CN113142031B - Irrigation system that green plant area of town road was used - Google Patents

Abstract

The application relates to an irrigation system for a green plant zone of a municipal road, which belongs to the technical field of irrigation technology of vegetation beside the municipal road and comprises two vertical columns which are mutually vertical, a fixed rod connected between the two vertical columns and a sliding seat which is sleeved outside the fixed rod and is in sliding fit with the fixed rod; an upper cavity and a lower cavity are formed in the sliding seat, and are respectively positioned above and below the fixed rod; the upper chamber and the lower chamber are respectively communicated with the same water storage tank through conveying pipes, and an upper water pump and a lower water pump are respectively connected to the two conveying pipes; the top of the upper cavity is communicated with an upper water outlet pipe, and the bottom of the lower cavity is communicated with a lower water outlet pipe; the pipe orifice of the upper water outlet pipe deviating from one end of the sliding seat and the pipe orifice of the lower water outlet pipe deviating from one end of the sliding seat extend along the axis of the fixed rod, and the direction of the pipe orifice of the upper water outlet pipe is opposite to that of the pipe orifice of the lower water outlet pipe. This application has the effect that improves the irrigation homogeneity.

Description

Irrigation system that green plant area of town road was used

Technical Field

The application relates to the technical field of the other vegetation irrigation technology of town road, especially relate to an irrigation system that green area of planting of town road was used.

Background

The green plant belt has the advantages of separating roads and beautifying cities. Referring to fig. 5, green strips 9 are generally disposed between adjacent roads 10 and on both sides of the roads 10.

At present, the irrigation of green plants is carried out manually. Typically, before the morning sun rises or after the evening sun goes down the hill, workers will hold the sprinkler to irrigate the plants in the greenbelt. Due to the uncontrollable nature of manual irrigation, the uncontrollable watering amount in each area is uniform, and uneven irrigation can occur. Moreover, the manual irrigation can obstruct the traffic, which is very inconvenient.

Disclosure of Invention

In order to improve the homogeneity of irrigating, this application provides an irrigation system that green planting of town road area was used.

The above object of the present application is achieved by the following technical solutions:

an irrigation system for green plant belts of municipal roads comprises two vertical columns which are vertical to each other, a fixed rod connected between the two vertical columns and a sliding seat which is sleeved outside the fixed rod and is in sliding fit with the fixed rod;

an upper cavity and a lower cavity are formed in the sliding seat, and the upper cavity and the lower cavity are respectively positioned above and below the fixing rod; the upper chamber and the lower chamber are respectively communicated with the same water storage tank through conveying pipes, and an upper water pump and a lower water pump are respectively connected to the two conveying pipes;

The top of the upper cavity is communicated with an upper water outlet pipe, and the bottom of the lower cavity is communicated with a lower water outlet pipe; the pipe orifice of one end of the upper water outlet pipe, which is deviated from the sliding seat, extends along the axis of the fixed rod, the pipe orifice of one end of the lower water outlet pipe, which is deviated from the sliding seat, extends along the axis of the fixed rod, and the direction of the pipe orifice of the upper water outlet pipe is opposite to that of the pipe orifice of the lower water outlet pipe;

when the upper water outlet pipe discharges water, the sliding seat moves along the direction of the pipe orifice of the lower water outlet pipe; when the lower water outlet pipe discharges water, the sliding seat moves along the direction of the pipe orifice of the upper water outlet pipe.

By adopting the technical scheme, when the upper water pump is started and the lower water pump is closed, the upper water outlet pipe discharges water and pushes the sliding seat to move on the fixed rod at a constant speed along the direction opposite to the water discharging direction of the upper water outlet pipe. When the sliding seat is close to one of the upright columns, the upper water pump is turned off and the lower water pump is turned on, the lower water outlet pipe discharges water and pushes the sliding seat to move on the fixed rod at a constant speed along the direction opposite to the water discharging direction of the lower water outlet pipe until the sliding seat is close to the other upright column, and the steps are repeated. The sliding seat is driven to move at a constant speed on the fixed rod by the water pressure of the upper water outlet pipe and the lower water outlet pipe, so that the plants in the green plant zone are irrigated uniformly. And moreover, an operator only needs to remotely control the opening and closing of the upper water pump and the lower water pump at a safe position, so that the device is safe and convenient.

