CN112640642A

CN112640642A - Ecological cycle's automatic watering device of perpendicular building pattern of agricultural

Info

Publication number: CN112640642A
Application number: CN202011570654.XA
Authority: CN
Inventors: 胡丹萍
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-26
Filing date: 2020-12-26
Publication date: 2021-04-13

Abstract

The invention discloses an ecological-cycle agricultural vertical building mode automatic irrigation device which comprises an irrigation protection room, wherein a water pipe network mechanism is connected to the irrigation protection room and comprises a first water pump, a main pipe is connected to the first water pump and penetrates through the irrigation protection room, a plurality of uniformly-distributed land fences are arranged in the irrigation protection room, a spraying mechanism matched with the land fences is connected to the main pipe, a drip irrigation mechanism is connected to the main pipe, an irrigation control box is connected to the irrigation protection room, and the drip irrigation mechanism comprises a pair of drip irrigation branch pipes. According to the invention, through the arrangement of the corresponding mechanism on the automatic irrigation device, the irrigation device in ecological agriculture can be controlled through a mobile phone, so that the time of a user can be distributed more freely, the possibility of water cut-off of the irrigation device is greatly reduced, the phenomenon that the planted plants die after water cut-off is avoided, and the loss of the user is greatly reduced.

Description

Ecological cycle's automatic watering device of perpendicular building pattern of agricultural

Technical Field

The invention belongs to the technical field of irrigation equipment, and particularly relates to an ecological cycle agricultural vertical building mode automatic irrigation device.

Background

The ecological agriculture adopts modern scientific and technical achievements and modern management means according to the ecological principle and the economic principle, and the modern high-efficiency agriculture which is established by the effective experience of the traditional agriculture and can obtain higher economic benefit, ecological benefit and social benefit, the method requires the combination of the development of grain and the production of various economic crops, the development of field planting and forestry, grazing, subsidiary and fishery, the development of the large agriculture and the second and third industries, and utilizes the traditional agriculture essence and the modern scientific and technological achievement, through the contradiction between the artificial design ecological engineering, the coordinated development and the environment and the resource utilization and protection, two virtuous cycles on ecology and economy are formed, the three benefits of economy, ecology and society are unified, and the development space of ecological agriculture is further developed deeply along with the acceleration of the process of urbanization and the rapid development of traffic in China.

The ecological agriculture develops more and more rapidly with the lapse of time, but some shortcomings are exposed in the visual field of people, because the irrigation device of the ecological agriculture can not be taken away from the care of the user for a long time, the user can not freely distribute the time, once the emergency happens and the user goes on a business for a period of time, the irrigation device can be cut off the water because of no care, most of the planted plants die because of the cut-off of the water, the survival rate of the planted plants is greatly reduced, and a great amount of loss of the user is caused.

Therefore, in view of the above technical problems, there is a need for an ecological cycle agricultural vertical building mode automatic irrigation device.

Disclosure of Invention

The invention aims to provide an ecological cycle agricultural vertical building mode automatic irrigation device, which solves the problems that the irrigation device cannot be separated from the nursing of a user for a long time and the irrigation device is cut off when the user is in an emergency.

In order to achieve the above object, an embodiment of the present invention provides the following technical solutions:

the utility model provides an automatic watering device of perpendicular building pattern of agricultural of ecological cycle, includes watering protection room, be connected with water pipe network mechanism on the watering protection room, water pipe network mechanism includes first water pump, be connected with the person in charge on the first water pump, be responsible for and run through watering protection room setting, be equipped with a plurality of evenly distributed's soil rail in the watering protection room, be connected with on being responsible for and spray mechanism with soil rail assorted, be connected with on being responsible for and drip irrigation the mechanism, be connected with the watering control box in the watering protection room.

Furthermore, the drip irrigation mechanism comprises a pair of drip irrigation branch pipes, the pair of drip irrigation branch pipes are arranged to enable water in the main pipe to be divided, the first water pump can control water pressure in the drip irrigation branch pipes, the drip irrigation branch pipes can convey drip irrigation ascending pipes, the pair of drip irrigation branch pipes are connected with the main pipe, the drip irrigation branch pipes are connected with the main pipe to enable the drip irrigation branch pipes to use water extracted by the first water pump, the drip irrigation branch pipes are connected with a plurality of drip irrigation ascending pipes which are uniformly distributed, the drip irrigation ascending pipes can enable water extracted by the first water pump to be conveyed to the upper portion of the land fence, the drip irrigation ascending pipes are connected with drip irrigation electronic ball valves, the drip irrigation electronic ball valves can be arranged to control water flow in the drip irrigation ascending pipes, and the control of the drip irrigation electronic ball valves is realized through the irrigation control box, so that the water outlet quantity of each, plant through planting in the soil rail is different, the control water yield, it is connected with the side wall fixed block to drip irrigation between tedge and the watering protection room, the stability of tedge has been driped irrigation in the setting of side wall fixed block by a wide margin to have promoted, the condition emergence of having avoided dripping irrigation the tedge because the motion of water and toppling over, the restriction that makes to drip irrigation the tedge can receive the side wall fixed block is stabilized, the side wall fixed block is connected with the watering protection room, the stability of side wall fixed block has been promoted by a wide margin, the stability of the tedge is driped irrigation by the restriction of side wall fixed block is higher, the condition that the tedge slope was driped irrigation to the flow messenger of having avoided dripping irrigation the tedge of water in the tedge takes place, avoided because it leads to.

