CN215774524U - Cultivation greenhouse for improving fruit bearing rate of Chinese torreya - Google Patents

Abstract

The utility model provides a cultivation greenhouse for improving the fruit bearing rate of Chinese torreya. The cultivation big-arch shelter that improves chinese torreya fruit bearing rate includes: the greenhouse body is arranged on the ground, and a constant temperature control mechanism is arranged on the greenhouse body; constant temperature control mechanism is including support column, PLC controller, installation piece, temperature and humidity sensor, singlechip, electricity generation film, two temperature components, the support column sets up at the canopy internally, support column fixed mounting is subaerial, PLC controller fixed mounting is at the top of support column. The cultivation greenhouse for improving the fruit bearing rate of the Chinese torreya can control the temperature to achieve a constant temperature state, can accurately detect the soil of the Chinese torreya, can achieve the function of quantitative irrigation, and can further avoid the damage and resource waste of the Chinese torreya caused by excessive watering.

Description

Cultivation greenhouse for improving fruit bearing rate of Chinese torreya

Technical Field

The utility model belongs to the technical field of cultivation greenhouses, and particularly relates to a cultivation greenhouse for improving the fruit bearing rate of Chinese torreya.

Background

The torreya grandis mainly has the effects of supplementing trace elements in a body, promoting absorption of mineral substances such as protein and fat in the body and achieving a health-care effect, so that torreya grandis trees are cultivated in a greenhouse in many places, the temperature environment of the greenhouse is an important factor influencing growth of crops, and therefore a temperature control system needs to be arranged inside the greenhouse. The horizontal pole is hollow structure and link up with the radiator formation, the heating installation passes through the horizontal pole and conveys on the heating installation, be convenient for improve temperature in the big-arch shelter, the water pipe carries out the water injection and executes water through the watering shower nozzle when the temperature is higher in the canopy, cool down through executing water, be in the constant temperature state in effectively keeping the big-arch shelter, the ventilator is through gas exchange pipeline with gaseous emission in the canopy and inhale fresh air, maintain the temperature in the canopy and air quality constancy relatively, the creation is favorable to vegetation's environment, temperature detector carries out real time monitoring to the temperature in the canopy, a detection for temperature in the canopy, judge inside and outside difference in temperature condition, the planting personnel of being convenient for monitor.

However, there are still deficiencies in the above-mentioned structure, especially there are not enough in the time of control temperature and cultivation crops, when the high temperature of big-arch shelter needs to reduce, need reduce the temperature in the big-arch shelter through precipitation, but at the in-process of precipitation, can't confirm whether crops lack of water, if just under the high temperature and the condition of lack of water, reduce the temperature through precipitation and can cause the damage to crops, for example mashed root etc. still can cause water waste simultaneously.

Therefore, there is a need to provide a new cultivation greenhouse for improving the fruit bearing rate of torreya grandis to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a cultivation greenhouse which can control the temperature to further achieve a constant temperature state, can accurately detect the soil of Chinese torreya trees to achieve the function of quantitative irrigation, and can avoid damage and resource waste to the Chinese torreya trees due to excessive watering.

In order to solve the technical problems, the cultivation greenhouse for improving the fruit bearing rate of the Chinese torreya provided by the utility model comprises: the greenhouse body is arranged on the ground, and a constant temperature control mechanism is arranged on the greenhouse body; the constant temperature control mechanism comprises a support column, a PLC (programmable logic controller), an installation block, a temperature and humidity sensor, a single chip microcomputer, a power generation film and two temperature components, wherein the support column is arranged in the shed body, the support column is fixedly installed on the ground, the PLC is fixedly installed at the top of the support column, the installation block is fixedly installed on the inner wall of the top of the shed body, the temperature and humidity sensor is fixedly installed at the bottom of the installation block, the single chip microcomputer is located on one side of the temperature and humidity sensor, the power generation film is arranged at the top of the shed body, and the two temperature components are arranged on the shed body; the temperature subassembly is including refrigeration piece and fin, the refrigeration piece sets up on one side inner wall of the canopy body, the fin sets up on one side outer wall of the canopy body, refrigeration piece and fin looks adaptation.

As a further scheme of the utility model, a ventilation and dehumidification component is arranged in the shed body, the ventilation and dehumidification component comprises a mounting column, a ventilator, a ventilation pipeline, a dehumidifier and an exhaust pipe, the mounting column is fixedly mounted on the ground, the ventilator is mounted on the mounting column, the ventilation pipeline is arranged on the ventilator, one end of the ventilation pipeline, far away from the ventilator, extends out of one side of the shed body, the dehumidifier is mounted on the mounting column, the exhaust pipe is arranged on the dehumidifier, and one end of the exhaust pipe, far away from the dehumidifier, extends out of one side of the shed body.