Optionally, the cross section of the fixing rod is polygonal.

Through adopting above-mentioned technical scheme, the sliding seat cup joints in the cross-section for the outside of polygonal dead lever, can avoid the sliding seat slip in-process to take place around the dead lever pivoted condition to take place to guarantee the sliding seat and remove the structural stability of in-process, make the position stability of upper portion outlet pipe and lower part outlet pipe.

Optionally, a rolling member is arranged on a side wall of the sliding seat facing the fixing rod, and the rolling member abuts against an outer wall of the fixing rod and is in rolling fit along the outer wall of the fixing rod.

Through adopting above-mentioned technical scheme, reduce the sliding seat and move the in-process on the dead lever and dead lever outer wall between frictional resistance to be favorable to keeping at the uniform velocity in the sliding seat motion process.

Optionally, the pipe orifice of the upper water outlet pipe is arranged obliquely upward, and the pipe orifice of the lower water outlet pipe is arranged obliquely downward.

Through adopting above-mentioned technical scheme, the higher arbor can upwards be irrigated to spun hydroenergy in the outlet pipe from upper portion, upwards can increase the height of water spray with the mouth of pipe of upper portion outlet pipe setting to the slope to the time that descends after the extension water blowout, owing to spray the in-process sliding seat and be in the motion state, make spray and the regional a large amount of plants that cover of aquatic meeting down, thereby realize even and irrigation by a large scale. The hydroenergy of following the lower part outlet pipe in the spun hydroenergy can irrigate bush and herbaceous plant downwards, sets the mouth of pipe of lower part outlet pipe to the slope downwards can prolong the route that water sprayed, avoids vertical direct impact soil and the plant downwards of water pressure, and the hydroenergy that the slope was sprayed can form slope rivers or water smoke, is convenient for attach to plant leaf or soil more evenly on, has both reduced the impact to plant and soil, also can improve and spray the effect.

Optionally, upper additional pipes are additionally arranged on two sides of the upper water outlet pipe, and the upper additional pipes are communicated with the upper cavity; the upper additional pipe is symmetrically provided with a plurality of pipes by taking a vertical surface penetrating through the axis of the fixed pipe as a symmetrical surface, and the pipe orifice of the upper additional pipe extends towards the direction far away from the fixed rod.

Through adopting above-mentioned technical scheme, because the direction of the dead lever is kept away from to the mouth of pipe orientation of upper portion additional pipe to make spun hydroenergy spray towards the plant of dead lever both sides in the upper portion additional pipe, enlarged the irrigation scope, can adapt to bigger green and plant the area and use. In addition, the upper water outlet pipe and the upper additional pipes are matched with water, so that the traction force borne by the sliding seat is more uniform, and the structural stability of the sliding seat in the moving process is improved.

Optionally, a lower additional pipe is additionally arranged on two sides of the lower water outlet pipe, and the lower additional pipe is communicated with the lower cavity; the lower additional pipe is symmetrically provided with a plurality of pipes by taking a vertical surface penetrating through the axis of the fixed pipe as a symmetrical surface, and the pipe orifice of the lower additional pipe extends towards the direction far away from the fixed rod.

By adopting the technical scheme, the irrigation range is expanded, and the device can adapt to larger green plant zones. In addition, the upper water outlet pipe and the plurality of lower additional pipes are matched with water, so that the traction force borne by the sliding seat is more uniform, and the structural stability of the sliding seat in the moving process is improved.

Optionally, the upper water outlet pipe is in threaded fit with the sliding seat, the upper additional pipe is in threaded fit with the sliding seat, the lower water outlet pipe is in threaded fit with the sliding seat, and the lower additional pipe is in threaded fit with the sliding seat.