Furthermore, a connecting rod is connected between the pair of drip irrigation rising pipes, the connecting rod is connected with the pair of drip irrigation rising pipes, so that the extended ends of the drip irrigation rising pipes can be connected through the connecting rod, meanwhile, the connecting rod can be arranged to block the opposite surfaces of the pair of drip irrigation rising pipes, the leakage of water is avoided, the waste of water resources is greatly reduced, meanwhile, the arrangement of the connecting rod limits the flow direction of the water in the drip irrigation rising pipes, the water in the drip irrigation rising pipes cannot flow between the pair of land fences, the situation that the spraying electronic ball valve is short-circuited due to the dripping of the water is avoided, a plurality of uniformly distributed dripping holes are drilled on one side of the drip irrigation rising pipes, close to the land, the dripping holes are arranged to provide outlets for the water in the drip irrigation rising pipes, so that the water in the drip irrigation rising pipes can be released and can drip into the land fences through the dripping holes, simultaneously the side wall fixed block can restrict the discharge in driping irrigation the tedge, makes the watering control box can control the discharge in driping irrigation the tedge drippage hole, makes the control that the user can be free, be connected with the roof fixed block between connecting rod and the watering protection room, the position of connecting rod has been stabilized by a wide margin in the setting of roof fixed block, the tedge that drips irrigation that makes the connecting rod both ends can receive pulling of connecting rod, the possibility that the tedge of drippaging irrigation topples has been avoided, the connection of roof fixed block and watering protection room has simultaneously reduced the possibility that the connecting rod dropped by a wide margin, the position of restriction connecting rod that makes the roof fixed block can be more stable when using, the rocking of connecting rod has been avoided, make the tedge of drippaging irrigation can not produce when using and rock, the possibility that.

Furthermore, the watering protection house is connected with a water storage tank, the water storage tank can store water resources, the service life of the watering device is greatly prolonged, the maintenance frequency of a user can be reduced, meanwhile, the water storage tank can supply water to the spraying mechanism and the drip irrigation mechanism by virtue of the extraction of the first water pump, the basic help is provided for the spraying mechanism and the drip irrigation mechanism, the service lives of the spraying mechanism and the drip irrigation mechanism are greatly prolonged, the first water pump penetrates through the water storage tank, the connectivity between the water storage tank and the first water pump is greatly improved by the arrangement of the first water pump penetrating through the water storage tank, the possibility of leakage between the first water pump and the water storage tank is greatly reduced, the relative position between the first water pump and the water storage tank is more stable, and meanwhile, the sealing performance between the first water pump and the water storage tank is greatly improved by the arrangement of the first water pump penetrating through, the situation that fresh water in the water storage tank is leaked is avoided, the nutrient tank is connected to the irrigation protection house, nutrient solution is provided in the water storage tank through the arrangement of the nutrient tank, the proportion of different proportions of the nutrient solution and the fresh water is realized through the control of the irrigation control box on the nutrient pump, the survival probability of plants planted in the land fence is greatly improved, the possibility of volatilization of the nutrient solution is reduced through the arrangement of the nutrient tank, the nutrient solution can be better stored, the waste situation is greatly reduced, the nutrient pump is connected between the nutrient tank and the water storage tank, the nutrient solution in the nutrient tank can enter the water storage tank to be mixed with the fresh water through the arrangement of the nutrient pump, the proportion can be controlled through the arrangement of the nutrient pump, the nutrient pump respectively penetrates through the arrangement of the water storage tank and the nutrient tank, and the arrangement of the nutrient pump respectively penetrating through the water storage tank and the nutrient tank greatly reduces the possibility of leakage of, the connectivity of the water storage tank, the nutrition box and the nutrition pump is greatly improved.

Furthermore, the spraying mechanism comprises a spraying branch pipe, the spraying branch pipe is arranged to communicate a main pipe with a spraying vertical pipe, fresh water mixed with nutrient solution in the main pipe can enter the spraying vertical pipe, the spraying branch pipe is used for shunting the main pipe, so that water in the main pipe can water a plurality of land fences, more land fences can be irrigated, the spraying branch pipe is communicated with the main pipe, the communication between the spraying branch pipe and the main pipe enables the arrangement of the spraying branch pipe to be more stable, the stability of the spraying branch pipe in operation is greatly improved, the balance of a spraying electronic ball valve connected on the spraying branch pipe is greatly improved, the possibility that the lifting pipe is inclined after being impacted by water is avoided, the spraying branch pipe penetrates through the land, the arrangement of the spraying branch pipe penetrating through the land fences greatly improves the connectivity between the spraying branch pipe and the land fences, and water in the land fences of the spraying branch pipe can not permeate out after irrigation, make the water in the soil rail can not reveal through the junction that sprays branch pipe and soil rail, reduced the waste of water resource by a wide margin, strengthened the accuracy nature of watering water volume in the soil rail simultaneously, make the plant of planting in the soil rail can be better obtain the nourishment of fresh water, it sprays the ball valve to be connected with on the branch pipe, the setting up that sprays the ball valve makes the person in charge's entering water yield that sprays the branch pipe can obtain controlling, makes the branch pipe that sprays carry out the control of water yield according to the different plants of planting in the soil rail, sprays the ball valve simultaneously and can close, only opens one, realizes the watering of pertinence, can open the corresponding ball valve that sprays when humidity is not enough in the individual rail soil and spray the soil rail.

Furthermore, the spraying branch pipes are connected with the spraying vertical pipes, the possibility of inclination of the spraying vertical pipes is greatly reduced through the connection of the spraying branch pipes and the main pipe, so that better irrigation can be achieved in a land fence, lifting pipes are arranged in the spraying vertical pipes, the lifting pipes are in sliding connection with the spraying vertical pipes, the lifting pipes can ascend when the spraying vertical pipes receive water impact, the lifting pipes can descend according to self gravity when the water pressure in the spraying vertical pipes is insufficient, the lifting pipes can slide upwards when spraying is performed, the possibility of dust entering the lifting pipes is greatly reduced, the possibility of dust invasion is greatly reduced, the service life of the lifting pipes is greatly prolonged, lifting grooves matched with the lifting pipes are drilled in the spraying vertical pipes, and the sliding range of the lifting pipes is limited by the arrangement of the lifting grooves, the restriction that makes the fall way can receive the spraying riser reduces the possibility that breaks away from the spraying riser by a wide margin, makes the setting of fall way more stable, has promoted the life of fall way by a wide margin, avoids the fall way to break away from the possibility that leads to the loss.