As a further scheme of the utility model, a plurality of planting assemblies are arranged in the shed body and distributed in two rows, each planting assembly comprises a circular sleeve, the circular sleeves are arranged on the ground, soil is arranged in the circular sleeves, and torreya grandis trees are planted on the circular sleeves.

As a further scheme of the utility model, a watering detection assembly is arranged on the planting assembly, the watering detection assembly comprises four support rods, an annular pipe, a plurality of atomizing nozzles, a soil humidity sensor, a soil temperature sensor and a first water pipe, the four support rods are all arranged at the top of a circular sleeve, the four support rods are distributed in an annular array, the annular pipe is arranged on a torreya grandis tree, the bottom of the annular pipe is fixedly connected with the top ends of the four support rods, the plurality of atomizing nozzles are all fixedly arranged at the bottom of the annular pipe, the soil humidity sensor is arranged on soil in the circular sleeve, a detection head of the soil humidity sensor extends into soil below the circular sleeve, the soil temperature sensor is arranged on soil in the circular sleeve, the detection head of the soil temperature sensor extends into soil below the circular sleeve, first water pipe fixed mounting is on the annular pipe, and the one end fixed mounting that a plurality of first water pipes kept away from the annular pipe has same first connecting pipe.

As a further scheme of the utility model, a water pumping assembly is arranged in the shed body and comprises a water pump, a water pumping pipe and a water drainage pipe, the water pump is arranged on the ground, the water pumping pipe is fixedly arranged on a water pumping opening of the water pump, one end of the water pumping pipe, far away from the water pump, extends out of one side of the shed body, and the water drainage pipe is fixedly arranged on a water drainage opening of the water pump.

As a further scheme of the utility model, a connection assembly is arranged in the greenhouse body, the connection assembly comprises a second water pipe, a first electromagnetic valve, a second connection pipe and a second electromagnetic valve, the second water pipe is fixedly arranged at one end of the water discharge pipe far away from the water pump, one end of the second water pipe far away from the water discharge pipe is fixedly connected with the outer wall of one side of the corresponding first connection pipe, the first electromagnetic valve is arranged on the second water pipe, the second connection pipe is fixedly arranged on the outer wall of one side of the second water pipe, one end of the second connection pipe far away from the second water pipe is fixedly connected with the outer wall of one side of the corresponding first connection pipe, and the second electromagnetic valve is arranged on the second connection pipe.

Compared with the prior art, the cultivation greenhouse for improving the fruit bearing rate of the Chinese torreya has the following beneficial effects:

1. the utility model can control the temperature by arranging the constant temperature control mechanism, thereby achieving the constant temperature state and improving the fruit bearing rate of the torreya grandis;

2. according to the utility model, the planting assembly, the watering detection assembly, the water pumping assembly and the connecting assembly are matched with each other, so that the soil of the Chinese torreya trees can be accurately detected, the quantitative irrigation function can be achieved, and the damage and resource waste to the Chinese torreya trees caused by excessive watering can be avoided.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic front sectional view of the present invention;

FIG. 2 is an enlarged schematic view of portion A of FIG. 1;

fig. 3 is an assembly view of a first water pipe, a first connection pipe and a second water pipe in the present invention.

In the figure: 1. a shed body; 2. a support pillar; 3. a PLC controller; 4. mounting blocks; 5. a temperature and humidity sensor; 6. a single chip microcomputer; 7. a power generating film; 8. a refrigeration plate; 9. a heat sink; 10. mounting a column; 11. a ventilator; 12. a ventilation duct; 13. a dehumidifier; 14. an exhaust pipe; 15. a circular sleeve; 16. chinese torreya trees; 17. a support bar; 18. an annular tube; 19. an atomizing spray head; 20. a soil humidity sensor; 21. a soil temperature sensor; 22. a first water pipe; 23. a first connecting pipe; 24. a water pump; 25. a water pumping pipe; 26. a drain pipe; 27. a second water pipe; 28. a first solenoid valve; 29. a second connecting pipe; 30. a second solenoid valve.

