CN211928629U - Novel intelligent water and fertilizer recycling system for temporary planting ditch of wind power plant in mountainous region - Google Patents

Abstract

The utility model discloses a novel intelligent liquid manure circulation system of recycling of mountain wind-powered electricity generation field heeling in ditch, collect plastic film, connect water pipe, suction pump, sprinkling irrigation tap, storage water tank, water level induction system and soil moisture monitor including moisture. The utility model discloses simple structure passes through moisture collection plastic film with groundwater system at the temporary planting in-process and keeps apart, avoids bringing the change for the ecosystem at the temporary planting in-process, connects water pipe, suction pump, sprinkling irrigation tap, storage water tank, water level induction system and soil moisture monitor all can be at the job site used repeatedly of difference, has avoided the pollution that disposable product brought also to practice thrift the cost. The utility model discloses an automation equipment realizes the irrigation of heeling in the plant, and the root is more shallow and the lack of water is dead when avoiding heeling in the plant because of heeling in, also can avoid heeling in the plant because of the water of heeling in the ditch if can not in time discharge and lead to the root system rotten, better protection local plant.

Description

Novel intelligent water and fertilizer recycling system for temporary planting ditch of wind power plant in mountainous region

Technical Field

The utility model belongs to the technical field of mountain wind-powered electricity generation field plant heels in and plants ditch cyclic utilization, concretely relates to novel intelligent liquid manure circulation system of recycling of mountain wind-powered electricity generation field heeling in ditch.

Background

The temporary planting ditch technology is a protection technology for local primary plants (small trees, shrubs, herbs and the like) which is raised in the development and construction process of the mountain wind farm in recent years, but the temporary planting ditch technology has some problems in the application process of the mountain wind farm, such as fast water and fertilizer loss of soil, frequent watering and fertilization needed to ensure the survival rate of temporary planting of the plants, and on the other hand, if the water in the temporary planting ditch cannot be timely discharged, the water accumulated in the temporary planting ditch is easy to cause the rot of the root system of the plants, and the temporary planting of the plants dies. The existing method for improving the survival rate of the temporary plant in the temporary plant ditch mainly focuses on shading and irrigating the upper part of the temporary plant ditch, protecting the root system of the temporary plant, designing the temporary plant ditch suitable for a single temporary plant and the like, and basically does not relate to the integral water and fertilizer protection and reutilization in the temporary plant ditch.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in providing a through designing novel intelligent liquid manure circulation system of recycling of mountain wind-powered electricity generation field temporary planting ditch to solve temporary planting ditch soil liquid manure and run off fast, the problem that the plant temporary planting survival rate is low.

The utility model solves the technical problems through the following technical proposal,

a novel intelligent water and fertilizer recycling system for a temporary planting ditch of a wind farm in a mountainous region comprises a water collecting plastic film, a connecting water pipe, a water suction pump, a spray irrigation faucet, a water storage tank, a water level sensing device and a soil moisture monitor, and is characterized in that,

the water collecting plastic film is used for isolating water, fertilizer and underground water in the temporary planting ditch and clings to the bottom and the side wall of the temporary planting ditch body, temporary planting soil is covered on the water collecting plastic film, and temporary planting plants are planted in the temporary planting soil;

the connecting water pipe comprises a first connecting water pipe and a second connecting water pipe,

the first connecting water pipe is used for connecting the moisture collecting plastic film and the water storage tank, one end of the first connecting water pipe is connected with a water outlet of the moisture collecting plastic film, and the other end of the first connecting water pipe is connected with a water inlet of the water storage tank;

the second connecting water pipe is used for connecting the water storage tank and the sprinkling irrigation faucet and is sequentially connected with a water outlet of the water storage tank, a water suction pump and the sprinkling irrigation faucet;

the sprinkling irrigation faucet sprays water into the temporary planting ditch and is arranged above the temporary planting ditch;

the water suction pump is used for pumping water in the water storage tank;

the water storage tank is used for collecting residual water and irrigation water in the temporary planting ditch;

the water level sensing device is used for measuring the water level of the water storage tank and is arranged inside the water storage tank;

the soil moisture monitor is used for detecting moisture of the temporary planting soil, and the sensing end of the soil moisture monitor is inserted into the temporary planting soil;

the soil moisture monitor detects moisture of the temporary planting soil, when the moisture value is lower than a preset moisture value, a starting signal is sent to the water suction pump, the water suction pump pumps water in the water storage tank, and water is sprayed into the temporary planting ditch through the sprinkling irrigation faucet; when the moisture value is higher than a preset moisture value, sending a stop signal to the water suction pump, and stopping the water suction pump; when the water level sensing device detects that the water level of the water storage tank is lower than a preset water level, a water level control signal is sent to the water suction pump to protect the water suction pump.