Through adopting above-mentioned technical scheme, the all kinds of pipelines of being convenient for on the sliding seat are dismantled and are used with the collocation, if the width in green plant area is less, can dismantle upper portion additional pipe and lower part additional pipe from the sliding seat to carry out the shutoff with the position of original upper portion additional pipe and lower part additional pipe with threaded connection spare, thereby only irrigate through the upper portion outlet pipe. And according to the irrigation requirement, only the upper additional pipe is used for irrigation, and the upper water outlet pipe is replaced by the threaded connecting piece. In a similar way, the lower part water outlet pipe and the lower part additional pipe can be correspondingly operated according to the requirement, the application range is wide, and the irrigation requirements of various green plant belts can be met.

Optionally, a first distance sensor and a second distance sensor are respectively additionally arranged on one side of each of the two upright posts, which faces the sliding seat, and the first distance sensor and the second distance sensor are respectively electrically connected to the upper water pump and the lower water pump and control the opening and closing of the upper water pump and the lower water pump;

when the pipe orifice of the upper water outlet pipe is close to the upright post, the first distance sensor controls the upper water pump to be started, and the second distance sensor controls the lower water pump to be closed; when the pipe orifice of the lower water outlet pipe is close to the upright post, the second distance sensor controls the lower water pump to be started, and the first distance sensor controls the lower water pump to be closed.

Through adopting above-mentioned technical scheme, through first distance inductor and second distance inductor response sliding seat and two distances between the stand to the operation of control upper portion water pump and lower part water pump does not need the manual work to carry out opening and close of upper portion water pump and lower part water pump, has further improved irrigation efficiency, the workman only need carry out opening and close of irrigation system in safe position can, check the irrigation condition on one side afterwards, close whole irrigation system at last.

In summary, the invention includes at least one of the following beneficial technical effects:

1. an upper water outlet pipe and a lower water outlet pipe are arranged on the sliding seat, and the upper water outlet pipe and the lower water outlet pipe are used for irrigating the leaves of the plants and the soil for planting the plants respectively; meanwhile, the water pressure of the upper water outlet pipe and the lower water outlet pipe is utilized to drive the sliding seat to move along the fixed rod;

2. an upper additional pipe and a lower additional pipe are arranged, and the requirements of different green plant belts are met in a detachable mode.

Drawings

FIG. 1 is a schematic top view of an irrigation system and green plant belts;

FIG. 2 is a cross-sectional view A-A of FIG. 1;

FIG. 3 is an enlarged view of a portion of FIG. 2;

FIG. 4 is a cross-sectional view B-B of FIG. 1;

fig. 5 is a schematic structural diagram of the relative position relationship between the road and the green plant zone in the background art.

In the figure, 1, a column; 2. a fixing rod; 3. a sliding seat; 31. a rolling member; 32. an upper chamber; 321. an upper water outlet pipe; 322. an upper additional pipe; 33. a lower chamber; 331. a lower water outlet pipe; 332. a lower additional pipe; 4. a delivery pipe; 41. a water storage tank; 5. an upper water pump; 6. a lower water pump; 7. a first distance sensor; 8. a second distance sensor; 9. green plant zones; 10. a road.

Detailed Description

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

The embodiment of the application discloses irrigation system that green plant of town road was taken usefulness. Referring to fig. 1, an irrigation system for green strips 9 of town roads 10 includes two posts 1, a fixed post 2, and a sliding seat 3.

Two stands 1 are fixed in the both ends of green area 9 of planting respectively along vertical, and the both ends of dead lever 2 are fixed in respectively on two stands 1 for dead lever 2 keeps the level. The cross section of the fixing rod 2 is polygonal, and the fixing rod 2 with a rectangular cross section is adopted in the embodiment.