Furthermore, a plurality of spraying holes distributed in an annular shape are drilled on the lifting pipe, the water in the spraying vertical pipe can be limited by the lifting pipe after entering the lifting pipe due to the arrangement of the spraying holes, the water pressure is continuously increased, the pressure is intelligently relieved through the spraying holes, the spraying holes are leaked when the lifting pipe slides upwards, the water in the lifting pipe is relieved through the spraying holes, the fresh water in the lifting pipe can be further sprayed, the range of spraying the fresh water in the lifting pipe is larger, the water quantity can be controlled through the adjustment of the spraying electronic ball valve, the full coverage of the land fence is realized through the control of the water quantity, the spraying outside the land fence is avoided, the utilization rate of the fresh water is greatly improved, the waste is avoided, the fresh water in the water storage tank can be used for a longer time, the lifting pipe is connected with a lifting block, the lifting block is arranged and connected with the lifting pipe, and the downward sliding distance of the lifting pipe can be limited through the lifting block when the lifting pipe slides downwards, the sealed elevator of elevator can avoid the elevator to fall the condition emergence that can't take out in spraying the riser when the elevator seals up the elevator, and the elevator carries out the capping for the elevator simultaneously, provides help for the pressurization of fresh water in the elevator, and the elevator receives can drive the elevator to go up and down after the impact of water simultaneously, reveals out the spray hole.

Furthermore, a scanning probe matched with the land fence is arranged in the irrigation protection house, the scanning probe can scan the plants planted in the land fence through a scanning system and upload the plants to the irrigation control box, so that the irrigation control box can identify the plants planted in the land fence and take the best measures, the scanning probe is connected with the irrigation protection house, the possibility of separation of the scanning probe is greatly reduced due to the connection of the scanning probe and the irrigation protection house, the connection of the scanning probe is more stable, the irrigation control box is internally provided with an identification system, the identification system comprises a scanning module, a retrieval module, a storage module, a comparison module, an irrigation module, a timing module and a setting module, the scanning module is used for scanning the plants planted in the land fence through the scanning probe, and the scanning success rate of the scanning probe on the plants in the land fence is greatly improved due to the arrangement of the scanning module, the retrieval module is used for retrieving the best irrigation mode of the planted plants, the retrieval module can search on the network, the best irrigation mode of the planted plants in the land fence can be obtained on the network by comparing the information scanned by the scanning module with the information on the network, the storage module is used for storing the information retrieved by the retrieval module, the best irrigation mode of the current plants can be stored by the storage module, the information can be directly extracted from the storage module when the plants are planted next time, the efficiency of the identification system is greatly improved, the comparison module is used for comparing the current irrigation mode with the best irrigation mode, and the comparison module can compare the current irrigation mode with the best irrigation mode, when the comparison is not matched, the best irrigation mode is selected through the irrigation module for irrigation, the irrigation module is used for adjusting the irrigation mode of the current planted plant, the setting of the irrigation module can be adjusted through the information transmitted by the comparison module, so that the current planted plant can be optimally irrigated, the setting module is used for manually setting the irrigation mode of the current planted plant, the setting of the setting module can be manually set by a user, the user can irrigate in the artificial best irrigation mode of the user through the setting module, the timing module is used for recording time and setting timing irrigation time, the setting of the timing module can control the opening time of the electronic spraying ball valve and the electronic drip irrigation ball valve, and meanwhile, the water flow of the electronic spraying ball valve and the electronic drip irrigation ball valve can be controlled through the irrigation control box, corresponding irrigation time is made to the planted plants in the land fence, and the irrigation control box can perform timed irrigation after the irrigation time is set.

Furthermore, a humidity sensor is connected to the land fence, the humidity sensor can sense the humidity in the land fence, the possibility that the humidity in the land fence is not suitable for causing death of planted plants is greatly reduced, an induction groove matched with the humidity sensor is formed in the land fence, the connection between the land fence and the humidity sensor is greatly enhanced due to the arrangement of the induction groove, the land fence cannot leak through the position where the land fence is connected with the humidity sensor, waste of water resources is greatly reduced, an operating system is arranged in the irrigation control box and comprises an induction module, a terminal binding module, a warning module, an operating module and a setting module, the induction module is used for sensing the humidity of the land in the land fence through the humidity sensor, and the humidity sensor can operate due to the arrangement of the induction module, the humidity sensor can sense the humidity of the soil in the soil fence, when the humidity sensed by the humidity sensor is not matched with the optimal humidity, a user can irrigate the soil in the soil fence by controlling the opening of the spraying electronic ball valve or the drip irrigation electronic ball valve through the irrigation control box, the terminal binding module is used for establishing the contact with the mobile phone of the user, the setting of the terminal bundy module enables the user to conveniently and quickly set the contact with the irrigation control box, the mobile phone can control the irrigation control box, the spraying electronic ball valve or the drip irrigation electronic ball valve can be opened through the control of the irrigation control box, the warning module is used for sending the abnormal humidity and the abnormal soil fence position to the mobile phone of the user, the setting of the warning module can inform the user through the transmission of information, and the user can take corresponding measures, the operation module is used for controlling the irrigation control box by a user, and the setting module is used for setting the water yield of the spraying electronic ball valve and the drip irrigation electronic ball valve.

