CN116616153A

CN116616153A - Road greening irrigation device

Info

Publication number: CN116616153A
Application number: CN202310428486.8A
Authority: CN
Inventors: 秦杨; 刘奕
Original assignee: Nanjing Higher Vocational And Technical School (jiangsu United Vocational And Technical College Nanjing Branch)
Current assignee: Nanjing Higher Vocational And Technical School (jiangsu United Vocational And Technical College Nanjing Branch)
Priority date: 2023-04-20
Filing date: 2023-04-20
Publication date: 2023-08-22

Abstract

The invention provides a road greening irrigation device, which relates to the technical field of greening irrigation and comprises: the irrigation main pipe is a straight pipe, and five groups of drip irrigation heads are fixedly arranged at the bottom end of the outer peripheral surface of the irrigation main pipe in an evenly distributed manner; when irrigation, the water source can be poured into the soil through the adding pipe, the irrigation main pipe and the metal corrugated shaping hose, and the penetrating pipe is inserted into the soil of the green plant and goes deep into the soil, so that the poured water source can also flow into the embedded hole of the penetrating pipe through the communicating hole and is conducted to the soil through the penetrating guide piece and the integrated protruding block, the water source can be directly provided for the root system part of the green plant in the green plant, thereby meeting the water source of the growth requirement of the green plant, and solving the problems that when the soil geology in the green plant is harder, the poured water is absorbed by the surface layer of the soil before reaching the root of the green plant and cannot be irrigated to the root of the green plant.

Description

Road greening irrigation device

Technical Field

The invention relates to the technical field of greening irrigation, in particular to a road greening irrigation device.

Background

Road greening refers to planting trees, flowers and plants on two sides or in the middle of a road, and aims to improve traffic environment.

In order to meet the water source required by green plants in the road green belt, the green plants in the road green belt are irrigated by one-time water source at intervals, but the traditional irrigation mode is to spray the water source into the road green belt so as to realize omnibearing irrigation, but when the soil geology in the green belt is harder, the irrigated water is absorbed by the surface layer of the soil before reaching the roots of the green plants, the roots of the green plants cannot be irrigated, and if the roots of the green plants are irrigated, a large amount of water source is needed, so that the problem of waste of a large amount of water resources is caused.

Disclosure of Invention

In view of the above, the invention provides a road greening irrigation device, when irrigation, a water source can be poured through an adding pipe part, and is stored together through the adding pipe, an irrigation main pipe and a metal corrugated shaping hose, and five groups of drip irrigation heads are fixedly arranged at the bottom end of the outer peripheral surface of each irrigation main pipe in an evenly distributed manner, and by arranging the drip irrigation heads, drip irrigation of a green plant water source in a green belt can be realized, and the growth requirement of the green plant water source is met.

The invention provides a road greening irrigation device, which comprises the following components: the irrigation main pipe is a straight pipe, flange plates a are fixedly arranged at two ends of the irrigation main pipe, and five groups of drip irrigation heads are uniformly distributed and fixedly arranged at the bottom end of the outer peripheral surface of the irrigation main pipe; the pouring device is characterized by further comprising an adding pipe, wherein the adding pipe is a forty-five-degree bent pipe, flange plates c are fixedly arranged at two ends of the adding pipe, and when the adding pipe is fixedly arranged with the main irrigation pipe, the flange plate c at one end of the adding pipe is fixedly arranged with the flange plate a at one end of the main irrigation pipe; the metal corrugated forming hose is characterized by further comprising a metal corrugated forming hose, wherein the flange plate b is fixedly arranged at two ends of the metal corrugated forming hose, and the flange plate b at one end of the metal corrugated forming hose is fixedly arranged with the flange plate a at one end of the irrigation main pipe when the metal corrugated forming hose is fixedly arranged with the irrigation main pipe.

Furthermore, four extension cannulas are uniformly distributed at the bottom of the outer peripheral surface of the irrigation main pipe, the extension cannulas are round pipes, and a communicating hole site communicated with the irrigation main pipe is formed in the axis position of each extension cannula; four arc-shaped clamping grooves A are formed in the bottom end surface of the extension cannula in an annular array mode, and one embedded clamping groove A is formed in each arc-shaped clamping groove A.

