CN222639228U - Garden vegetation cultivation system - Google Patents

Abstract

The application discloses a garden vegetation cultivation system, and relates to the technical field of garden vegetation cultivation equipment. The water storage device comprises a base, wherein a water storage tank is arranged at the top of the base, supporting rods are symmetrically and fixedly connected to the top of the base, lifting sliding rails are arranged on one sides of the supporting rods, lifting sliding blocks are connected inside the lifting sliding rails in a sliding mode, a main water pipe is fixedly connected between the two lifting sliding blocks, and a water guide pipe is fixedly connected to the input end of the main water pipe. According to the application, humidity data of different areas inside a plurality of cultivation bases can be sensed by the humidity sensor, then the driving screw of the controller is controlled to be in threaded connection with the lifting sliding block by utilizing sensing information of the humidity sensor, the main water pipe is driven to move to the position above the cultivation bases with insufficient humidity, and then the electromagnetic valve and the water pump are started to spray water sources inside the water reservoirs into the cultivation bases with insufficient humidity, so that automatic monitoring and watering of cultivation vegetation inside the cultivation bases are conveniently realized, and the accuracy and timeliness of watering are ensured.

Description

Garden vegetation cultivation system

Technical Field

The application relates to the technical field of garden vegetation cultivation equipment, in particular to a garden vegetation cultivation system.

Background

Garden vegetation is a plant material suitable for landscaping, including woody and herbaceous ornamental flowers, leaves or fruits, as well as protective and economic plants suitable for gardens, greenbelts and scenic spots. The indoor flower decoration plants also belong to garden plants.

The main content of garden vegetation cultivation comprises planting, irrigation, fertilization, pruning, pest control and the like. Among them, irrigation is one of important links of garden plant cultivation, and has a vital effect on plant growth and development.

At present, when the garden vegetation initial stage cultivates, generally place the garden vegetation on cultivateing the frame and cultivate through the mode of manual watering fertilization. And the mode of manual watering can lead to the plant to lack of water or excessively water along with personnel's mistake, is difficult to guarantee accuracy and timeliness of watering to influence the normal growth of plant.

Disclosure of utility model

The application aims to solve the problem that the normal growth of plants is affected by the fact that the water shortage or excessive watering of the plants is possibly caused by personnel error in a manual watering mode and the accuracy and timeliness of watering are difficult to ensure.

The application adopts the following technical scheme for realizing the purposes:

The utility model provides a gardens vegetation cultivation system, includes the base station, the cistern has been seted up at the top of base station, just the top symmetry fixedly connected with bracing piece of base station, lift slide rail has been seted up to one side of bracing piece, the inside sliding connection of lift slide rail has the lift slider, two fixedly connected with main water pipe between the lift slider, the input fixedly connected with water pipe of main water pipe, the top fixedly connected with water pump of base station, the output and the aqueduct intercommunication of water pump, just the input of water pump passes through the interior bottom intercommunication of pipeline and cistern, one the inside rotation of lift slide rail is connected with the screw rod, and one the top fixedly connected with elevator motor of bracing piece, elevator motor's output and screw rod fixed connection, screw rod and lift slider threaded connection, the one end of main water pipe evenly is provided with three water distribution shower nozzle, the output of water distribution shower nozzle is provided with the solenoid valve, two evenly be provided with a plurality of cultivation bases between the bracing piece, the inside evenly insert of base and be equipped with the humidity transducer who divides water adaptation, humidity transducer, base station, solenoid valve, humidity transducer, electric connection.

Through adopting above-mentioned technical scheme, through setting up the cooperation of controller and elevator motor water pump, elevator motor, solenoid valve, humidity transducer and use, make the humidity transducer that sets up a plurality of inside different regional humidity data of cultivating the base that can respond to, then utilize humidity transducer's response information control controller drive screw and lift slider threaded connection, and drive main water pipe and remove to the not enough cultivation base top of humidity, then open solenoid valve and water pump and spray the inside water source of cistern to the not enough cultivation base of humidity inside, with this is convenient for realize the automatic monitoring and watering the inside cultivation vegetation of cultivation base, guaranteed accuracy and the timeliness of watering, improved the survival rate of vegetation.

Further, a plurality of geotechnical cloth are evenly arranged in the cultivation base, and a plurality of planting holes are evenly formed in one end of the geotechnical cloth.