Further, first water pump, nutrition pump, scanning probe, humidity transducer, spray electronic ball valve and drip irrigation electronic ball valve all with watering control box electric connection, watering control box can control opening and closing of first water pump, nutrition pump, scanning probe, humidity transducer, spray electronic ball valve and drip irrigation electronic ball valve.

Compared with the prior art, the invention has the following advantages:

according to the invention, through the arrangement of the corresponding mechanism on the automatic irrigation device, the irrigation device in ecological agriculture can be controlled through a mobile phone, so that the time of a user can be distributed more freely, the possibility of water cut-off of the irrigation device is greatly reduced, the phenomenon that the planted plants die after water cut-off is avoided, and the loss of the user is greatly reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a perspective view of an eco-cycle agricultural vertical building mode automatic watering device in accordance with one embodiment of the present invention;

FIG. 2 is a top sectional view of an eco-cycle agricultural vertical building mode automatic watering device in accordance with an embodiment of the present invention;

FIG. 3 is a side view of an eco-cycle agricultural vertical building mode automatic watering device in accordance with one embodiment of the present invention;

FIG. 4 is a first sectional elevation view of an eco-cycle agricultural vertical building mode automatic watering device in accordance with one embodiment of the present invention;

FIG. 5 is a second sectional elevation view of an eco-cycle agricultural vertical building mode automatic watering device in accordance with an embodiment of the present invention;

FIG. 6 is a schematic diagram of the structure at A in FIG. 5 according to an embodiment of the present invention;

FIG. 7 is a side sectional view of an eco-cycle agricultural vertical building mode automatic watering device in accordance with one embodiment of the present invention;

FIG. 8 is a schematic diagram of a structure B shown in FIG. 7 according to an embodiment of the present invention;

FIG. 9 is a schematic diagram illustrating a structure at C in FIG. 7 according to an embodiment of the present invention;

FIG. 10 is a functional diagram of an operating system in accordance with an embodiment of the present invention;

FIG. 11 is a functional diagram of an identification system in accordance with an embodiment of the present invention.

In the figure: 1. the irrigation protection house comprises an irrigation protection house, 101 soil fences, 102 an irrigation control box, 103 a scanning probe, 104 a humidity sensor, 2 a water pipe network mechanism, 201 a first water pump, 202 a main pipe, 203 a water storage tank, 204 a nutrition box, 205 a nutrition pump, 3 a spraying mechanism, 301 a spraying branch pipe, 302 a spraying electronic ball valve, 303 a spraying vertical pipe, 304 a lifting pipe, 305 a lifting block, 4 a drip irrigation mechanism, 401 a drip irrigation branch pipe, 402 a drip irrigation ascending pipe, 403 a drip irrigation electronic ball valve, 404 a side wall fixing block, 405 a connecting rod, 406 a roof fixing block, 5 a rainwater utilization mechanism, 501 a water receiving tank, 502 a rainwater filtering net, 503 a rainwater pump, 504 a rainwater storage tank, 505 a water inlet pump, 6 a water level sensing mechanism, 601 a water level limiting rod, 602 a water level sensor, 603 and an information transmitter.

Detailed Description

The present invention will be described in detail below with reference to embodiments shown in the drawings. The embodiments are not intended to limit the present invention, and structural, methodological, or functional changes made by those skilled in the art according to the embodiments are included in the scope of the present invention.

The invention discloses an ecological cycle agricultural vertical building mode automatic irrigation device, which comprises an irrigation protection house 1, wherein a water pipe network mechanism 2 is connected to the irrigation protection house 1, the water pipe network mechanism 2 comprises a first water pump 201, the first water pump 201 can pump water in a water storage tank 203, a main pipe 202 is connected to the first water pump 201, the main pipe 202 is arranged to enable the water pumped by the first water pump 201 to enter a spraying mechanism 3 and a drip irrigation mechanism 4, the main pipe 202 penetrates through the irrigation protection house 1, the position of the main pipe 202 is stabilized by the arrangement of the main pipe 202 penetrating through the irrigation protection house 1, a plurality of uniformly distributed land fences 101 are arranged in the irrigation protection house 1, the arrangement of the land fences 101 greatly reduces the loss of soil in the land fences 101 and simultaneously avoids the loss of water in the land fences 101, the spraying mechanism 3 matched with the land fences 101 is connected to the main pipe 202, the main pipe 202 is connected with a drip irrigation mechanism 4, and the irrigation protection house 1 is connected with an irrigation control box 102.

Wherein, the irrigation protection house 1 is connected with a rainwater utilization mechanism 5, the rainwater utilization mechanism 5 comprises a water receiving tank 501, the water receiving tank 501 is arranged to receive rainwater for standby use through storage of the water receiving tank 501, a rainwater filter screen 502 is arranged in the water receiving tank 501, the arrangement of the rainwater filter screen 502 greatly reduces dust or sundries such as leaves entering the water receiving tank 501, avoids rainwater in the water receiving tank 501 from being polluted in a large range, one side of the water receiving tank 501 is connected with a rainwater pump 503, the rainwater pump 503 is arranged to pump rainwater in the water receiving tank 501 into a rainwater storage tank 504, one side of the rainwater pump 503 away from the water receiving tank 501 is connected with a rainwater storage tank 504, the rainwater storage tank 504 is arranged to store rainwater in the water receiving tank 501, the possibility of rainwater pollution in the rainwater storage tank 504 is greatly reduced through a sealed environment, and a rainwater inlet pump 505 is connected between the rainwater storage tank 504 and the water storage tank, the inlet water pump 505 is arranged so that the storage tank 203 can pump rainwater stored in the rainwater storage tank 504, when the water level sensing mechanism 6 detects that the water amount in the water storage tank 203 is insufficient, the water storage tank 203 is internally provided with the water level sensing mechanism 6, the water level sensing mechanism 6 comprises a water level limiting rod 601, the moving range of a water level sensor 602 is limited by the arrangement of the water level limiting rod 601, the water level sensor 602 is arranged in the water level limiting rod 601, the arrangement of the water level sensor 602 can sense the water level, the water level is sensed to judge whether the water storage quantity in the water storage tank 203 is insufficient, a water level groove matched with the water level sensor 602 is drilled in the water level limiting rod 601, an information transmitter 603 is connected to one side of the water level limiting rod 601, the information transmitter 603 can transmit information to the irrigation control box 102, the irrigation control box 102 controls the inlet pump 505 to pump rainwater from the rainwater storage tank 504.