Further, the device also comprises a permeation tube, wherein the permeation tube is a straight tube, and the diameter of the permeation tube is consistent with the diameter of the extension cannula; four arc-shaped extension blocks are arranged on the top end surface of the permeation tube in an annular array shape, and the structural size of the arc-shaped extension blocks is matched with that of the arc-shaped clamping groove A; the inner peripheral surfaces of the four arc-shaped extension blocks are provided with embedded clamping blocks, and the structural size of each embedded clamping block is matched with that of the embedded clamping groove A; under the infiltration pipe and extension intubate installed state, four arc extension pieces are pegged graft inside arc draw-in groove A everywhere, and the embedded joint of embedded fixture block is inside embedded draw-in groove A this moment.

Furthermore, the bottom end of the permeation tube is in an annular array shape and is provided with four arc clamping grooves B, the structural size of each arc clamping groove B is matched with the structural size of each arc extension block, each arc clamping groove B is internally provided with an embedded clamping groove B, and the structural size of each embedded clamping groove B is matched with the structural size of each embedded clamping block; when two adjacent infiltration pipes are installed, four arc-shaped extension blocks of one infiltration pipe are inserted into four arc-shaped clamping grooves A of the other infiltration pipe, and at the moment, the embedded clamping blocks are embedded and clamped into the embedded clamping grooves B.

Furthermore, the central part of the permeation tube shaft is provided with an embedded hole, and the diameter of the embedded hole is consistent with that of the communicated hole; the embedded hole is inserted with a penetration guide piece with the same size, and the penetration guide piece is a non-woven fabric strip.

Further, six penetration holes communicated with the embedded holes are formed in the circumferential surface of the penetration pipe in an annular array shape, and the penetration holes are in an arc-shaped groove structure; six integrated protruding blocks are arranged on the outer peripheral surface of the permeation guide piece in an annular array mode, the structural size of the integrated protruding blocks is matched with that of the permeation hole site, and the integrated protruding blocks are clamped inside the permeation hole site.

Further, the irrigation pipe comprises a rubber sealing ring pad, and when the addition pipe is fixedly installed with the irrigation main pipe, a piece of rubber sealing ring pad can be arranged between the flange c and the flange a; when the metal corrugated shaping hose is fixedly installed with the irrigation main pipe, a rubber sealing ring pad can be arranged between the flange plate b and the flange plate a.

Furthermore, when two adjacent irrigation main pipes are installed, the two irrigation main pipes are fixedly installed and connected through a metal corrugated shaping hose; when one end of the adding pipe is fixedly installed with the irrigation main pipe, the flange plate a at the other end of the adding pipe is fixedly provided with a sealing plate, and the sealing plate shields and seals the opening end part of the adding pipe.

Advantageous effects

1. According to the invention, through the arrangement of the irrigation main pipe and the metal corrugated forming hose, the design of a splicing structure is realized, the number of the irrigation main pipe and the metal corrugated forming hose can be selected according to the length of the road green belt and are mutually spliced when the road green belt is irrigated, so that the length requirement of the road green belt irrigation is met.

2. According to the invention, through the arrangement of the permeation tubes, the superposition, splicing and installation of the permeation tubes can be realized, the number of the permeation tubes can be conveniently selected according to the depth of the road green belt, the permeation tubes are sequentially superposed, spliced and installed on four extension insertion tubes, and then the permeation tubes are inserted into the soil of the road green belt, so that the permeation tubes penetrate into the soil, and the greening irrigation requirement is met.

3. When the irrigation pipe is used for irrigation, the water source can be poured into the irrigation pipe through the addition pipe, the irrigation main pipe and the metal corrugated shaping hose for storage together, five groups of drip irrigation heads are uniformly and fixedly arranged at the bottom end of the outer peripheral surface of each irrigation main pipe, and the drip irrigation heads are arranged to realize drip irrigation of the green plant water source in the green belt so as to meet the growth requirement.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

fig. 1 is an isometric view of an embodiment of the invention.