Detailed Description

Please refer to fig. 1, fig. 2 and fig. 3 in combination, wherein fig. 1 is a schematic front sectional view of the present invention; FIG. 2 is an enlarged schematic view of portion A of FIG. 1; fig. 3 is an assembly view of a first water pipe, a first connection pipe and a second water pipe in the present invention. Improve cultivation big-arch shelter of chinese torreya fruit bearing rate includes: the greenhouse comprises a greenhouse body 1 arranged on the ground, wherein a constant temperature control mechanism is arranged on the greenhouse body 1;

the constant temperature control mechanism comprises a support column 2, a PLC (programmable logic controller) 3, an installation block 4, a temperature and humidity sensor 5, a single chip microcomputer 6, a power generation film 7 and two temperature components, wherein the support column 2 is arranged in the shed body 1, the support column 2 is fixedly installed on the ground, the PLC 3 is fixedly installed at the top of the support column 2, the installation block 4 is fixedly installed on the inner wall of the top of the shed body 1, the temperature and humidity sensor 5 is fixedly installed at the bottom of the installation block 4, the single chip microcomputer 6 is located on one side of the temperature and humidity sensor 5, the power generation film 7 is arranged at the top of the shed body 1, and the two temperature components are arranged on the shed body 1;

the temperature subassembly is including refrigeration piece 8 and fin 9, refrigeration piece 8 sets up on one side inner wall of the canopy body 1, fin 9 sets up on one side outer wall of the canopy body 1, refrigeration piece 8 and fin 9 looks adaptation.

As shown in fig. 1, a ventilation and dehumidification component is arranged in the greenhouse body 1, the ventilation and dehumidification component comprises a mounting column 10, a ventilator 11, a ventilation pipeline 12, a dehumidifier 13 and an exhaust pipe 14, the mounting column 10 is fixedly mounted on the ground, the ventilator 11 is mounted on the mounting column 10, the ventilation pipeline 12 is arranged on the ventilator 11, one end of the ventilation pipeline 12, which is far away from the ventilator 11, extends to the outside of one side of the greenhouse body 1, the dehumidifier 13 is mounted on the mounting column 10, the exhaust pipe 14 is arranged on the dehumidifier 13, and one end of the exhaust pipe 14, which is far away from the dehumidifier 13, extends to the outside of one side of the greenhouse body 1.

As shown in fig. 1, a plurality of planting assemblies are arranged in the canopy body 1, the plurality of planting assemblies are distributed in two rows, each planting assembly comprises a circular sleeve 15, the circular sleeves 15 are arranged on the ground, soil is arranged in the circular sleeves 15, and torreya grandis trees 16 are planted on the circular sleeves 15.

As shown in fig. 1, the planting assembly is provided with a watering detection assembly, the watering detection assembly comprises four support rods 17, an annular tube 18, a plurality of atomizing nozzles 19, a soil humidity sensor 20, a soil temperature sensor 21 and a first water pipe 22, the four support rods 17 are all installed at the top of the circular sleeve 15, the four support rods 17 are distributed in an annular array, the annular tube 18 is arranged on the torreya grandis tree 16, the bottom of the annular tube 18 is fixedly connected with the top ends of the four support rods 17, the atomizing nozzles 19 are all fixedly installed at the bottom of the annular tube 18, the soil humidity sensor 20 is arranged on soil in the circular sleeve 15, a detection head of the soil humidity sensor 20 extends into soil below the circular sleeve 15, the soil temperature sensor 21 is arranged on soil in the circular sleeve 15, the detection head of the soil temperature sensor 21 extends into soil below the circular sleeve 15, the first water pipes 22 are fixedly arranged on the annular pipe 18, and one end of each of the first water pipes 22, which is far away from the annular pipe 18, is fixedly provided with the same first connecting pipe 23;

through setting up the detection subassembly that waters for can come to detect the soil of cultivating chinese torreya tree 16, and then can come the accurate judgement chinese torreya tree 16 advantage that whether needs watering.

As shown in fig. 1, a water pumping assembly is arranged in the greenhouse body 1, the water pumping assembly comprises a water pump 24, a water pumping pipe 25 and a water drainage pipe 26, the water pump 24 is installed on the ground, the water pumping pipe 25 is fixedly installed on a water pumping port of the water pump 24, one end of the water pumping pipe 25, which is far away from the water pump 24, extends to the outside of one side of the greenhouse body 1, and the water drainage pipe 26 is fixedly installed on a water drainage port of the water pump 24.

As shown in fig. 1, a connection assembly is arranged in the canopy body 1, the connection assembly includes a second water pipe 27, a first electromagnetic valve 28, a second connection pipe 29 and a second electromagnetic valve 30, the second water pipe 27 is fixedly installed at one end of the water discharge pipe 26 far away from the water pump 24, one end of the second water pipe 27 far away from the water discharge pipe 26 is fixedly connected with the outer wall of one side of the corresponding first connection pipe 23, the first electromagnetic valve 28 is arranged on the second water pipe 27, the second connection pipe 29 is fixedly installed on the outer wall of one side of the second water pipe 27, one end of the second connection pipe 29 far away from the second water pipe 27 is fixedly connected with the outer wall of one side of the corresponding first connection pipe 23, and the second electromagnetic valve 30 is arranged on the second connection pipe 29;

through setting up coupling assembling for be convenient for come to water the advantage of two rows of chinese torreya trees 16.