Referring to fig. 2-4, the drip irrigation mechanism 4 includes a pair of drip irrigation branch pipes 401, a pair of drip irrigation branch pipes 401 are disposed to allow water in the main pipe 202 to be divided, so that the first water pump 201 can control water pressure in the drip irrigation branch pipes 401, the drip irrigation branch pipes 401 are disposed to convey drip irrigation risers 402, the pair of drip irrigation branch pipes 401 are connected to the main pipe 202, the connection of the drip irrigation branch pipes 401 to the main pipe 202 allows the drip irrigation branch pipes 401 to use water pumped by the first water pump 201, the drip irrigation branch pipes 401 are connected to a plurality of uniformly distributed drip irrigation risers 402, the drip irrigation risers 402 are disposed to allow water pumped by the first water pump 201 to be conveyed above the land fence 101, the drip irrigation risers 402 are connected to drip irrigation electronic ball valves 403, the drip electronic ball valves 403 are disposed to control water flow in the drip irrigation risers 402, the drip electronic ball valves 403 are controlled by the irrigation control box 102, the water yield of each drip irrigation electronic ball valve 403 can be respectively controlled, the water yield is controlled through different plants planted in the land fence 101, a side wall fixing block 404 is connected between the drip irrigation ascending pipe 402 and the irrigation protection house 1, the stability of the drip irrigation ascending pipe 402 is greatly improved by the arrangement of the side wall fixing block 404, the condition that the drip irrigation ascending pipe 402 is inclined due to water movement is avoided, the drip irrigation ascending pipe 402 can be stabilized by the limitation of the side wall fixing block 404, the stability of the side wall fixing block 404 is greatly improved by the connection of the side wall fixing block 404 and the irrigation protection house 1, the stability of the drip irrigation ascending pipe 402 limited by the side wall fixing block 404 is higher, the condition that the drip irrigation ascending pipe 402 is inclined due to water flowing in the drip irrigation ascending pipe 402 is avoided, and the condition that the connection part of the drip irrigation ascending pipe 402 and the drip irrigation branch pipe 401 is broken due to the inclination of the drip.

Referring to fig. 4-6, a connecting rod 405 is connected between a pair of drip irrigation risers 402, the connecting rod 405 is disposed to connect the pair of drip irrigation risers 402, such that the extended ends of the drip irrigation risers 402 can be connected through the connecting rod 405, the connecting rod 405 is disposed to block the opposite sides of the pair of drip irrigation risers 402, thereby preventing water leakage and greatly reducing water resource waste, the connecting rod 405 is disposed to limit the flow direction of water in the drip irrigation risers 402, such that the water in the drip irrigation risers 402 cannot flow between the pair of soil fences 101, thereby preventing the electronic spray ball valve 302 from short circuit caused by water dripping, the side of the drip irrigation risers 402 near the soil fences 101 is drilled with a plurality of drip holes uniformly distributed, the drip holes are disposed to provide outlets for the water in the drip irrigation risers 402, such that the water in the drip irrigation risers 402 can be released, the drip irrigation ascending pipe can be dripped into the land fence 101 through the dripping hole, meanwhile, the side wall fixing block 404 can limit the water flow in the drip irrigation ascending pipe 402, the irrigation control box 102 can control the water flow in the dripping hole of the drip irrigation ascending pipe 402, a user can freely control the drip irrigation ascending pipe, a roof fixing block 406 is connected between the connecting rod 405 and the irrigation protection house 1, the position of the connecting rod 405 is greatly stabilized by the arrangement of the roof fixing block 406, the drip irrigation ascending pipe 402 at the two ends of the connecting rod 405 can be pulled by the connecting rod 405, the possibility of overturning of the drip irrigation ascending pipe 402 is avoided, meanwhile, the possibility of falling of the connecting rod 405 is greatly reduced by the connection of the roof fixing block 406 and the irrigation protection house 1, the position of the connecting rod 405 can be more stably limited by the roof fixing block 406 when the drip irrigation ascending pipe 402 is used, the shaking of the connecting rod 405 is, the likelihood of the drip irrigation riser 402 tipping is greatly reduced.

Referring to fig. 1-8, a water storage tank 203 is connected to the irrigation protection house 1, the water storage tank 203 can store water resources, so as to greatly prolong the service life of the irrigation device, so that the irrigation device can reduce the maintenance frequency of a user, meanwhile, the water storage tank 203 can supply water to the spraying mechanism 3 and the drip irrigation mechanism 4 by means of the extraction of the first water pump 201, so as to provide basic help for the spraying mechanism 3 and the drip irrigation mechanism 4, so as to greatly prolong the service lives of the spraying mechanism 3 and the drip irrigation mechanism 4, the first water pump 201 penetrates through the water storage tank 203, so as to greatly improve the connectivity between the water storage tank 203 and the first water pump 201, so as to greatly reduce the possibility of leakage between the first water pump 201 and the water storage tank 203, so as to make the relative position between the first water pump 201 and the water storage tank 203 more stable, and at the same time, the arrangement of the first water pump 201 penetrating, the condition that fresh water in the water storage tank 203 is prevented from leaking is avoided, the irrigation protection house 1 is connected with the nutrient box 204, the nutrient box 204 is arranged to provide nutrient solution in the water storage tank 203, the proportion of different proportions of the nutrient solution and the fresh water is realized by controlling the nutrient pump 205 through the irrigation control box 102, the survival probability of plants planted in the land fence 101 is greatly improved, meanwhile, the possibility of volatilization of the nutrient solution is reduced by arranging the nutrient box 204, the nutrient solution can be better stored, the waste is greatly reduced, the nutrient pump 205 is connected between the nutrient box 204 and the water storage tank 203, the nutrient solution in the nutrient box 204 can enter the water storage tank 203 to be mixed with the fresh water through arrangement of the nutrient pump 205, the proportion can be controlled by arranging the nutrient pump 205 through the water storage tank 203 and the nutrient box 204 respectively, the arrangement that the nutrient pump 205 penetrates through the water storage tank 203 and the nutrient box 204 respectively, and the possibility of leakage of the water storage tank 203 and the nutrient box 204 is greatly reduced And the connectivity of the water storage tank 203 and the nutrient tank 204 with the nutrient pump 205 is greatly improved.