Fig. 2 is a schematic diagram of a split structure of an embodiment of the present invention.

FIG. 3 is an isometric view of the bottom end of a watering main according to an embodiment of the invention.

Fig. 4 is a schematic view of a partial enlarged structure at a in fig. 3 according to an embodiment of the present invention.

Fig. 5 is a schematic diagram of an isometric view of the top end of a permeate tube according to an embodiment of the invention.

Fig. 6 is an isometric view of the bottom end of a permeate tube according to an embodiment of the invention.

Fig. 7 is a schematic diagram of a split structure of a permeate tube according to an embodiment of the invention.

Fig. 8 is an enlarged partial sectional structural schematic view of the permeate tube according to the embodiment of the invention in an installed state.

List of reference numerals

1. Irrigation of the main pipe; 101. a drip irrigation head; 102. an extension cannula; 103. a flange plate a; 104. a rubber seal ring pad; 105. communicating the hole sites; 106. an arc-shaped clamping groove A; 107. a clamping groove A is embedded; 2. a metal corrugated shaping hose; 201. a flange plate b; 3. a permeate tube; 301. an arc-shaped extension block; 302. a clamping block is embedded; 303. an arc-shaped clamping groove B; 304. a permeate guide; 305. an integral protruding block; 306. a clamping groove B is embedded; 307. embedding hole sites; 308. penetration hole sites; 4. an addition tube; 401. a sealing plate; 402. and a flange plate c.

Detailed Description

In order to make the objects, aspects and advantages of the technical solution of the present invention more clear, the technical solution of the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings of the specific embodiment of the present invention.

Examples: please refer to fig. 1 to 8:

the invention provides a road greening irrigation device, which comprises an irrigation main pipe 1, wherein the irrigation main pipe 1 is a straight pipe, flange plates a103 are fixedly arranged at two ends of the irrigation main pipe 1, and five groups of drip irrigation heads 101 are uniformly distributed and fixedly arranged at the bottom end of the outer peripheral surface of the irrigation main pipe 1; the irrigation pipe comprises a main irrigation pipe 1, and is characterized by further comprising an addition pipe 4, wherein the addition pipe 4 is a forty-five-degree bent pipe, flange plates c402 are fixedly arranged at two ends of the addition pipe 4, and when the addition pipe 4 is fixedly arranged with the main irrigation pipe 1, the flange plates c402 at one end of the addition pipe 4 are fixedly arranged with a flange plate a103 at one end of the main irrigation pipe 1; the metal corrugated shaping hose 2 is fixedly arranged at two ends of the metal corrugated shaping hose 2, when the metal corrugated shaping hose 2 is fixedly arranged with the irrigation main pipe 1, the flange b201 at one end of the metal corrugated shaping hose 2 is fixedly arranged with the flange a103 at one end of the irrigation main pipe 1, four extension insertion pipes 102 are uniformly distributed at the bottom of the outer peripheral surface of the irrigation main pipe 1, the extension insertion pipes 102 are circular pipes, and a communication hole site 105 communicated with the irrigation main pipe 1 is formed in the axial center part of the extension insertion pipe 102; four arc-shaped clamping grooves A106 are formed in the bottom end of the extension cannula 102 in an annular array mode, and one embedded clamping groove A107 is formed in each arc-shaped clamping groove A106.