Through adopting above-mentioned technical scheme, through setting up geotechnique cloth and planting the cooperation use in hole, effectively improved the porosity of cultivating the inside nutrition soil of base, reduced the condition that the hardening appears in nutrition soil, improved the vegetation and cultivated the inside survival rate of base.

Further, a water collecting tank is arranged at the inner bottom of the cultivation base.

Through adopting above-mentioned technical scheme, use through setting up water catch bowl cooperation geotechnique cloth for cultivate inside too much moisture of base and can pass the inside that geotechnique cloth inflow water catch bowl, reduced and cultivate the inside too much condition that leads to vegetation rhizome bubble of base.

Further, a reflux groove is formed in the support rod, a reflux port communicated with the water collecting groove is formed in the inner side of the reflux groove, and a sewer pipe communicated with the water reservoir is formed in the bottom of the reflux groove.

Through adopting above-mentioned technical scheme, through setting up the cooperation use of reflux tank and reflux mouth, downcomer, the inside of the inside rivers leading-in cistern of water catch bowl is convenient for under the effect of gravity to this utilization ratio of water resource has effectively been improved.

Further, one the bottom fixedly connected with guide board of lift slider, the guiding groove has been seted up to the one end of guide board, the inside one end rotation of guiding groove is connected with the guide roller, the one end of aqueduct passes the guiding groove to form the rolling conflict with the guide roller.

Through adopting above-mentioned technical scheme, through setting up guide groove and guide roller, water guide pipe's cooperation use for when starting elevator motor drive lifting slide block drive main water pipe traction water guide pipe and remove along the length direction of bracing piece, make the one end of water guide pipe receive the support conflict of guide board and guide roller, effectively reduced the water guide pipe and appeared winding condition.

Further, the top cover of base station is equipped with the heat preservation cover, the inside one side fixedly connected with temperature sensor of heat preservation cover just the inside opposite side fixedly connected with heat exchange tube of heat preservation cover, the inside of heat exchange tube is provided with the electric heating wire, the top of heat exchange tube is provided with the air exhauster, controller and temperature sensor, electric heating wire electric connection.

Through adopting above-mentioned technical scheme, through setting up the cooperation of controller and temperature sensor, electric heating wire and using, be convenient for utilize the inside temperature of temperature sensor response heat preservation cover to in time open electric heating wire and air exhauster through the controller, thereby make the air exhauster draw heat preservation cover inside air and electric heating wire and carry out the heat transfer after the inside of arranging into heat preservation cover, with this inside temperature of being convenient for regulation heat preservation cover, further improved the survival rate of cultivating inside vegetation of base.

Further, the bottom of the heat exchange tube is fixedly connected with a dust screen.

Through adopting above-mentioned technical scheme, be convenient for intercept the filtration to passing the inside air of heat exchange tube through setting up the dust screen, reduced the influence of foreign matter such as dust in the air to electric heating wire, improved the practicality of device.

Further, a door opening is formed in one end of the heat preservation cover, and a protective curtain is arranged in the door opening.

Through adopting above-mentioned technical scheme, through setting up the cooperation use of door opening and protection curtain, effectively reduce the inside air of heat preservation cover and pass the outside condition of door opening inflow heat preservation cover, improved the practicality of device.

In summary, the present application includes at least one of the following beneficial effects:

1. Through setting up the cooperation of controller and elevator motor water pump, elevator motor, solenoid valve, humidity transducer and use for set up humidity transducer and can respond to the inside different regional humidity data of a plurality of cultivation bases, then utilize humidity transducer's response information control controller drive screw and lift slider threaded connection, and drive main water pipe and remove to the cultivation base top that humidity is not enough, then open solenoid valve and water pump and spray the inside water source of cistern to the inside cultivation base that humidity is not enough, so that realize the automatic monitoring and the watering of cultivating the inside cultivation vegetation of base, guaranteed accuracy and the timeliness of watering, improved the survival rate of vegetation.

2. Through setting up the cooperation use of controller and temperature sensor, electric heating wire, be convenient for utilize temperature sensor response heat preservation cover inside temperature to in time open electric heating wire and air exhauster through the controller, thereby make the air exhauster draw heat preservation cover inside air and electric heating wire carry out the heat transfer after the inside of discharging into the heat preservation cover, with this inside temperature of heat preservation cover of being convenient for regulation, further improved the survival rate of cultivating the inside vegetation of base.