Referring to fig. 4-10, the spraying mechanism 3 includes a spraying branch pipe 301, the spraying branch pipe 301 is configured to communicate a main pipe 202 and a spraying vertical pipe 303, so that fresh water mixed with nutrient solution in the main pipe 202 can enter the spraying vertical pipe 303, and the spraying branch pipe 301 divides the main pipe 202, so that water in the main pipe 202 can water a plurality of land fences 101, so that more land fences 101 can be irrigated, the spraying branch pipe 301 is communicated with the main pipe 202, the communication between the spraying branch pipe 301 and the main pipe 202 makes the arrangement of the spraying branch pipe 301 more stable, thereby greatly improving the stability of the spraying branch pipe 301 during operation, greatly improving the balance of the spraying electronic ball valve 302 connected to the spraying branch pipe 301, and avoiding the possibility that the lifting pipe 304 is inclined after being impacted by water, the spraying branch pipe 301 is configured to penetrate through the land fences 101, and the arrangement of the spraying branch pipe 301 penetrates through the land fences 101 greatly improves the connectivity between the spraying branch pipe 301 and the land fence, the water in the land fence 101 can not permeate out after the watering by the spraying branch pipes 301, the water in the land fence 101 can not leak through the connection parts of the spraying branch pipes 301 and the land fence 101, the waste of water resources is greatly reduced, meanwhile, the accuracy of the irrigation water quantity in the land fence 101 is enhanced, so that the plants planted in the land fence 101 can be better nourished by fresh water, the spraying branch pipe 301 is connected with the spraying electronic ball valve 302, the arrangement of the spraying electronic ball valve 302 ensures that the water quantity of the main pipe 202 entering the spraying branch pipe 301 can be controlled, the spraying branch pipe 301 can control the water quantity according to different plants planted in the land fence 101, meanwhile, the spraying electronic ball valve 302 can be closed, only one spraying electronic ball valve is opened, targeted irrigation is realized, when the humidity in an individual land fence 101 is insufficient, the corresponding electronic ball spray valve 302 can be opened to spray the land fence 101.

Referring to fig. 1 to 11, a spraying riser 303 is connected to a spraying branch pipe 301, the arrangement of the spraying riser 303 greatly reduces the possibility of inclination of the spraying riser 303 through the connection of the spraying branch pipe 301 and a main pipe 202, so that better irrigation can be achieved in the land fence 101, an elevator 304 is arranged in the spraying riser 303, the elevator 304 is slidably connected with the spraying riser 303, the elevator 304 can ascend when water impacts are received in the spraying riser 303, the elevator 304 can descend according to the gravity of the elevator when the water pressure in the spraying riser 303 is insufficient, and can slide upwards when spraying, so that the possibility of dust entering the elevator 304 is greatly reduced, the possibility of dust invasion of the elevator 304 is greatly reduced, the service life of the elevator 304 is greatly prolonged, an elevator groove matched with the elevator 304 is drilled on the spraying riser 303, the setting of lift groove has restricted the slip range of fall way 304, makes fall way 304 can receive the restriction that sprays riser 303 and reduce the possibility that breaks away from spraying riser 303 by a wide margin, makes the setting of fall way 304 more stable, has promoted the life of fall way 304 by a wide margin, avoids fall way 304 to break away from the possibility that leads to the loss.

Referring to fig. 5 to 11, a plurality of annularly distributed spraying holes are drilled on the lifting pipe 304, the arrangement of the spraying holes enables water in the spraying riser 303 to be limited by the lifting pipe 304 after entering the lifting pipe 304, the water pressure rises continuously, pressure is relieved intelligently through the spraying holes, when the lifting pipe 304 slides upwards, the spraying holes leak, the water in the lifting pipe 304 is relieved through the spraying holes, the fresh water in the lifting pipe 304 can be sprayed farther, the range of spraying the fresh water in the lifting pipe 304 is larger, the amount of water can be controlled through adjustment of the spraying electronic ball valve 302, the land fence 101 is fully covered through control of the amount of water, meanwhile, the spraying outside the land fence 101 is avoided, the utilization rate of the fresh water is greatly improved, waste is avoided, the fresh water in the water storage tank 203 can be used for a longer time, the lifting block 305 is connected to the lifting pipe 304, the setting of elevator 305 is connected with elevator pipe 304, can restrict elevator pipe 304's gliding distance through elevator 305 when elevator pipe 304 gliding, the condition that can't take out in can avoiding elevator pipe 304 to drop to spraying riser 303 when elevator 305 seals elevator pipe 304 takes place, elevator 305 carries out the capping for elevator pipe 304 simultaneously, the pressurization of fresh water provides help for in elevator pipe 304, elevator 305 can drive elevator pipe 304 after receiving the impact of water to go up and down simultaneously, reveal out the spraying hole.