In order to obtain better technical effect, the water outlet is arranged at the lowest part of the moisture collection plastic film, and the water inlet of the water storage tank is lower than the water outlet;

in order to obtain better technical effect, the water storage tank also comprises a stirrer, and the stirrer is fixed at the inner bottom of the water storage tank;

in order to obtain better technical effect, the intelligent sensing device comprises a soil moisture monitor alarm, a water level sensing device alarm, a stirrer sound control switch and a water pump sound control switch;

the soil moisture monitor alarm is connected with the soil moisture monitor, and when the soil moisture monitor detects the moisture of the heeled-in soil and the moisture value is lower than a preset moisture value, the soil moisture monitor alarm sends a starting signal; when the moisture value is higher than the preset moisture value, the soil moisture monitor alarm sends a closing signal;

the water level sensing device alarm is connected with the water level sensing device, and when the water level sensing device detects the water level of the water storage tank and the water level is lower than a preset water level, the water level sensing device alarm sends a water level control signal;

the stirrer sound control switch is connected with the stirrer, the water suction pump sound control switch is connected with the water suction pump,

the stirrer sound control switch and the water suction pump sound control switch receive a starting signal sent by the soil moisture monitor alarm to respectively control the stirrer and the water suction pump to be started,

the stirrer sound control switch and the water suction pump sound control switch receive a closing signal sent by the soil moisture monitor alarm and a water level control signal sent by the water level sensing device alarm to respectively control the closing of the stirrer and the water suction pump;

in order to obtain better technical effect, the connecting water pipe is made of plastic, the inner diameter of the connecting water pipe is 2cm, and filter screens are arranged at two ends of the connecting water pipe.

In order to obtain better technical effect, the water storage tank is a cylindrical plastic barrel, the height of the water storage tank is 2m, the inner diameter of the water storage tank is 1m, and small holes are fully distributed in a tank cover.

The water suction pump is a small-sized water suction pump.

In order to obtain better technical effect, the water level sensing device is arranged inside the water storage tank and is slightly higher than a water outlet of the water storage tank connected with the second connecting water pipe.

In order to obtain better technical effect, the timing device also comprises a timer, wherein the timer is installed between the water suction pump sound control switch and the water suction pump, the water suction pump sound control switch receives a starting signal to enter a timing state, and the water suction pump is started after timing is completed.

The utility model discloses simple structure, it is kept apart through moisture collection plastic film with groundwater system at the in-process of heeling in, avoids bringing the change for the ecosystem at the heeling in-process, connects water pipe, suction pump, sprinkling irrigation tap, storage water tank, water level induction system and soil moisture monitor all can be at the job site used repeatedly of difference, has avoided using the environmental pollution that disposable heeling in ditch product brought, has also practiced thrift engineering cost. The utility model discloses an automation equipment realizes the irrigation of heeling in the plant, and the root is more shallow and the lack of water is dead when avoiding heeling in the plant because of heeling in, also can avoid heeling in the plant because of the water of heeling in the ditch if can not in time discharge and lead to the root system rotten, better protection local plant.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

FIG. 2 is a schematic view of a water storage tank according to an embodiment of the present invention;

fig. 3 is a top view of the water storage tank according to the embodiment of the present invention.

Fig. 4 is a schematic view of the structure of the connection water pipe according to the embodiment of the present invention.

Fig. 5 is a schematic flow chart of an embodiment of the present invention.

The reference numerals include: 1-soil moisture monitor, 2-moisture collecting plastic film, 3-connecting water pipe, 31-first connecting water pipe, 32-second connecting water pipe, 33-filter screen, 4-water storage tank, 41-tank cover, 42-small hole, 5-stirrer, 6-water pump, 7-sprinkling irrigation faucet, 8-water level sensing device and 9-temporary planting soil.

Detailed Description

The present invention will be described in further detail below with reference to specific embodiments and the accompanying drawings.

