CN209806677U

CN209806677U - Watering device is planted to shaddock

Info

Publication number: CN209806677U
Application number: CN201920365819.6U
Authority: CN
Inventors: 廖由茂
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-03-22
Filing date: 2019-03-22
Publication date: 2019-12-20
Anticipated expiration: 2029-03-22

Abstract

The utility model discloses a shaddock planting irrigation device, which comprises a reservoir and a water pumping pipeline with an inlet end positioned in the reservoir, and also comprises a desanding pool, wherein the top of the desanding pool is communicated with the reservoir through a communicating channel; the sand removal device also comprises a plurality of parting beads arranged at the bottom of the sand removal tank, wherein each parting bead protrudes upwards relative to the bottom of the sand removal tank, the parting beads are parallel to each other, and a gap is formed between every two adjacent parting beads; the sand removing device also comprises a confluence channel with an outlet end connected with the sand removing pool, wherein a connection point of the communication channel on the sand removing pool is positioned on the opposite side of the connection point of the confluence channel on the sand removing pool, and the connection line of the two connection points is vertical to the length direction of the parting strip. This watering device can be used to the shaddock planting in-process and waters the shaddock tree, and simultaneously, its structural design is convenient keeps the water storage capacity of ideal for a long time.

Description

Watering device is planted to shaddock

Technical Field

The utility model relates to an agricultural irrigation technical field especially relates to a watering device is planted to shaddock.

Background

Pomelo also known as pomelo, xiang Luan, valencene, purple, stripe, Lei pomelo, boiled pomelo, kumquat, orange, smelly pomelo, throw, bract, and sac, and pomelo is a mature fruit of grapefruit of Ruxiang family, and is widely planted in Fujian, Jiangxi, Guangdong, Guangxi, Sichuan and other areas in China.

The pomelo is fragrant, sour, sweet, cool, rich in nutrition and high in medicinal value, is one of fruits which people like to eat, is also the fruit which is recognized by the medical field and has the best food therapy effect, and the pomelo tea and the pomelo peel also have practical values. The pomelo is evergreen arbor, the pomelo leaf is similar to mandarin orange, the orange is mostly oblong or oval, and the winged leaf is heart-shaped; the fruits are mostly gourd-shaped, pear-shaped or spherical, the surfaces are more yellow and orange, the surfaces of the fruits are glossy and concave, the fruits generally have pungent smell, and the peels are relatively thick and can be peeled off by hands. The fruits are larger than oranges, the single weight can reach more than 1 kg, the diameter is 15-25 cm, and the fruits are storage-resistant and excellent economic crops.

The scientific management of the pomelo trees is a key for improving the yield and the quality of the pomelo, and the reasonable watering of the pomelo trees is one of important projects in the daily management of the pomelo. At present, a large mountain area is covered in a shaddock planting area, and irrigation water used in the shaddock planting process is conveniently and low in cost, so that the key for reducing the shaddock planting cost and improving the shaddock planting economic benefit is realized.

SUMMERY OF THE UTILITY MODEL

Convenient, the low-cost watering water of obtaining in the shaddock planting process that provides to the aforesaid is the key technical problem that reduces shaddock planting cost, improves shaddock and plants economic benefits, the utility model provides a watering device is planted to shaddock. This watering device can be used to the shaddock planting in-process and waters the shaddock tree, and simultaneously, its structural design is convenient keeps the water storage capacity of ideal for a long time.

To the above problem, the utility model provides a pair of watering device is planted to shaddock comes the solution problem through following technical essential: a shaddock planting irrigation device comprises a reservoir and a water pumping pipeline with an inlet end positioned in the reservoir, and further comprises a sand removal tank, wherein the top of the sand removal tank is communicated with the reservoir through a communication channel;

the sand removal device also comprises a plurality of parting beads arranged at the bottom of the sand removal tank, wherein each parting bead protrudes upwards relative to the bottom of the sand removal tank, the parting beads are parallel to each other, and a gap is formed between every two adjacent parting beads;

the sand removing device also comprises a confluence channel with an outlet end connected with the sand removing pool, wherein a connection point of the communication channel on the sand removing pool is positioned on the opposite side of the connection point of the confluence channel on the sand removing pool, and the connection line of the two connection points is vertical to the length direction of the parting strip.

In the prior art, for agricultural irrigation, in an area where water taking is convenient, a grower can extract underground water, river water and the like for agricultural irrigation, and for grapefruit planting, part of grapefruit planting areas are in mountainous areas, so that the conditions of difficulty in digging wells and low underground water level exist, and therefore in the prior art, rainwater is collected nearby by using a reservoir to form an important means for storing grapefruit irrigation water for the areas where water taking is inconvenient.