Referring to fig. 1-4, a scanning probe 103 matched with the soil fence 101 is arranged in the irrigation protection house 1, the scanning probe 103 can scan the plants planted in the soil fence 101 through a scanning system and upload the scanned plants to the irrigation control box 102, so that the irrigation control box 102 can identify the plants planted in the soil fence 101 and take the best measures, the scanning probe 103 is connected with the irrigation protection house 1, the connection between the scanning probe 103 and the irrigation protection house 1 greatly reduces the possibility that the scanning probe 103 is separated, so that the connection between the scanning probe 103 is more stable, an identification system is arranged in the irrigation control box 102, the identification system comprises a scanning module, a retrieval module, a storage module, a comparison module, an irrigation module, a timing module and a setting module, the scanning module is used for scanning the plants planted in the soil fence 101 through the scanning probe 103, the scanning module greatly improves the scanning success rate of the scanning probe 103 to the plants in the land fence 101, so that the plants in the land fence 101 can be completely identified, so that the plants in the land fence 101 can obtain a better irrigation mode, the retrieval module is used for retrieving the optimal irrigation mode of the planted plants, the retrieval module can search on the network, so that the optimal irrigation mode of the planted plants in the land fence 101 can be obtained on the network by comparing the information scanned by the scanning module with the information on the network, the storage module is used for storing the information retrieved by the retrieval module, the storage module can store the current optimal irrigation mode of the plants, when the plants are planted next time, the information can be directly extracted from the storage module, the efficiency of the identification system is greatly improved, and the comparison module is used for comparing the current irrigation mode with the optimal irrigation mode, the setting of the comparison module can compare the current irrigation mode with the optimal irrigation mode, when the comparison is not matched, the optimal irrigation mode is selected by the irrigation module for irrigation, the irrigation module is used for adjusting the irrigation mode of the current planted plant, the setting of the irrigation module can adjust the irrigation mode through the information transmitted by the comparison module, so that the current planted plant can be optimally irrigated, the setting module is used for manually setting the irrigation mode of the current planted plant, the setting of the setting module can be manually set by a user, the user can irrigate in the artificial optimal irrigation mode through the setting module, the timing module is used for recording time and setting the time of timed irrigation, the setting of the timing module can control the opening time of the spraying electronic ball valve 302 and the drip irrigation electronic ball valve 403, and meanwhile, the water flow of the spraying electronic ball valve 302 and the drip irrigation electronic ball valve 403 can be controlled by the irrigation control box 102, the irrigation control box 102 can perform timed irrigation after the irrigation time is set according to the irrigation time of the planted plants in the soil fence 101.

Referring to fig. 5 to 9, a humidity sensor 104 is connected to a land fence 101, the humidity sensor 104 is arranged to sense the humidity in the land fence 101, so that the possibility that the humidity in the land fence 101 is not suitable for causing death of planted plants is greatly reduced, an induction groove matched with the humidity sensor 104 is formed in the land fence 101, the connection between the land fence 101 and the humidity sensor 104 is greatly enhanced due to the arrangement of the induction groove, the land fence 101 cannot be leaked through the position where the land fence 101 is connected with the humidity sensor 104, the waste of water resources is greatly reduced, an operating system is arranged in an irrigation control box 102, the operating system comprises an induction module, a terminal binding module, a warning module, an operating module and a setting module, the induction module is used for sensing the humidity of the land in the land fence 101 through the humidity sensor 104, and the humidity sensor 104 can operate due to the arrangement of the induction module, the humidity sensor 104 can sense the humidity of the soil in the soil fence 101, when the humidity sensed by the humidity sensor 104 is not matched with the optimal humidity, a user can irrigate the soil in the soil fence 101 by controlling the opening of the spraying electronic ball valve 302 or the drip irrigation electronic ball valve 403 through the irrigation control box 102, the terminal binding module is used for establishing contact with a mobile phone of the user, the setting of the terminal bindy module enables the user to set the contact between the mobile phone and the irrigation control box 102 more conveniently and quickly, the mobile phone can control the irrigation control box 102, the spraying electronic ball valve 302 or the drip irrigation electronic ball valve 403 can be opened through the control of the irrigation control box 102, the warning module is used for sending the abnormal humidity and the position of the abnormal soil 101 to the mobile phone of the user, and the setting of the warning module can inform the user through the transmission of information, the user is enabled to take corresponding measures, the operation module is used for controlling the irrigation control box 102 by the user, and the setting module is used for setting the water yield of the spraying electronic ball valve 302 and the drip irrigation electronic ball valve 403.

Referring to fig. 1-11, the rain water pump 503, the water inlet and storage pump 505, the information transmitter 603, the first water pump 201, the nutrient pump 205, the scanning probe 103, the humidity sensor 104, the electronic spray ball valve 302 and the electronic drip irrigation ball valve 403 are all electrically connected to the irrigation control box 102, the irrigation control box 102 can control the opening and closing of the rain water pump 503, the water inlet and storage pump 505, the information transmitter 603, the first water pump 201, the nutrient pump 205, the scanning probe 103, the humidity sensor 104, the electronic spray ball valve 302 and the electronic drip irrigation ball valve 403, a control unit is arranged in the irrigation control box 102, a user can program corresponding logic language in the control unit, and the user can control the operation of the rain water pump 503, the water inlet and storage pump 505, the information transmitter 603, the first water pump 201, the nutrient pump 205, the scanning probe 103, the humidity sensor 104, the electronic spray ball valve 302 and the electronic drip irrigation ball valve 403 through the, the rainwater pump 503, the water inlet and storage pump 505, the information transmitter 603, the first water pump 201, the nutrient pump 205, the scanning probe 103, the humidity sensor 104, the electronic spray ball valve 302 and the electronic drip ball valve 403 can be opened and closed under the control of the irrigation control box 102.