The working principle of the cultivation greenhouse for improving the fruit bearing rate of the Chinese torreya provided by the utility model is as follows:

the power generation film 7 is sequentially connected with a refrigerating sheet 8 and a radiating sheet 9, the PLC 3, a temperature and humidity sensor 5, a single chip microcomputer 6, a ventilator 11, a dehumidifier 13, a soil humidity sensor 20, a soil temperature sensor 21 and a water pump 24 are all connected with an external power supply, the temperature and humidity sensor 5, the soil humidity sensor 20 and the soil temperature sensor 21 are all connected with the single chip microcomputer 6, the single chip microcomputer 6 is connected with the PLC 3, the single chip microcomputer 6 is connected with the refrigerating sheet 8 and the radiating sheet 9 and is controlled by a PLC, the PLC 3 is connected with the ventilator 11, the dehumidifier 13 and a water pumping pipe 25, and the water pumping pipe 25 extends into a water source;

the first step is as follows: when the fruit bearing rate of the torreya grandis 16 needs to be improved, firstly, the temperature in the greenhouse body 1 needs to be controlled to ensure that the temperature is in a constant temperature state, and the moisture of soil is in a proper state, so that the temperature and the humidity in the greenhouse body 1 can be detected through the temperature and humidity sensor 5, when the temperature is too high or low, the temperature and humidity sensor 5 transmits information to the single chip microcomputer 6, the single chip microcomputer 6 controls the current direction and the current intensity between the refrigerating piece 8 and the radiating fin 9 to realize heating and radiating in the greenhouse body 1, the temperature and the radiating can be quickly reached to the constant temperature state, and the power generation film 7 can be used for supplying power to the refrigerating piece 8 and the radiating fin 9 (the refrigerating piece 8 and the radiating fin 9 can also be connected with an external power supply);

the second step is as follows: in the process of cultivating the torreya grandis 16, the temperature and the humidity of the soil for planting the torreya grandis 16 can be detected through the soil humidity sensor 20 and the soil temperature sensor 21, when the temperature of the soil is too high and the humidity is low, the soil temperature sensor 21 and the soil temperature sensor 21 transmit information to the single chip microcomputer 6, at the moment, the single chip microcomputer 6 sends an instruction to the PLC 3 through the information, the PLC 3 firstly opens the first electromagnetic valve 28, then the water pump 24 is started to operate, water is pumped through the water pumping pipe 25, water is discharged into the first water pipes 22 through the water discharging pipe 26, the second water pipe 27 and the first connecting pipe 23, the water is conveyed into the annular pipe 18 through the first water pipe 22 and then is sprayed out through the atomizing nozzles 19, the soil in the circular sleeve 15 and the soil below the circular sleeve 15 are irrigated to ensure that the soil is not thirsty, after humidity and temperature reach the standard, soil moisture sensor 20 and soil temperature sensor 21 will be with information transfer for singlechip 6, and the same reason, singlechip 6 will send the instruction to PLC controller 3, close first solenoid valve 28 through PLC controller 3, open second connecting pipe 29, and the same reason, water can discharge in another group of first connecting pipe 23 through drain pipe 26, second water pipe 27 and second connecting pipe 29, with the aforesaid, continue to irrigate the work, make it reach the appointed standard, so not only easy operation is convenient for detect the soil of planting chinese torreya 16, make it can the ration irrigate, and then can avoid leading to the fact the advantage of damage and wasting of resources to chinese torreya 16.

It should be noted that the device structure and the accompanying drawings of the present invention mainly describe the principle of the present invention, and in the technology of the design principle, the settings of the power mechanism, the power supply system, the control system, and the like of the device are not completely described and clear, and on the premise that the skilled person understands the principle of the utility model, the details of the power mechanism, the power supply system, and the control system can be clearly known, the control mode of the application document is automatically controlled by the controller, and the control circuit of the controller can be realized by simple programming of the skilled person in the art;

the standard parts used in the method can be purchased from the market, and can be customized according to the description of the specification and the accompanying drawings, the specific connection mode of each part adopts conventional means such as mature bolts, rivets, welding and the like in the prior art, the machines, parts and equipment adopt conventional models in the prior art, and the structure and the principle of the parts known by the skilled person can be known by technical manuals or conventional experimental methods.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments, or a direct or indirect use of these embodiments, without departing from the principles and spirit of the utility model, the scope of which is defined in the claims and their equivalents, which are to be included in the scope of the utility model as defined in the claims.