However, the in-process of rainwater is collected to the cistern, and rivers wash the silt that ground smugglied secretly can enter into the cistern along with rivers, finally form the settlement layer in the cistern, and the volume that above settlement layer can lead to the cistern diminishes, generally needs the user regularly or irregularly to clear up the settlement layer in the cistern, and above clearance not only wastes time and energy, and the while is convenient operation, also has the problem of need keeping impoundment in the cistern to the greatest extent.

In the scheme, when rainfall occurs, firstly, rainwater is enriched in the confluence channel and flows to the desanding pool, and then flows to the reservoir from the desanding pool through the communication channel. The desanding pool aims at realizing the primary sedimentation of silt in water flow, so that the silt content carried by the water flow entering the reservoir is lower, and the reservoir can keep good water storage capacity for a long time; meanwhile, compared with the sediment at the bottom side of the reservoir, the water in the grit removal tank is discharged when the grit removal tank is cleaned, so that the device can be ensured to have a certain water storage capacity for a long time to ensure that the shaddock is watered; in the structure of sand removal pond, owing to set up to including the parting bead is simultaneously through the injecing to conflux channel exit position, intercommunication canal import position for above parting bead is equivalent to the breakwater for sand removal bottom of the pool, like this, when rivers flow through the sand removal pond, can guarantee as far as possible that silt can subside in the clearance of adjacent parting bead, thereby makes the sand removal pond have reliable sand removal ability.

Preferably, in consideration of the construction cost, the occupied area and the actual value of the desanding pool and the reservoir, the desanding pool is only a sediment settling structure on the flow path of the water body, and in consideration of the sediment content of the general water body, the volume of the desanding pool is set to be one tenth to one twentieth of that of the reservoir.

The further technical scheme is as follows:

for optimizing the desanding capacity of the desanding pool, the method comprises the following steps: one end of the communicating channel, which is connected with the desanding pool, is a slope surface, and the bottom side of the slope surface at the inlet end of the communicating channel is positioned at one side of the desanding pool; one end that the converging channel meets with the degritting pond is domatic, and the domatic bottom side of converging the channel exit end is located the one side at degritting pond place. This scheme of adoption through injecing conflux canal export form, intercommunication canal import form to the mode of injecing water flow direction and utilizing silt weight itself make silt can enrich in the desanding pool as far as possible.

As a plurality of desanding ponds of accessible combined action to reduce the technical scheme who gets into the volume of silt in the cistern as far as possible, the desanding pond is a plurality of, and is the series relation each other between a plurality of desanding ponds, and adjacent desanding pond links to each other through the intermediate junction ditch canal.

As a technical scheme suitable for collecting water flow from all directions of the water storage tank, the number of the sand removing tanks is multiple, the sand removing tanks are annularly arranged around the water storage tank, and each sand removing tank is connected with the water storage tank through an independent communication channel.

As the concrete form of water pumping pipeline, the water pumping pipeline includes the suction pump, is used for the inlet tube that the suction pump entry end links to each other with the cistern, is used for the outlet pipe that the suction pump exit end links to each other with the watering point, filter and check valve are still installed to the bottom of inlet tube. The above filter is used for preventing sundries in the natural water body from entering the water suction pump to cause the blockage of the water suction pump, and the above check valve is used for preventing the water suction pump from being incapable of normally sucking the water body.

As a technical scheme for obtaining a plurality of independent irrigation points, a plurality of branch pipes are connected to the water outlet pipe, and the free end of each branch pipe is used as the outlet end of the water pumping pipeline.

As a technical scheme for conveniently spraying the blade surface water, each branch pipe comprises a hose section.

As a kind of concrete flow that not only can inject each branch pipe as required, still can retrain branch pipe exit end shape simultaneously to the technical scheme who conveniently sprays blade face water etc. sets up to: the hose section is located the tail end of branch pipe, and still installs the steel band staple bolt on the hose section.

The utility model discloses following beneficial effect has:

Drawings

Fig. 1 is a partial schematic view of an embodiment of a shaddock planting and irrigating device according to the present invention, wherein the partial schematic view reflects the structure of a desanding pool; reflecting the mutual connection relation of the sand removal pool, the confluence channel, the communication channel, the reservoir and the like;

fig. 2 is a schematic partial view of a specific embodiment of the watering device is planted to shaddock of the present invention, and this schematic partial view reflects the structure of the rear end of the water outlet pipe.

The labels in the figure are respectively: 1. the water suction pump comprises a water suction pump body 2, a water outlet pipe 3, a water inlet pipe 4, a sand removal tank 41, a partition bar 5, a confluence channel 6, a communication channel 7, a reservoir 8, a filter 9, branch pipes 10, a hose section 11 and a steel belt hoop.