During the specific use, spraying mechanism 3 and drip irrigation mechanism 4 can spray soil rail 101 on time through the control of watering control box 102, can be regularly to spraying mechanism 3 and drip irrigation mechanism 4's spraying through identification system, different irrigation methods and irrigation time are taken through the difference of plant, can send the warning to the user's cell-phone when humidity transducer 104 senses soil humidity is not enough in soil rail 101, the operation that the user passes through the cell-phone can be sprayed through spraying mechanism 3 or drip irrigation mechanism 4 pertinence, can sense the decline of the water level in the storage water tank 203 through water level induction mechanism 6, rainwater utilization mechanism 5 can collect the rainwater, can be with the rainwater irritate into storage water tank 203 through water inlet and storage pump 505 in, the time that the user can leave has been promoted by a wide margin.

According to the technical scheme, the invention has the following beneficial effects:

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides an automatic watering device of perpendicular building pattern of ecological cycle's agricultural, protects room (1) including the watering, a serial communication port, be connected with water pipe network mechanism (2) on watering protection room (1), water pipe network mechanism (2) include first water pump (201), be connected with on first water pump (201) and be responsible for (202), be responsible for (202) and run through watering protection room (1) setting, be equipped with a plurality of evenly distributed's soil rail (101) in watering protection room (1), be connected with on being responsible for (202) and spray mechanism (3) with soil rail (101) assorted, be connected with on being responsible for (202) and drip irrigation mechanism (4), watering protection room (1) in-connection has watering control box (102).

2. The ecological cycle agricultural vertical building mode automatic irrigation device according to claim 1, characterized in that the drip irrigation mechanism (4) comprises a pair of drip irrigation branch pipes (401), the pair of drip irrigation branch pipes (401) are connected with the main pipe (202), a plurality of drip irrigation ascending pipes (402) are uniformly distributed and connected to the drip irrigation branch pipes (401), drip electronic ball valves (403) are connected to the drip irrigation ascending pipes (402), and side wall fixing blocks (404) are connected between the drip irrigation ascending pipes (402) and the irrigation protection house (1).

3. An ecological cycle agricultural vertical building mode automatic irrigation device according to claim 2, characterized in that a connecting rod (405) is connected between a pair of said drip irrigation risers (402), a plurality of uniformly distributed drip holes are drilled on the side of said drip irrigation risers (402) close to the earth fence (101), and a roof fixing block (406) is connected between said connecting rod (405) and the irrigation protection house (1).

4. The ecological cycle agricultural vertical building mode automatic watering device of claim 1 wherein the watering protection house (1) is connected with a water storage tank (203), the first water pump (201) is arranged to extend through the water storage tank (203), the watering protection house (1) is connected with a nutrition tank (204), a nutrition pump (205) is connected between the nutrition tank (204) and the water storage tank (203), and the nutrition pump (205) is arranged to extend through the water storage tank (203) and the nutrition tank (204), respectively.

5. An ecological cycle agricultural vertical building mode automatic watering device according to claim 1 characterised in that the spraying means (3) comprises a spray manifold (301), the spray manifold (301) being in communication with the main pipe (202), the spray manifold (301) being arranged through the earth fence (101), the spray manifold (301) having a spray electronic ball valve (302) connected thereto.

6. The ecological cycle agricultural vertical building mode automatic watering device of claim 5, wherein the spraying branch pipe (301) is connected with a spraying vertical pipe (303), the spraying vertical pipe (303) is internally provided with a lifting pipe (304), and the spraying vertical pipe (303) is provided with a lifting groove matched with the lifting pipe (304).

7. The eco-cycle agricultural vertical building mode automatic watering device of claim 6 wherein the elevating tube (304) is formed with a plurality of annularly distributed spray holes, and the elevating tube (304) is connected to an elevating block (305).

8. The ecological cycle agricultural vertical building mode automatic watering device according to claim 1, wherein the irrigation protection house (1) is provided with a scanning probe (103) matched with the land fence (101), the scanning probe (103) is connected with the irrigation protection house (1), the irrigation control box (102) is provided with an identification system, the identification system comprises a scanning module, a retrieval module, a storage module, a comparison module, an irrigation module, a timing module and a setting module, the scanning module is used for scanning the plants planted in the land fence (101) through the scanning probe (103), the retrieval module is used for retrieving the best irrigation mode of the planted plants, the storage module is used for storing the information retrieved by the retrieval module, the comparison module is used for comparing the current irrigation mode with the best irrigation mode, the irrigation module is used for adjusting the current irrigation mode for planting plants, the setting module is used for manually setting the current irrigation mode for planting plants, and the timing module is used for recording time and setting the time for timed irrigation.

9. The ecological cycle agricultural vertical building mode automatic irrigation device according to claim 1, wherein a humidity sensor (104) is connected to the land fence (101), a sensing groove matched with the humidity sensor (104) is formed in the land fence (101), an operating system is arranged in the irrigation control box (102), the operating system comprises a sensing module, a terminal binding module, a warning module, an operating module and a setting module, the sensing module is used for sensing the humidity of the land in the land fence (101) through the humidity sensor (104), the terminal binding module is used for establishing contact with a mobile phone of a user, the warning module is used for sending abnormal humidity and the position of the land fence (101) with the abnormality to the mobile phone of the user, and the operating module is used for controlling the irrigation control box (102) by the user, the setting module is used for setting the water yield of the spraying electronic ball valve (302) and the drip irrigation electronic ball valve (403).

10. The eco-cycle agricultural vertical building mode automatic irrigation device as claimed in claim 1, wherein the first water pump (201), the nutrient pump (205), the scanning probe (103), the humidity sensor (104), the electronic spraying ball valve (302) and the electronic drip irrigation ball valve (403) are all electrically connected with the irrigation control box (102).