A novel intelligent water and fertilizer recycling system for a temporary planting ditch of a wind farm in a mountainous region comprises a water collecting plastic film 2, a connecting water pipe, a water pump 6, a sprinkling irrigation faucet 7, a water storage tank 4, a water level sensing device 8 and a soil moisture monitor 1,

the water collecting plastic film 2 is used for isolating water, fertilizer and underground water in the temporary planting ditch and clings to the bottom and the side wall of the temporary planting ditch body, temporary planting soil 9 is covered on the water collecting plastic film 2, and temporary planting plants are planted in the temporary planting soil 9;

the connecting water pipe 3 is made of plastic material, the inner diameter is 2cm, two ends are provided with filter screens 33 respectively, the connecting water pipe comprises a first connecting water pipe 31 and a second connecting water pipe 32,

the first connecting water pipe 31 is used for connecting the moisture collecting plastic film 2 and the water storage tank 4, one end of the first connecting water pipe is connected with a water outlet of the moisture collecting plastic film 2, and the other end of the first connecting water pipe is connected with a water inlet of the water storage tank 4; the water outlet is arranged at the lowest part of the moisture collecting plastic film 2, and the water inlet of the water storage tank 4 is lower than the water outlet;

the second connecting water pipe 32 is used for connecting the water storage tank 4 and the sprinkling irrigation faucet 7 and is sequentially connected with a water outlet of the water storage tank 4, the water pump 6 and the sprinkling irrigation faucet 7;

the sprinkling irrigation faucet 7 sprays water into the temporary planting ditch and is arranged above the temporary planting ditch;

the water suction pump 6 is a small water suction pump 6 and is used for pumping water in the water storage tank 4;

the water storage tank 4 is used for collecting residual water and irrigation water in the temporary planting ditch; the water storage tank 4 is a cylindrical plastic barrel with the height of 2m and the inner diameter of 1m, and a tank cover 41 is fully distributed with small holes 42; in the mountain wind farm area, a completely horizontal area is difficult to find for large-area temporary planting furrows, so most temporary planting furrows are built according to the terrain and have certain gradient, and the position of the water storage tank 4 is lower than the horizontal line at the bottom of the temporary planting furrows;

the water storage tank 4 further comprises a stirrer 5, and the stirrer 5 is fixed at the bottom inside the water storage tank 4;

the water level sensing device 8 is used for measuring the water level of the water storage tank 4, is arranged inside the water storage tank 4 and is slightly higher than the water outlet of the water storage tank 4 connected with the second connecting water pipe 32;

the soil moisture monitor 1 is used for detecting moisture of the temporary planting soil 9, and the sensing end of the soil moisture monitor is inserted into the temporary planting soil 9;

the soil moisture monitor 1 detects moisture of the temporary planting soil 9, when the moisture value is lower than a preset moisture value, a starting signal is sent to the water suction pump 6, the water suction pump 6 pumps water in the water storage tank 4 out, and water is sprayed into the temporary planting ditch through the sprinkling irrigation faucet 7; when the moisture value is higher than a preset moisture value, a stop signal is sent to the water suction pump 6, and the water suction pump 6 is stopped; when the water level sensing device 8 detects that the water level of the water storage tank 4 is lower than the preset water level, a water level control signal is sent to the water suction pump 6 to protect the water suction pump 6.

As an improved technical scheme, the intelligent sensing device comprises a soil moisture monitor alarm, a water level sensing device alarm, a stirrer 5 sound control switch and a water pump 6 sound control switch;

the soil moisture monitor alarm is connected with the soil moisture monitor 1, and when the soil moisture monitor 1 detects moisture of the temporary planted soil 9 and the moisture value is lower than a preset moisture value, the soil moisture monitor alarm sends a starting signal; when the moisture value is higher than the preset moisture value, the soil moisture monitor alarm sends a closing signal;

the water level sensing device alarm is connected with the water level sensing device 8, and when the water level sensing device 8 detects the water level of the water storage tank 4 and the water level is lower than a preset water level, the water level sensing device alarm sends a water level control signal;

5 acoustic control switch of agitator is connected with agitator 5, and 6 acoustic control switches of suction pump are connected with suction pump 6, the start signal that agitator acoustic control switch, suction pump acoustic control switch received soil moisture monitor alarm and sent controls opening of agitator 5, suction pump 6 respectively, the closing of agitator 5, suction pump 6 is controlled respectively to closing signal that closing signal and water level induction system alarm that agitator acoustic control switch, suction pump acoustic control switch received soil moisture monitor alarm and sent.

As a further improvement, the water pump control system further comprises a timer, wherein the timer is installed between the sound control switch of the water pump 6 and the water pump 6, the sound control switch of the water pump 6 receives a starting signal to enter a timing state, and the water pump 6 is started after timing is finished.