The device also comprises a permeation tube 3, wherein the permeation tube 3 is a straight tube, and the diameter of the permeation tube 3 is consistent with the diameter of the extension cannula 102; four arc-shaped extension blocks 301 are arranged on the top end surface of the permeation tube 3 in an annular array shape, and the structural size of each arc-shaped extension block 301 is matched with that of each arc-shaped clamping groove A106; the inner peripheral surfaces of the four arc-shaped extension blocks 301 are provided with embedded clamping blocks 302, and the structural size of each embedded clamping block 302 is matched with that of each embedded clamping groove A107; in the installation state of the permeation tube 3 and the extension insertion tube 102, the four arc-shaped extension blocks 301 are inserted into the four arc-shaped clamping grooves A106, at the moment, the embedded clamping blocks 302 are clamped into the embedded clamping grooves A107, the bottom end of the permeation tube 3 is in an annular array shape, four arc-shaped clamping grooves B303 are formed in the mode, the structural size of each arc-shaped clamping groove B303 is matched with that of each arc-shaped extension block 301, one embedded clamping groove B306 is formed in each arc-shaped clamping groove B303, and the structural size of each embedded clamping groove B306 is matched with that of each embedded clamping block 302; when two adjacent permeation tubes 3 are installed, four arc-shaped extension blocks 301 of one permeation tube 3 are inserted into arc-shaped clamping grooves A106 of the other permeation tube 3, at the moment, embedded clamping blocks 302 are embedded and clamped into embedded clamping grooves B306, so that overlapping, splicing and installation of the permeation tubes 3 can be realized through embedded matching of the embedded clamping blocks 302 and the embedded clamping grooves B306, an embedded hole position 307 is formed in the axis position of the permeation tube 3, and the diameter of the embedded hole position 307 is consistent with that of a communicating hole position 105; the embedded hole site 307 is inserted with a penetration guide 304 with the same size, the penetration guide 304 is a non-woven fabric strip, and the water source poured into the embedded hole site 307 can be absorbed through the arrangement of the penetration guide 304 and used for guiding the water source to soil.

Six penetration holes 308 communicated with the embedded holes 307 are formed on the peripheral surface of the penetration pipe 3 in an annular array shape, and the penetration holes 308 are in an arc-shaped groove structure; six integrated protruding blocks 305 are arranged on the outer peripheral surface of the permeation guide piece 304 in an annular array mode, the structural size of the integrated protruding blocks 305 is matched with that of the permeation hole site 308, and the integrated protruding blocks 305 are clamped inside the permeation hole site 308, so when the permeation tube 3 is inserted into the deep inside soil, the integrated protruding blocks 305 of the permeation guide piece 304 can be contacted with the soil because the integrated protruding blocks 305 are arranged in the permeation hole site 308, so that a water source can be conducted to the soil through the contact of the integrated protruding blocks 305 and the soil, and the water source is directly provided for a root system part of green plants in a green belt, so that the water source of the growth requirement of the green plants is met.

The irrigation pipe comprises a main pipe 1, a flange plate c402 and a flange plate a103, wherein the irrigation pipe 1 is fixedly arranged on the main pipe 1, and the irrigation pipe also comprises a rubber sealing ring pad 104, and a rubber sealing ring pad 104 can be arranged between the flange plate c402 and the flange plate a 103; when the metal corrugated sizing hose 2 is fixedly installed with the irrigation main pipe 1, a rubber sealing ring pad 104 can be arranged between the flange plate b201 and the flange plate a103, and the tightness between installation positions is ensured through the arrangement of the rubber sealing ring pad 104, so that water source leakage is avoided.

When two adjacent irrigation main pipes 1 are installed, the two irrigation main pipes 1 are fixedly installed and connected through a metal corrugated shaping hose 2, and the angle between the two adjacent irrigation main pipes 1 can be adjusted according to requirements through the arrangement of the metal corrugated shaping hose 2 so as to achieve a better irrigation effect; when one end of the adding pipe 4 is fixedly installed with the irrigation main pipe 1, the flange plate a103 at the other end of the adding pipe 4 is fixedly provided with a sealing plate 401, the sealing plate 401 shields and seals the opening end part of the adding pipe 4, and insects and the like can be prevented from entering the adding pipe 4 through shielding of the sealing plate 401.