Referring to fig. 2 and 3, the sliding seat 3 is sleeved outside the fixing rod 2 and can move axially along the fixing rod 2. Referring to fig. 4, rolling members 31 are fixed on four side walls of the sliding seat 3 facing the fixing rod 2, the rolling members 31 may be conventional structures such as rollers or rolling shafts, and the rolling members 31 abut against the outer wall of the fixing rod 2 and are in rolling fit with the outer wall of the fixing rod 2.

Referring to fig. 3 and 4, an upper chamber 32 and a lower chamber 33 are opened inside the sliding seat 3, and the upper chamber 32 and the lower chamber 33 are respectively located above and below the fixing rod 2. The upper chamber 32 and the lower chamber 33 are respectively communicated with a conveying pipe 4, the conveying pipes 4 are hoses, one ends of the two conveying pipes 4, which are far away from the sliding seat 3, are communicated with the same water storage tank 41, and the bottom of the water storage tank 41 is buried in the soil of the green plant belt 9. The two delivery pipes 4 have a length enough for the sliding seat 3 to slide from one end to the other end of the fixed rod 2, and an upper water pump 5 (see fig. 1) is connected to the delivery pipe connected to the upper chamber 32, and a lower water pump 6 (see fig. 1) is connected to the delivery pipe connected to the lower chamber 33.

The top of the sliding seat 3 is provided with an upper water outlet pipe 321 and a plurality of pairs of upper additional pipes 322, and both the upper water outlet pipe 321 and the upper additional pipes 322 are communicated with the upper chamber 32. The upper water outlet pipe 321 and the upper additional pipe 322 are arranged near the sliding seat 3 and perpendicular to the side wall of the fixing rod 2, and the connecting line of the connecting positions of the upper water outlet pipe 321 and the upper additional pipe 322 on the sliding seat 3 is perpendicular to the fixing rod 2. The upper water outlet pipe 321 is located right above the fixing rod 2, and each pair of upper additional pipes 322 is symmetrically disposed at two sides of the upper water outlet pipe 321, and this embodiment is illustrated by taking a pair of upper additional pipes 322 as an example. To facilitate replacement and selection of upper outlet pipe 321 and upper additional pipe 322, upper outlet pipe 321 and upper additional pipe 322 are both screwed to the top of sliding seat 3. A threaded closure may be used in place of upper outlet pipe 321 or upper additional pipe 322 as desired.

The mouth of pipe that upper portion outlet pipe 321 deviates from sliding seat 3 one end extends the setting along the dead lever 2 axis and towards the direction of keeping away from sliding seat 3, and the mouth of pipe of upper portion outlet pipe 321 is the slope and upwards sets up simultaneously. The orifice of the upper additional pipe 322 is extended toward a direction away from the fixing rod 2, and the orifice of the upper additional pipe 322 is inclined upward. When the upper water pump 5 is started and the upper water outlet pipe 321 discharges water, the sliding seat 3 moves along the direction opposite to the water discharging direction of the upper water outlet pipe 321.

The bottom of the sliding seat 3 is provided with a lower water outlet pipe 331 and a plurality of pairs of lower additional pipes 332, and the lower water outlet pipe 331 and the lower additional pipes 332 are both communicated with the lower chamber 33. The lower water outlet pipe 331 and the lower additional pipe 332 are located at a position of the sliding seat 3 far away from the upper water outlet pipe 321, and a connection line of the connection positions of the lower water outlet pipe 331 and the lower additional pipe 332 on the sliding seat 3 is perpendicular to the fixing rod 2. The lower water outlet pipe 331 is located right below the fixing rod 2, and each pair of lower additional pipes 332 are symmetrically disposed on two sides of the lower water outlet pipe 331, and the embodiment takes a pair of lower additional pipes 332 as an example for explanation. To facilitate replacement and selection of the lower outlet pipe 331 and the lower additional pipe 332, both the lower outlet pipe 331 and the lower additional pipe 332 are screwed to the top of the sliding seat 3. The lower outlet pipe 331 or the lower additional pipe 332 may be replaced with a screw closure as required.