Detailed Description

The present invention will be described in further detail with reference to the following examples, but the present invention is not limited to the following examples:

example 1:

as shown in fig. 1 and 2, the shaddock planting and irrigating device comprises a water storage tank 7, a water pumping pipeline with an inlet end positioned in the water storage tank 7, and a sand removal tank 4, wherein the top of the sand removal tank 4 is communicated with the water storage tank 7 through a communication channel 6;

the sand removing device also comprises a plurality of parting beads 41 arranged at the bottom of the sand removing pool 4, wherein each parting bead 41 protrudes upwards relative to the bottom of the sand removing pool 4, the parting beads 41 are parallel to each other, and a gap is formed between every two adjacent parting beads 41;

the sand removing device also comprises a confluence channel 5 of which the outlet end is connected with the sand removing pool 4, wherein the connection point of the communication channel 6 on the sand removing pool 4 is positioned at the opposite side of the connection point of the confluence channel 5 on the sand removing pool 4, and the connection line of the two connection points is vertical to the length direction of the parting strip 41.

In the prior art, for agricultural irrigation, in an area where water taking is convenient, a grower can adopt pumping underground water, river water and the like for agricultural irrigation, and for grapefruit planting, part of grapefruit planting areas are in mountainous areas, so that the conditions of difficulty in digging wells and low underground water level exist, and therefore in the prior art, rainwater is collected nearby by using the reservoir 7 to form an important means for storing grapefruit irrigation water.

However, at the in-process that cistern 7 collected the rainwater, rivers erode the silt that ground smuggled secretly and can enter into cistern 7 along with rivers, finally form the settlement layer in cistern 7, above the settlement layer can lead to the capacity of cistern 7 to diminish, generally need the user regularly or irregularly to clear up the settlement layer in cistern 7, above clearance not only wastes time and energy, simultaneously for convenient operation, also there is the problem that needs to store water in the cistern 7 to the greatest extent.

In the scheme, during rainfall, rainwater is enriched in the confluence channel 5 and flows to the desanding pool 4, and then flows to the reservoir 7 from the desanding pool 4 through the communication channel 6. The desanding pool 4 aims to realize the preliminary sedimentation of silt in water flow, so that the silt content carried by the water flow entering the reservoir 7 is lower, and the reservoir 7 can keep good water storage capacity for a long time; meanwhile, compared with sediment deposition at the bottom side of the cleaning reservoir 7, the water in the desanding reservoir 4 is discharged when the desanding reservoir 4 is cleaned, so that the device can be ensured to have a certain water storage capacity for a long time to ensure that the shaddock is watered; in the structure of sand removal tank 4, owing to set up to include parting bead 41 simultaneously through the injecing to 5 exit positions of confluence canal, 6 entrance positions of intercommunication canal for above parting bead 41 is equivalent to the breakwater for sand removal tank 4 bottom, like this, when rivers flow through sand removal tank 4, can guarantee as far as possible that silt can subside in the clearance of adjacent parting bead 41, thereby makes sand removal tank 4 have reliable sand removal ability.

Preferably, in consideration of the construction cost, the occupied area and the actual value of the desanding tank 4 and the water storage tank 7, the desanding tank 4 is only a sediment settling structure on the flow path of the water body, and in consideration of the sediment content of the general water body, the volume of the desanding tank 4 is set to be one tenth to one twentieth of that of the water storage tank 7.

Example 2:

the present embodiment is further limited on the basis of embodiment 1, and as shown in fig. 1 and fig. 2, in order to optimize the sand removing capability of the sand removing pool 4, the following settings are set: one end of the communicating channel 6, which is connected with the desanding pool 4, is a slope surface, and the bottom side of the slope surface at the inlet end of the communicating channel 6 is positioned at one side of the desanding pool 4; one end of the confluence channel 5, which is connected with the desanding pool 4, is a slope, and the bottom side of the slope at the outlet end of the confluence channel 5 is positioned at one side of the desanding pool 4. This scheme of adoption is through injecing 5 export forms of conflux canal, 6 import forms of intercommunication canal to the mode of injecing water flow direction and utilizing silt weight itself make silt can enrich in desanding pool 4 as far as possible.

As a plurality of desanding ponds of accessible 4 combined action to the technical scheme who reduces the volume that gets into silt in the cistern 7 as far as possible, desanding pond 4 is a plurality ofly, and is series relation between a plurality of desanding ponds 4 each other, and adjacent desanding pond 4 links to each other through the intermediate connection irrigation canals and ditches.