The utility model discloses lay one deck moisture at the inner wall of heeling in the ditch and hugging closely the ditch body and collect plastic film 2, collect the nutrient of soil loss in unnecessary moisture and the heeling in the ditch in the escape canal to the lower ditch bottom of relief, the rethread following current to storage water tank 4 after the filter screen at first connecting water pipe 31 both ends filters the husky soil of large granule, and storage water tank 4 is used for storing the liquid manure that runs off in the heeling in the ditch and is used for heeling in the ditch to irrigate and recycle. The water storage tank 4 is a cylindrical plastic barrel with the height of 2m and the inner diameter of 1m and can store about 1.5 m³The small holes are distributed on the water tank cover, so that external branches and leaves are prevented from falling into the water storage tank 4 to cause water pipe blockage, and the balance of the internal pressure and the external pressure of the water storage tank 4 is maintained when the water pump 6 pumps water.

When the ditch is planted to the false interior soil moisture content is lower (for example when < 15%), soil moisture monitor 1 to suction pump 6 and agitator 5 send start signal, start agitator 5 after agitator 5 acoustic control switch received start signal, the 6 acoustic control switch of suction pump received the start signal after the activation timer, the flushing pump is opened again after the time-recorder completion timing, can be like this before drawing water with the water and the fertile intensive mixing of deposit at the bottom of the case in the storage water tank 4, restart suction pump 6 after the stirring with the storage water tank 4 in the water manure through intensive mixing pump together to spray irrigation tap 7 and be used for irrigating.

When the soil moisture content is higher than the preset moisture value in the temporary planting ditch, the soil moisture monitor 1 sends a stop signal to the water suction pump 6, and the water suction pump 6 and the stirrer 5 are shut down.

Because the size of the temporary planting ditch and the actual water in the water storage tank 4 are not unlimited, when the water level line approaches the position of the water outlet of the water storage tank 4 connected with the second connecting water pipe 32, the water level sensing device 8 at the position sends a water level control signal, and the water suction pump 6 stops working after receiving the water level control signal.

When water, fertilizer, pesticide and the like are introduced from the outside as required by irrigation, fertilization, pesticide spraying and the like, the water, fertilizer and pesticide introduced from the outside can be placed in the water storage tank 4, and then the water spraying, fertilization and pesticide spraying operations are realized through the system.

The utility model discloses an aspect is through soil moisture monitor 1 survey in the ditch of heeling in, when the ditch of heeling in soil moisture content is lower, moisture monitor sends actuating signal, agitator 5 that is equipped with the acoustic control switch starts the water in 4 storage water tanks and the nutrient substance stirring of sediment for one minute after receiving actuating signal, the water pump 6 that is equipped with the acoustic control switch waters through the spray irrigation tap 7 of impressing of suction pump 6 with the water in 4 storage water tanks after receiving actuating signal's one minute (time when presetting), when the water level of 4 storage water tanks reduces to the bottom of the case, water level perceptual device sends water level control signal, 6 received signal stop work at once of suction pump.

On the other hand, the water collecting plastic film 2 collects and filters redundant water and lost nutrients in the temporary planting ditch into the water storage tank 4, the water storage tank 4 can also collect rainwater and introduce other water (spring water, mountain tap water and the like) and add nutrient agents, disinfectant and the like, the water, fertilizer, pesticide and the like are uniformly stirred by the stirrer 5, and the water is sprayed and planted in the temporary planting ditch by the water suction pump 6.

The utility model discloses the reduction of great degree heels in the ditch soil moisture and the loss of nutrient, has realized heeling in the ditch liquid manure recycle and has improved the survival rate of heeling in the plant, and keeps the living environment and the nutrition environment of local plant as far as possible, reduces the construction and influences local ecology. In addition, the system can also realize pesticide spraying, fertilizer application and the like on the plants in the temporary planting ditches. The utility model discloses the device can freely remove, can practice thrift the cost at mountain wind-powered electricity generation field cyclic utilization.