The pipe orifice of lower part outlet pipe 331 that deviates from one end of sliding seat 3 extends along the 2 axes of dead lever and towards the direction of keeping away from sliding seat 3 and sets up for the mouth of pipe direction of lower part outlet pipe 331 is opposite with the mouth of pipe direction of upper portion outlet pipe 321, and the mouth of pipe of lower part outlet pipe 331 is the slope and sets up downwards simultaneously. The orifice of the lower additional pipe 332 is extended in a direction away from the fixing rod 2, while the orifice of the lower additional pipe 332 is inclined upward. When the lower water pump 6 is started and the lower water outlet pipe 331 discharges water, the sliding seat 3 moves along the direction opposite to the water discharging direction of the lower water outlet pipe 331.

With reference to fig. 1 and fig. 2, in order to improve the working efficiency of the irrigation system, a first distance sensor 7 and a second distance sensor 8 are respectively added on one side of the two upright posts 1 facing the sliding seat 3, the first distance sensor 7 is fixed on the side wall of the upright post 1 directed to the pipe orifice of the lower water outlet pipe 331, and the second distance sensor 8 is fixed on the side wall of the upright post 1 directed to the pipe orifice of the upper water outlet pipe 321. The first distance sensor 7 and the second distance sensor 8 are respectively electrically connected to the upper water pump 5 and the lower water pump 6 and used for controlling the opening and closing of the upper water pump 5 and the lower water pump 6, when the distance between the sliding seat 3 and the upright post 1, which is sensed by the first distance sensor 7, is reduced to a set value, the second distance sensor 8 senses that the distance between the sliding seat 3 and the upright post 1 is enlarged to the set value, the first distance sensor 7 controls the upper water pump 5 to be started, and the second distance sensor 8 controls the lower water pump 6 to be closed; otherwise, the same applies.

Meanwhile, in order to facilitate the observation and control of irrigation quality of workers, the irrigation system is provided with a master switch for controlling the power supply of the irrigation system. After the master switch is started, the first water pump starts to work first, the second water pump is in a closed state, and the working states of the subsequent first water pump and the subsequent second water pump are controlled by the first distance sensor 7 and the second distance sensor 8.

The implementation principle of the embodiment is as follows: and starting a main switch of the irrigation system, starting the first water pump, conveying water in the water storage tank 41 to the first chamber, spraying the water through the upper water outlet pipe 321 and the upper additional pipe 322, moving in an upward inclined direction, falling on blades of tall trees such as trees in a parabolic falling track, and cleaning and irrigating the tall plants. When the first distance sensor 7 senses that the distance between the sliding seat 3 and the upright post 1 is reduced to a set value, the first distance sensor 7 controls the first water pump to be closed, meanwhile, the second distance sensor 8 senses that the distance between the sliding seat 3 and the upright post 1 is increased to the set value, and the second distance sensor 8 controls the second water pump to be opened. The water in the water storage tank 41 is supplied into the lower chamber 33 by the second water pump and is ejected from the lower water outlet pipe 331 and the lower additional pipe 332. The sprayed water is scattered on the soil and the blades of shrubs and herbaceous plants along the inclined downward movement track, and uniform irrigation is realized.

When the green plant belt 9 has a small area, several of the upper additional pipes 322 and the lower additional pipes 332 can be selected to operate, and the threaded holes on the sliding seat 3 are blocked by the threaded blocking pieces. The combination of the upper outlet pipe 321 and the pairs of upper additional pipes 322, the lower outlet pipe 331 and the pairs of lower additional pipes 332 can be selected as required for irrigation.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims (8)

1. The utility model provides an irrigation system that green plant of town road was taken and is used which characterized in that: comprises two vertical columns (1) which are vertical to each other, a fixed rod (2) which is connected between the two vertical columns (1) and a sliding seat (3) which is sleeved outside the fixed rod (2) and is in sliding fit along the fixed rod (2);

an upper cavity (32) and a lower cavity (33) are formed in the sliding seat (3), and the upper cavity (32) and the lower cavity (33) are respectively positioned above and below the fixing rod (2); the upper chamber (32) and the lower chamber (33) are respectively communicated with the same water storage tank (41) through conveying pipes (4), and an upper water pump (5) and a lower water pump (6) are respectively connected to the two conveying pipes (4);