Specific use and action of the embodiment:

firstly, the number of the permeation tubes 3 is selected according to the depth of the road green belt, the permeation tubes 3 are sequentially overlapped, spliced and installed on four extension insertion tubes 102, and then the permeation tubes 3 are inserted into the soil of the road green belt so as to facilitate the irrigation of a subsequent water source, and the concrete operation is as follows:

when the extension cannula 102 and the permeation tubes 3 are installed, the four arc-shaped extension blocks 301 are inserted into the four arc-shaped clamping grooves A106, at the moment, the embedded clamping blocks 302 are embedded into the embedded clamping grooves A107, so that the installation operation of the extension cannula 102 and the permeation tubes 3 is completed, then a corresponding number of permeation tubes 3 are selected according to the depth of a road green belt and are overlapped and spliced, when two adjacent permeation tubes 3 are installed, the four arc-shaped extension blocks 301 of one permeation tube 3 are inserted into the four arc-shaped clamping grooves A106 of the other permeation tube 3, at the moment, the embedded clamping blocks 302 are embedded into the embedded clamping grooves B306, and after the overlapping and splicing of the permeation tubes 3 are completed, the permeation tubes 3 are inserted into the soil of the road green belt, so that the permeation tubes 3 penetrate into the soil;

likewise, the number of the irrigation main pipe 1 and the metal corrugated shaping hose 2 is selected according to the length of the road green belt, and the irrigation main pipe and the metal corrugated shaping hose are mutually spliced to meet the length requirement of the irrigation of the road green belt, and the method specifically comprises the following steps:

when two adjacent irrigation main pipes 1 are installed, the two irrigation main pipes 1 are fixedly installed and connected through a metal corrugated shaping hose 2, the angle between the two adjacent irrigation main pipes 1 can be adjusted according to requirements through the arrangement of the metal corrugated shaping hose 2 so as to achieve better irrigation effect, when the irrigation main pipes 1 are spliced, the two addition pipes 4 are used for sealing the edge part irrigation main pipes 1, during installation, one end of each addition pipe 4 is fixedly installed with the irrigation main pipe 1, a sealing disc 401 is fixedly installed on a flange plate a103 at the other end of each addition pipe 4, the opening end part of each addition pipe 4 is sealed through the sealing disc 401, and therefore external insects and the like are prevented from entering the inside of the addition pipe;

during irrigation, water sources are poured into the irrigation pipe 4, the irrigation main pipe 1 and the metal corrugated shaping hose 2 are stored together, five groups of drip irrigation heads 101 are uniformly distributed and fixedly arranged at the bottom end of the outer peripheral surface of each irrigation main pipe 1, and the drip irrigation heads 101 are arranged to realize drip irrigation of green planted water sources in the green belt, so that the growth requirement of the green planted water sources is met.

The foregoing is merely exemplary embodiments of the present invention and is not intended to limit the scope of the invention, which is defined by the appended claims.

Claims

1. A road greening irrigation device, comprising: the irrigation main pipe (1), the irrigation main pipe (1) is a straight pipe, flange plates a (103) are fixedly arranged at two ends of the irrigation main pipe (1), and five groups of drip irrigation heads (101) are uniformly distributed and fixedly arranged at the bottom end of the outer peripheral surface of the irrigation main pipe (1); the irrigation pipe comprises a main pipe (1), and is characterized by further comprising an addition pipe (4), wherein the addition pipe (4) is a forty-five-degree bent pipe, flange plates c (402) are fixedly arranged at two ends of the addition pipe (4), and when the addition pipe (4) is fixedly arranged with the main pipe (1), the flange plates c (402) at one end of the addition pipe (4) are fixedly arranged with the flange plates a (103) at one end of the main pipe (1); the novel metal corrugated plastic irrigation pipe comprises a metal corrugated plastic hose (2), wherein a flange plate b (201) is fixedly arranged at two ends of the metal corrugated plastic hose (2), and when the metal corrugated plastic hose (2) is fixedly arranged with an irrigation main pipe (1), the flange plate b (201) at one end of the metal corrugated plastic hose (2) is fixedly arranged with a flange plate a (103) at one end of the irrigation main pipe (1).