Drawings

Fig. 1 is a schematic perspective view of a device body according to the present application.

Fig. 2 is a front cross-sectional view of the device body of the present application.

Fig. 3 is a schematic top structure of the base in the present application.

Fig. 4 is an exploded view of the internal structure of the cultivating base of the present application.

Reference numerals illustrate:

1. The device comprises a base station, a water storage tank, 3, a supporting rod, 4, a lifting sliding rail, 5, a lifting sliding block, 6, a main water pipe, 7, a water guide pipe, 8, a water pump, 9, a screw, 10, a lifting motor, 11, a water diversion nozzle, 12, an electromagnetic valve, 13, a cultivation base, 14, a humidity sensor, 15, a controller, 16, geotechnical cloth, 17, a planting hole, 18, a water collecting tank, 19, a reflux tank, 20, a reflux port, 21, a sewer pipe, 22, a guide plate, 23, a guide tank, 24, a guide roller, 25, a heat preservation cover, 26, a temperature sensor, 27, a heat exchange pipe, 28, an electric heating wire, 29, an exhaust fan, 30, a door opening, 31, a protective curtain, 32 and a dustproof net.

Detailed Description

The application is described in further detail below with reference to fig. 1-4.

The embodiment of the application discloses a garden vegetation cultivation system.

Referring to fig. 1-4, a garden vegetation cultivation system comprises a base 1, a reservoir 2 is arranged at the top of the base 1, support rods 3 are symmetrically and fixedly connected to the top of the base 1, lifting slide rails 4 are arranged at one side of each support rod 3, lifting slide blocks 5 are slidingly connected to the inside of each lifting slide rail 4, a main water pipe 6 is fixedly connected between the two lifting slide blocks 5, a water guide pipe 7 is fixedly connected to the input end of the main water pipe 6, a water pump 8 is fixedly connected to the top of the base 1, the output end of the water pump 8 is communicated with the water guide pipe 7, the input end of the water pump 8 is communicated with the inner bottom of the reservoir 2 through a pipeline, a screw 9 is rotatably connected to the inside of one lifting slide rail 4, a lifting motor 10 is fixedly connected to the top of one support rod 3, the output end of each lifting motor 10 is fixedly connected with the screw 9, the screw 9 is in threaded connection with the lifting slide blocks 5, three water distributing nozzles 11 are uniformly arranged at one end of each main water distributing nozzle 6, an electromagnetic valve 12 is arranged at the output end of each water distributing nozzle 11, a plurality of bases 13 are uniformly arranged between the two support rods 3, a water distributing motor 11 is uniformly inserted into the inside the cultivating bases 11, a humidity sensor 14 is uniformly connected to the water distributing motor 11, a humidity sensor 15 is electrically connected to the water pump 1 and the water controller 15 is electrically connected to the top sensors 15 and the water controller 15;

Wherein, a plurality of geotechnical cloth 16 is uniformly arranged in the cultivation base 13, and a plurality of planting holes 17 are uniformly formed at one end of the geotechnical cloth 16;

The water collecting tank 18 is arranged at the inner bottom of the cultivation base 13;

A reflux groove 19 is formed in one support rod 3, a reflux port 20 communicated with the water collecting groove 18 is formed in the inner side of the reflux groove 19, and a sewer pipe 21 communicated with the water reservoir 2 is formed in the bottom of the reflux groove 19;

And, the bottom fixedly connected with guide board 22 of a lift slider 5, guide slot 23 has been seted up to the one end of guide board 22, and the inside one end rotation of guide slot 23 is connected with guide roller 24, and the one end of aqueduct 7 passes guide slot 23 to form the rolling conflict with guide roller 24.

When in use, firstly, nutrient soil required by cultivation is led into the cultivation base 13, the nutrient soil is uniformly distributed among the layers of geotextiles 16, cultivated vegetation passes through the planting holes 17 and is loaded in the cultivation base 13, so that the porosity of the nutrient soil in the cultivation base 13 is maintained, the influence of hardening of the nutrient soil on vegetation growth is reduced, then the humidity of the nutrient soil in each cultivation base 13 is sensed by utilizing a plurality of humidity sensors 14, the sensed humidity information is transmitted to the controller 15, and when the humidity in the nutrient soil is insufficient;