The top of the upper cavity (32) is communicated with an upper water outlet pipe (321), and the bottom of the lower cavity (33) is communicated with a lower water outlet pipe (331); the pipe orifice of one end of the upper water outlet pipe (321) departing from the sliding seat (3) extends along the axis of the fixing rod (2), the pipe orifice of one end of the lower water outlet pipe (331) departing from the sliding seat (3) extends along the axis of the fixing rod (2), and the direction of the pipe orifice of the upper water outlet pipe (321) is opposite to that of the pipe orifice of the lower water outlet pipe (331);

when the upper water outlet pipe (321) discharges water, the sliding seat (3) moves along the direction of the pipe orifice of the lower water outlet pipe (331); when the lower water outlet pipe (331) discharges water, the sliding seat (3) moves along the direction of the pipe orifice of the upper water outlet pipe (321).

2. The irrigation system for green strips of municipal roads according to claim 1, wherein: the cross section of the fixing rod (2) is polygonal.

3. The irrigation system for green strips of municipal roads according to claim 2, wherein: the side wall of the sliding seat (3) facing the fixed rod (2) is provided with a rolling piece (31), and the rolling piece (31) abuts against the outer wall of the fixed rod (2) and is matched with the outer wall of the fixed rod (2) in a rolling manner.

4. The irrigation system for green strips of municipal roads according to claim 2, wherein: the pipe orifice of the upper water outlet pipe (321) is arranged obliquely upwards, and the pipe orifice of the lower water outlet pipe (331) is arranged obliquely downwards.

5. The irrigation system for green strips of municipal roads according to claim 1, wherein: an upper additional pipe (322) is additionally arranged on two sides of the upper water outlet pipe (321), and the upper additional pipe (322) is communicated with the upper cavity (32); the upper additional pipe (322) is symmetrically provided with a plurality of pipes by taking a vertical plane passing through the axis of the fixed pipe as a symmetrical plane, and the pipe orifice of the upper additional pipe (322) extends towards the direction far away from the fixed rod (2).

6. The irrigation system for green strips of municipal roads according to claim 5, wherein: two sides of the lower water outlet pipe (331) are additionally provided with lower additional pipes (332), and the lower additional pipes (332) are communicated with the lower cavity (33); the lower additional pipe (332) is symmetrically provided with a plurality of pipes by taking a vertical plane passing through the axis of the fixed pipe as a symmetrical plane, and the pipe orifices of the lower additional pipe (332) extend towards the direction far away from the fixed rod (2).

7. The irrigation system for green strips of municipal roads according to claim 6, wherein: and the upper water outlet pipe (321) is in threaded fit with the sliding seat (3), the upper additional pipe (322) is in threaded fit with the sliding seat (3), the lower water outlet pipe (331) is in threaded fit with the sliding seat (3), and the lower additional pipe (332) is in threaded fit with the sliding seat (3).

8. The irrigation system for green strips of municipal roads according to claim 1, wherein: a first distance sensor (7) and a second distance sensor (8) are respectively arranged on one side of each of the two upright posts (1) facing the sliding seat (3), and the first distance sensor (7) and the second distance sensor (8) are respectively electrically connected with the upper water pump (5) and the lower water pump (6) and control the upper water pump (5) and the lower water pump (6) to be opened and closed;

when the pipe orifice of the upper water outlet pipe (321) is close to the upright post (1), the first distance sensor (7) controls the upper water pump (5) to be started, and the second distance sensor (8) controls the lower water pump (6) to be closed; when the pipe orifice of the lower water outlet pipe (331) is close to the upright post (1), the second distance sensor (8) controls the lower water pump (6) to be started, and the first distance sensor (7) controls the lower water pump (6) to be closed.

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