Claims (8)

1. A novel intelligent water and fertilizer recycling system for a temporary planting ditch of a wind farm in a mountainous region comprises a water collecting plastic film, a connecting water pipe, a water suction pump, a spray irrigation faucet, a water storage tank, a water level sensing device and a soil moisture monitor, and is characterized in that,

the water collecting plastic film is used for isolating water, fertilizer and underground water in the temporary planting ditch and clings to the bottom and the side wall of the temporary planting ditch body, temporary planting soil is covered on the water collecting plastic film, and temporary planting plants are planted in the temporary planting soil;

the connecting water pipe comprises a first connecting water pipe and a second connecting water pipe,

the first connecting water pipe is used for connecting the moisture collecting plastic film and the water storage tank, one end of the first connecting water pipe is connected with a water outlet of the moisture collecting plastic film, and the other end of the first connecting water pipe is connected with a water inlet of the water storage tank;

the second connecting water pipe is used for connecting the water storage tank and the sprinkling irrigation faucet and is sequentially connected with a water outlet of the water storage tank, a water suction pump and the sprinkling irrigation faucet;

the sprinkling irrigation faucet sprays water into the temporary planting ditch and is arranged above the temporary planting ditch;

the water suction pump is used for pumping water in the water storage tank;

the water storage tank is used for collecting residual water and irrigation water in the temporary planting ditch;

the water level sensing device is used for measuring the water level of the water storage tank and is arranged inside the water storage tank;

the soil moisture monitor is used for detecting moisture of the temporary planting soil, and the sensing end of the soil moisture monitor is inserted into the temporary planting soil;

the soil moisture monitor detects moisture of the temporary planting soil, when the moisture value is lower than a preset moisture value, a starting signal is sent to the water suction pump, the water suction pump pumps water in the water storage tank, and water is sprayed into the temporary planting ditch through the sprinkling irrigation faucet; when the moisture value is higher than a preset moisture value, sending a stop signal to the water suction pump, and stopping the water suction pump;

when the water level sensing device detects that the water level of the water storage tank is lower than a preset water level, a water level control signal is sent to the water suction pump to protect the water suction pump.

2. The novel intelligent water and fertilizer recycling system for the temporary planting furrows of the mountain wind farm as claimed in claim 1, wherein the water outlet is arranged at the lowest position of the moisture collecting plastic film, and the water inlet of the water storage tank is lower than the water outlet.

3. The novel intelligent water and fertilizer recycling system for the temporary planting furrows of the mountain wind farm as claimed in claim 1 or 2, wherein the water storage tank further comprises a stirrer, and the stirrer is fixed at the inner bottom of the water storage tank.

4. The novel intelligent water and fertilizer recycling system for the temporary planting ditches in the mountain wind farms according to claim 1 or 2, further comprising an intelligent sensing device, wherein the intelligent sensing device comprises a soil moisture monitor alarm, a water level sensing device alarm, a stirrer voice-operated switch and a water pump voice-operated switch;

the soil moisture monitor alarm is connected with the soil moisture monitor, and when the soil moisture monitor detects the moisture of the heeled-in soil and the moisture value is lower than a preset moisture value, the soil moisture monitor alarm sends a starting signal; when the moisture value is higher than the preset moisture value, the soil moisture monitor alarm sends a closing signal;

the water level sensing device alarm is connected with the water level sensing device, and when the water level sensing device detects the water level of the water storage tank and the water level is lower than a preset water level, the water level sensing device alarm sends a water level control signal;

the stirrer sound control switch is connected with the stirrer, the water suction pump sound control switch is connected with the water suction pump,

the stirrer sound control switch and the water suction pump sound control switch receive a starting signal sent by the soil moisture monitor alarm to respectively control the stirrer and the water suction pump to be started,

and the stirrer sound control switch and the water suction pump sound control switch receive a closing signal sent by the soil moisture monitor alarm and a water level control signal sent by the water level sensing device alarm to respectively control the closing of the stirrer and the water suction pump.

5. The novel intelligent water and fertilizer recycling system for the temporary planting ditches in the mountainous wind farms as claimed in claim 1 or 2, wherein the connecting water pipes are made of plastic, the inner diameter of each connecting water pipe is 2cm, and filter screens are arranged at two ends of each connecting water pipe.

6. The novel intelligent water and fertilizer recycling system for the temporary planting ditches in the mountainous wind farms as claimed in claim 1 or 2, wherein the water storage tank is a cylindrical plastic barrel with the height of 2m and the inner diameter of 1m, and small holes are distributed in a box cover.

7. The novel intelligent water and fertilizer recycling system for the temporary planting ditches in the mountain wind farms as claimed in claim 1 or 2, wherein the water level sensing device is installed inside the water storage tank slightly higher than a water outlet of the water storage tank connected with the second connecting water pipe.

8. The novel intelligent water and fertilizer recycling system for the temporary planting ditches in the mountain wind power plants as claimed in claim 1 or 2, further comprising a timer, wherein the timer is installed between the water suction pump sound control switch and the water suction pump, the water suction pump sound control switch enters a timing state after receiving a starting signal, and the water suction pump is started after timing is completed.

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