Then the controller 15 controls the lifting motor 10 to drive the screw 9 to rotate and drive the screw 9 to be in threaded connection with the lifting slide block 5, meanwhile, the lifting slide block 5 is driven to drive the main water pipe 6 to move to the position above the cultivation base 13 with insufficient humidity along the length direction of the supporting rod 3, one end of the water pipe 7 is abutted by the guide roller 24, the water pipe 7 is enabled to move at one side far away from the supporting rod 3, meanwhile, the main water pipe 6 drives the water distribution nozzle 11 to be aligned with the inside of the cultivation base 13 with insufficient humidity, then the controller 15 controls the electromagnetic valve 12 above a section of the humidity sensor 14 with insufficient humidity induction inside one cultivation base 13 to be opened, meanwhile, the water pump 8 is started to pump the water accumulated inside the water reservoir 2 to be led into the inside the main water pipe 6 through the water pipe 7, and then the water distribution nozzle 11 are sprayed to the inside the cultivation base 13 with insufficient humidity, so that automatic monitoring and watering of vegetation inside the cultivation base 13 are conveniently realized, the accuracy and the survival rate of watering are ensured, and the vegetation survival rate is improved;

Then through setting up geotechnique's cloth 16 and water catch bowl 18's cooperation and use for cultivate the inside unnecessary water source of base 13 and pass geotechnique's cloth 16 and flow into the internal control of water catch bowl 18, rethread reflow mouth 20 flows into the inside of reflow groove 19, makes rivers pass reflow groove 19 and downcomer 21 inflow reservoir 2's inside under the effect of gravity afterwards, so that be convenient for to cultivate the inside reuse of inside unnecessary rivers introduction reservoir 2 of base 13, improved the utilization ratio of water resource, reduced the vegetation rhizome that the excessive moisture leads to simultaneously and steeped the rotten condition of rotten.

Referring to fig. 1-3, a top cover of the base 1 is provided with a heat preservation cover 25, one side of the inside of the heat preservation cover 25 is fixedly connected with a temperature sensor 26, the other side of the inside of the heat preservation cover 25 is fixedly connected with a heat exchange tube 27, an electric heating wire 28 is arranged in the heat exchange tube 27, an exhaust fan 29 is arranged at the top of the heat exchange tube 27, and the controller 15 is electrically connected with the temperature sensor 26 and the electric heating wire 28;

Wherein, the bottom of the heat exchange tube 27 is fixedly connected with a dust screen 32;

And, door opening 30 has been seted up to the one end of heat preservation cover 25, and the inside of door opening 30 is provided with protection curtain 31.

When the heat-insulating cover 25 is used, firstly, the temperature sensor 26 is arranged to sense the temperature inside the heat-insulating cover 25, and the temperature signal inside the heat-insulating cover 25 is transmitted to the controller 15, then when the temperature is lower than a set value, the controller 15 starts the electric heating wire 28 to perform self-heating, meanwhile, the exhaust fan 29 is started to draw air outside the heat-insulating cover 27 through the heat-insulating cover 25, the air passing through the heat-insulating cover 27 passes through the heat-insulating cover 27 and is in sexual contact heat exchange with the electric heating wire 28, so that the temperature of the air inside the heat-insulating cover 25 is raised, meanwhile, foreign matters in the air are effectively reduced through the dust screen 32, and enter the heat-insulating cover 27 and are adhered to the surface of the electric heating wire 28, the heating efficiency of the electric heating wire 28 is influenced, and then the heat-insulating cover 30 is conveniently protected by the cooperation of the protective curtain 31 and the door opening 30, the overflow of hot air inside the heat-insulating cover 25 through the door opening 30 is effectively reduced, and the practicability of the device is improved.

The implementation principle of the garden vegetation cultivation system is that a plurality of humidity sensors 14 are utilized to sense the humidity of nutrient soil in each cultivation base 13, the sensed humidity information is transmitted to a controller 15, then a lifting motor 10 is controlled by the controller 15 to drive a screw 9 to rotate, the screw 9 is driven to be in threaded connection with a lifting sliding block 5, meanwhile, the lifting sliding block 5 is driven to drive a main water pipe 6 to move above the cultivation bases 13 with insufficient humidity along the length direction of a supporting rod 3, meanwhile, the main water pipe 6 is driven to drive a water distribution nozzle 11 to align inside the cultivation bases 13 with insufficient humidity, then a solenoid valve 12 above a section of the humidity sensor 14 with insufficient humidity in one cultivation base 13 is controlled by the controller 15 to be opened, meanwhile, a water pump 8 is started to pump accumulated water in a reservoir 2 to be led into the main water pipe 6 through a water guide pipe 7, and then the main water pipe 6 and the water distribution nozzle 11 are sprayed into the cultivation bases 13 with insufficient humidity;