Claims (6)

1. The utility model provides an improve cultivation big-arch shelter of torreya grandis fruit bearing rate which characterized in that includes:

the greenhouse body is arranged on the ground, and a constant temperature control mechanism is arranged on the greenhouse body;

the constant temperature control mechanism comprises a support column, a PLC (programmable logic controller), an installation block, a temperature and humidity sensor, a single chip microcomputer, a power generation film and two temperature components, wherein the support column is arranged in the shed body, the support column is fixedly installed on the ground, the PLC is fixedly installed at the top of the support column, the installation block is fixedly installed on the inner wall of the top of the shed body, the temperature and humidity sensor is fixedly installed at the bottom of the installation block, the single chip microcomputer is located on one side of the temperature and humidity sensor, the power generation film is arranged at the top of the shed body, and the two temperature components are arranged on the shed body;

the temperature subassembly is including refrigeration piece and fin, the refrigeration piece sets up on one side inner wall of the canopy body, the fin sets up on one side outer wall of the canopy body, refrigeration piece and fin looks adaptation.

2. A cultivation greenhouse for improving the fruit bearing rate of Chinese torreya according to claim 1, which is characterized in that: the greenhouse is characterized in that a ventilation and dehumidification component is arranged in the greenhouse body and comprises a mounting column, a ventilator, a ventilation pipeline, a dehumidifier and an exhaust pipe, wherein the mounting column is fixedly mounted on the ground, the ventilator is mounted on the mounting column, the ventilation pipeline is arranged on the ventilator, one end, far away from the ventilator, of the ventilation pipeline extends to the outside of one side of the greenhouse body, the dehumidifier is mounted on the mounting column, the exhaust pipe is arranged on the dehumidifier, and one end, far away from the dehumidifier, of the exhaust pipe extends to the outside of one side of the greenhouse body.

3. A cultivation greenhouse for improving the fruit bearing rate of Chinese torreya according to claim 1, which is characterized in that: the internal a plurality of subassemblies of planting that are equipped with of canopy, a plurality of subassemblies of planting are two rows of distributions, the subassembly of planting is including circular sleeve, circular sleeve installs subaerial, be equipped with soil in the circular sleeve, circular sleeve is last to plant Chinese torreya tree.

4. A cultivation greenhouse for improving fruit bearing rate of Chinese torreya according to claim 3, wherein: the planting assembly is provided with a watering detection assembly, the watering detection assembly comprises four support rods, an annular pipe, a plurality of atomizing spray heads, a soil humidity sensor, a soil temperature sensor and a first water pipe, the four support rods are all arranged at the top of the circular sleeve and distributed in an annular array, the annular pipe is arranged on a torreya grandis tree, the bottom of the annular pipe is fixedly connected with the top ends of the four support rods, the atomizing spray heads are all fixedly arranged at the bottom of the annular pipe, the soil humidity sensor is arranged on soil in the circular sleeve, a detection head of the soil humidity sensor extends into soil below the circular sleeve, the soil temperature sensor is arranged on soil in the circular sleeve, the detection head of the soil temperature sensor extends into soil below the circular sleeve, the first water pipe is fixedly arranged on the annular pipe, one end of each first water pipe far away from the annular pipe is fixedly provided with the same first connecting pipe.

5. A cultivation greenhouse for improving the fruit bearing rate of Chinese torreya according to claim 1, which is characterized in that: the internal subassembly that draws water that is equipped with of canopy, the subassembly that draws water is including water pump, drinking-water pipe and drain pipe, the water pump is installed subaerial, drinking-water pipe fixed mounting is on the mouth that draws water of water pump, the one end that the water pump was kept away from to the drinking-water pipe extends to outside one side of the canopy body, drain pipe fixed mounting is on the outlet of water pump.

6. A cultivation greenhouse for improving fruit bearing rate of Chinese torreya according to claim 5, wherein: the internal coupling assembling that is equipped with of canopy, coupling assembling is including second water pipe, first solenoid valve, second connecting pipe and second solenoid valve, second water pipe fixed mounting is served at one of keeping away from the water pump at the drain pipe, the one end of drain pipe and one side outer wall fixed connection of the first connecting pipe that corresponds are kept away from to the second water pipe, first solenoid valve sets up on the second water pipe, second connecting pipe fixed mounting is on one side outer wall of second water pipe, one end that the second water pipe was kept away from to the second connecting pipe and one side outer wall fixed connection of the first connecting pipe that corresponds, the second solenoid valve sets up on the second connecting pipe.

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