, improves the availability of water; 2. reduce orchard air humidity, reduce damage by disease and insect and occur; 3. raise labour productivity; 4. production cost is reduced; 5. strong adaptability.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the schematic diagram of intelligent irrigation mechanism in the utility model.

Embodiment

Embodiment of the present utility model is described in detail below in conjunction with accompanying drawing and preferred embodiment.As shown in Figure 1, a kind of irrigation device for vineyard, comprises booth 1, underground heat supplying pipeline 2 and solar energy heat distribution system 3; In the utility model, in order to the effect can both planting grape throughout the year can be reached, set up described solar energy heat distribution system, form primarily of the thermal-collecting tube 4 be interconnected, heat exchanger 5 and heat-exchanging water tank 6, the thermal cycle pipeline of solar energy heat distribution system is provided with circulating pump 7, and described heat-exchanging water tank is communicated with underground heat supplying pipeline and water-supply-pipe is between the two provided with circulating pump; Generally, described underground tank is arranged in green house, described thermal-collecting tube is arranged on outside green house, thermal-collecting tube is placed on the top of green house, absorb solar energy, heated by water in heat-exchanging water tank through heat exchanger by the heat of solar energy, the hot water in the heat-exchanging water tank after heating is connected with underground heat supplying pipeline by circulating pump again.

As shown in Figure 2, described booth inside is provided with intelligent irrigation mechanism, described intelligent irrigation mechanism comprises: warm and humid sensor, be arranged in the alley of soil, export the warm and humid detected value of soil, and be transported in described single-chip microcomputer by this warm and humid detected value, this warm and humid sensor generally arranges multiple, adopt wireless or wired sensor, be generally embedded in the edge of a field.Single-chip microcomputer, adopt AVR single chip, cheap, control can be acted charitably, for receiving the Temperature and Humidity value that warm and humid sensor exports, and the magnetic valve folding controlled on water pump, first several numerical point and time point are set on single-chip microcomputer, when warm and humid sensor long-term exposure is to a higher temperature, or when humidity ratio is lower, corresponding magnetic valve enabling signal given by controller, controls water pipe water outlet.Water pipe, every root water pipe is separately positioned on one end of alley, for being every root alley conveying water.Humidity sensor, is separately positioned on the other end of alley, is all completed by irrigation, if the other end monitoring alley has water to flow into, then give single-chip microcomputer control signal, single-chip microcomputer shut electromagnetic valve for the whether every root alley of monitoring.Well, is connected with described water pump, for supplying water for water pipe; Wireless transmitter module, for being sent to mobile phone by the information on single-chip microcomputer.Mobile phone, receives the information that single-chip microcomputer sends, the duty of each sensor of Real-Time Monitoring.Intelligent power supply unit, for powering for described single-chip microcomputer.

Be provided with liquid level sensor in described well, described liquid level sensor is connected with described single-chip microcomputer, and single-chip microcomputer gathers the liquid level information in well, and sends this information to mobile phone.Can avoid controlling water pump when the water yield is few in well by arranging liquid level sensor.

The irrigation that native system can be suitable for according to the water requirement of grape, the specific aim of thus watering is stronger, avoids the waste of valuable water resource.When the humidity sensor being positioned at alley end detect this alley irrigate full after, automatically can give single-chip microcomputer shutdown signal, by the valve closing on the water pipe that is positioned on this alley.The magnetic valve that native system controls easily according to the suitable increase of customer demand or minimizing, can realize wide magnitude control.

The above is only preferred embodiment of the present utility model; it should be pointed out that for those skilled in the art, under the prerequisite not departing from the utility model principle; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (3)

1. for the irrigation device in vineyard, it is characterized in that: comprise booth, underground heat supplying pipeline and solar energy heat distribution system; Described solar energy heat distribution system is formed primarily of the thermal-collecting tube be interconnected, heat exchanger and heat-exchanging water tank, the thermal cycle pipeline of solar energy heat distribution system is provided with circulating pump, and described heat-exchanging water tank is communicated with underground heat supplying pipeline and water-supply-pipe is between the two provided with circulating pump; Described booth inside is provided with intelligent irrigation mechanism, and described intelligent irrigation mechanism comprises:

Warm and humid sensor, this warm and humid sensor exports the warm and humid detected value of soil, and is transported in single-chip microcomputer by this warm and humid detected value;

Warm and humid sensor, is arranged in the alley of soil,

Single-chip microcomputer, for receiving the Temperature and Humidity value that warm and humid sensor exports, and controls the magnetic valve folding on water pump;

Water pipe, every root water pipe is separately positioned on one end of alley, for being every root alley conveying water;

Humidity sensor, is separately positioned on the other end of alley, is all completed by irrigation, if the other end monitoring alley has water to flow into, then give single-chip microcomputer control signal, single-chip microcomputer shut electromagnetic valve for the whether every root alley of monitoring;

Well, is connected with described water pump, for supplying water for water pipe;

Wireless transmitter module, for being sent to mobile phone by the information on single-chip microcomputer;

Mobile phone, receives the information that single-chip microcomputer sends, the duty of each sensor of Real-Time Monitoring;

Intelligent power supply unit, for powering for described single-chip microcomputer.

2. the irrigation device for vineyard according to claim 1, it is characterized in that: be provided with liquid level sensor in described well, described liquid level sensor is connected with described single-chip microcomputer, and single-chip microcomputer gathers the liquid level information in well, and sends this information to mobile phone.

3. the irrigation device for vineyard according to claim 1, is characterized in that: the thermal cycle pipeline on described solar energy heat distribution system is provided with expansion tube and fluid infusion case.