Then, the temperature sensor 26 is arranged to sense the temperature inside the heat preservation cover 25, a temperature signal inside the heat preservation cover 25 is transmitted to the controller 15, then when the temperature is lower than a set value, the controller 15 starts the electric heating wire 28 to perform self-heating, meanwhile, the air outside the heat exchange tube 27 is pumped by the air exhauster 29 through the heat preservation cover 25 to pass through the heat exchange tube 27 and then is discharged into the heat preservation cover 25, and the air passing through the heat exchange tube 27 is in contact heat exchange with the electric heating wire 28, so that the temperature of the air inside the heat preservation cover 25 is raised.

Claims (8)

1. A garden vegetation cultivation system, comprising a base (1), characterized in that: a water reservoir (2) is provided on the top of the base (1), and a support rod (3) is symmetrically fixedly connected to the top of the base (1), a lifting rail (4) is provided on one side of the support rod (3), a lifting slider (5) is slidably connected inside the lifting rail (4), a main water pipe (6) is fixedly connected between two lifting sliders (5), an input end of the main water pipe (6) is fixedly connected to a water guide pipe (7), a water pump (8) is fixedly connected to the top of the base (1), an output end of the water pump (8) is connected to the water guide pipe (7), and an input end of the water pump (8) is connected to the inner bottom of the water reservoir (2) through a pipeline, and a screw rod (9) is rotatably connected inside one of the lifting rails (4). , and a lifting motor (10) is fixedly connected to the top of one of the support rods (3), the output end of the lifting motor (10) is fixedly connected to a screw rod (9), and the screw rod (9) is threadedly connected to the lifting slider (5); three water-dividing nozzles (11) are evenly arranged at one end of the main water pipe (6), and an electromagnetic valve (12) is arranged at the output end of the water-dividing nozzle (11); a plurality of cultivation bases (13) are evenly arranged between the two support rods (3), and humidity sensors (14) adapted to the water-dividing nozzles (11) are evenly inserted inside the cultivation bases (13); a controller (15) is fixedly connected to the top of the base (1), and the controller (15) is electrically connected to the water pump (8), the lifting motor (10), the electromagnetic valve (12), and the humidity sensor (14). 2. A garden vegetation cultivation system according to claim 1, characterized in that: a plurality of geotextiles (16) are evenly arranged inside the cultivation base (13), and a plurality of planting holes (17) are evenly opened at one end of the geotextile (16). 3. A garden vegetation cultivation system according to claim 1, characterized in that a water collecting trough (18) is provided at the inner bottom of the cultivation base (13). 4. A garden vegetation cultivation system according to claim 1, characterized in that: a return groove (19) is opened inside one of the support rods (3), a return port (20) connected to the water collection tank (18) is opened on the inner side of the return groove (19), and a downpipe (21) connected to the water reservoir (2) is opened at the bottom of the return groove (19). 5. A garden vegetation cultivation system according to claim 1, characterized in that: a guide plate (22) is fixedly connected to the bottom of one of the lifting sliders (5), a guide groove (23) is provided at one end of the guide plate (22), one end of the guide groove (23) is rotatably connected to a guide roller (24), one end of the water pipe (7) passes through the guide groove (23) and forms a rolling conflict with the guide roller (24). 6. A garden vegetation cultivation system according to claim 1, characterized in that: the top cover of the base (1) is provided with a heat preservation cover (25), a temperature sensor (26) is fixedly connected to one side of the interior of the heat preservation cover (25), and a heat exchange tube (27) is fixedly connected to the other side of the interior of the heat preservation cover (25), an electric heating wire (28) is arranged inside the heat exchange tube (27), and an exhaust fan (29) is arranged on the top of the heat exchange tube (27), and the controller (15) is electrically connected to the temperature sensor (26) and the electric heating wire (28). 7. A garden vegetation cultivation system according to claim 6, characterized in that a dustproof net (32) is fixedly connected to the bottom of the heat exchange tube (27). 8. A garden vegetation cultivation system according to claim 6, characterized in that: a door opening (30) is opened at one end of the heat preservation cover (25), and a protective curtain (31) is arranged inside the door opening (30).