As a technical scheme suitable for collecting water flow from all directions of the water storage tank 7, the sand removing tanks 4 are multiple, the sand removing tanks 4 are annularly arranged around the water storage tank 7, and each sand removing tank 4 is connected with the water storage tank 7 through a separate communication channel 6.

As the concrete form of water pumping pipeline, the water pumping pipeline includes suction pump 1, is used for inlet tube 3 that 1 entry end of suction pump links to each other with cistern 7, is used for outlet pipe 2 that 1 exit end of suction pump and watering point link to each other, filter 8 and check valve are still installed to the bottom of inlet tube 3. The above filter 8 is used for preventing sundries in the natural water body from entering the water suction pump 1 to cause the blockage of the water suction pump 1, and the above check valve is used for preventing the water suction pump 1 from being incapable of normally sucking the water body.

As a technical solution for obtaining a plurality of independent irrigation points, the water outlet pipe 2 is further connected with a plurality of branch pipes 9, and the free end of each branch pipe 9 is used as an outlet end of the water pumping pipeline.

As a technical scheme for conveniently spraying the blade surface water, each branch pipe 9 comprises a hose section 10.

As a kind of concrete flow that not only can inject each branch pipe 9 as required, still can retrain branch pipe 9 exit end shape simultaneously to the technical scheme of convenient spraying leaf surface water etc. sets up to: the hose section 10 is located at the tail end of the branch pipe 9, and a steel belt hoop 11 is further installed on the hose section 10. When in use, the fluid circulation capacity and the shape and size of the corresponding hose section 10 can be limited by adjusting the inner diameter of each steel belt hoop 11.

The foregoing is a more detailed description of the present invention, taken in conjunction with the specific preferred embodiments thereof, and it is not intended that the invention be limited to the specific embodiments thereof. To the utility model belongs to the technical field of the ordinary skilled person say, do not deviate from the utility model discloses a other embodiments that reach under the technical scheme all should be contained the utility model discloses a within the scope of protection.

Claims

1. A shaddock planting irrigation device comprises a reservoir (7) and a water pumping pipeline with an inlet end positioned in the reservoir (7), and is characterized by further comprising a sand removal tank (4), wherein the top of the sand removal tank (4) is communicated with the reservoir (7) through a communication channel (6);

the sand removing device is characterized by further comprising a plurality of division bars (41) arranged at the bottom of the sand removing pool (4), wherein each division bar (41) protrudes upwards relative to the bottom of the sand removing pool (4), the division bars (41) are parallel to each other, and gaps are formed between every two adjacent division bars (41);

the sand removing device also comprises a confluence channel (5) with an outlet end connected with the sand removing pool (4), wherein the connection point of the communication channel (6) on the sand removing pool (4) is positioned at the opposite side of the connection point of the confluence channel (5) on the sand removing pool (4), and the connection line of the two connection points is vertical to the length direction of the parting strip (41).

2. A shaddock planting and irrigating device as recited in claim 1, wherein the end of the communication channel (6) connected to the desanding tank (4) is a slope, and the bottom side of the slope at the inlet end of the communication channel (6) is located at the side of the desanding tank (4); one end of the confluence channel (5) connected with the desanding pool (4) is a slope surface, and the bottom side of the slope surface at the outlet end of the confluence channel (5) is positioned at one side of the desanding pool (4).

3. A shaddock planting and irrigating device according to claim 1, wherein there are a plurality of sand removing ponds (4), and a plurality of sand removing ponds (4) are connected in series with each other, and adjacent sand removing ponds (4) are connected by intermediate connecting ditches.

4. A shaddock planting irrigation device as claimed in claim 1, wherein there are a plurality of grit removal ponds (4), and a plurality of grit removal ponds (4) are annularly arranged around the reservoir (7), each grit removal pond (4) being connected to the reservoir (7) by a separate communication channel (6).

5. A shaddock planting irrigation device as claimed in claim 1, wherein the water suction line includes a water suction pump (1), an inlet pipe (3) for connecting the inlet end of the water suction pump (1) with a reservoir (7), and an outlet pipe (2) for connecting the outlet end of the water suction pump (1) with an irrigation point, and a filter (8) and a check valve are further installed at the bottom of the inlet pipe (3).

6. A shaddock planting and irrigating device as recited in claim 5, wherein the outlet pipe (2) is further connected with a plurality of branch pipes (9), and the free end of each branch pipe (9) is used as the outlet end of the water pumping pipeline.

7. A pomelo planting and watering device according to claim 6, characterised in that each branch (9) includes a hose section (10).

8. A shaddock planting and irrigating device as recited in claim 7, wherein the hose section (10) is located at the end of the branch pipe (9), and a steel band hoop (11) is further installed on the hose section (10).