2. A road greening irrigation apparatus as defined in claim 1, wherein: four extension insertion pipes (102) are uniformly distributed at the bottom of the outer peripheral surface of the irrigation main pipe (1), the extension insertion pipes (102) are round pipes, and a communication hole site (105) communicated with the irrigation main pipe (1) is formed in the axial center of each extension insertion pipe (102); four arc-shaped clamping grooves A (106) are formed in the bottom end surface of the extension insertion tube (102) in an annular array mode, and one embedded clamping groove A (107) is formed in each arc-shaped clamping groove A (106).

3. A road greening irrigation apparatus as defined in claim 1, wherein: the device also comprises a permeation tube (3), wherein the permeation tube (3) is a straight tube, and the diameter of the permeation tube (3) is consistent with the diameter of the extension cannula (102); four arc-shaped extending blocks (301) are arranged on the top end surface of the permeation tube (3) in an annular array shape, and the structural size of each arc-shaped extending block (301) is matched with that of each arc-shaped clamping groove A (106); the inner peripheral surfaces of the four arc-shaped extension blocks (301) are provided with embedded clamping blocks (302), and the structural size of each embedded clamping block (302) is matched with that of each embedded clamping groove A (107); under the installation state of the permeation tube (3) and the extension cannula (102), the four arc-shaped extension blocks (301) are inserted into the arc-shaped clamping grooves A (106) at all positions, and at the moment, the embedded clamping blocks (302) are embedded and clamped into the embedded clamping grooves A (107).

4. A road greening irrigation apparatus according to claim 3, wherein: four arc clamping grooves B (303) are formed in the bottom end surface of the permeation tube (3) in an annular array shape, the structural size of each arc clamping groove B (303) is matched with that of each arc extension block (301), one embedded clamping groove B (306) is formed in each arc clamping groove B (303), and the structural size of each embedded clamping groove B (306) is matched with that of each embedded clamping block (302); when two adjacent infiltration pipes (3) are installed, four arc-shaped extension blocks (301) of one infiltration pipe (3) are inserted into four arc-shaped clamping grooves A (106) of the other infiltration pipe (3), and at the moment, the embedded clamping blocks (302) are embedded and clamped into the embedded clamping grooves B (306).

5. A roadway greening irrigation apparatus as defined in claim 4, wherein: an embedded hole site (307) is formed in the axial center of the permeation tube (3), and the diameter of the embedded hole site (307) is consistent with that of the communicating hole site (105); a penetration guide (304) with the same size is inserted into the embedded hole site (307), and the penetration guide (304) is a non-woven fabric strip.

6. A roadway greening irrigation apparatus as defined in claim 5, wherein: six penetration holes (308) communicated with the embedded holes (307) are formed in the circumferential surface of the penetration pipe (3) in an annular array shape, and the penetration holes (308) are of an arc-shaped groove structure; six integrated protruding blocks (305) are arranged on the outer peripheral surface of the permeation guide piece (304) in an annular array mode, the structural size of the integrated protruding blocks (305) is matched with that of the permeation hole site (308), and the integrated protruding blocks (305) are clamped inside the permeation hole site (308).

7. A road greening irrigation apparatus as defined in claim 1, wherein: the irrigation pipe comprises a main pipe (1) and is characterized by further comprising a rubber sealing ring pad (104), wherein a rubber sealing ring pad (104) can be arranged between a flange plate c (402) and a flange plate a (103) when the addition pipe (4) is fixedly arranged with the main irrigation pipe; when the metal corrugated shaping hose (2) is fixedly installed with the irrigation main pipe (1), a rubber sealing ring pad (104) can be arranged between the flange plate b (201) and the flange plate a (103).

8. A road greening irrigation apparatus as defined in claim 1, wherein: when two adjacent irrigation main pipes (1) are installed, the two irrigation main pipes (1) are fixedly installed and connected through a metal corrugated shaping hose (2); when one end of the adding pipe (4) is fixedly installed with the irrigation main pipe (1), the flange plate a (103) at the other end of the adding pipe (4) is fixedly provided with a sealing plate (401), and the sealing plate (401) shields and seals the opening end part of the adding pipe (4).