CN114128606B - Environment-friendly irrigation device convenient for water conservancy planting and use method thereof - Google Patents

Abstract

An environment-friendly irrigation device convenient for water conservancy planting and a using method thereof belong to the technical field of water conservancy planting and aim to solve the problems that the stability of the existing drain pipe is low and the water break phenomenon is easy to occur; according to the invention, through the positioning mechanism, the moving and supporting mechanism and the auxiliary mechanism, the main machine body is connected with the positioning mechanism, the irrigation cylinder is connected with the positioning mechanism, the outer surface of the main machine body is connected with the moving and supporting mechanism, and the interior of the main machine body is connected with the auxiliary mechanism; the invention realizes the purposes that the irrigation spray head is moved to a proper position through the telescopic push rod, and the wind power generated by the stirring blades is utilized to ensure that the telescopic square pipe extends upwards while pumping water and irrigating, so that the semi-arc supporting block plays a supporting role on the transverse pipe, the vibration is reduced, and the stability in working is improved.

Description

Environment-friendly irrigation device convenient for water conservancy planting and use method thereof

Technical Field

The invention relates to the technical field of water conservancy planting, in particular to an environment-friendly irrigation device convenient for water conservancy planting and a use method thereof.

Background

Water is a source of all lives and is an essential substance in human life and production activities. In the survival and development of human society, there is a continuing need to adapt, utilize, transform and protect the aqueous environment. The water conservancy industry is continuously developed along with the development of social productivity and becomes an important support for the civilization and the economic development of human society, and the water conservancy planting is agricultural planting by utilizing water conservancy, and an irrigation device is indispensable.

Current watering device is when using, and the stability of drain pipe is lower, and the in-process of drainage, and water pressure is great, and is also big to the impact force of drain pipe, and the shake that brings is felt just big more, influences work efficiency, secondly, in the irrigation, will carry out the water source supply constantly, otherwise can appear the phenomenon of cutting off the water supply, also can influence holistic work efficiency.

Therefore, an environment-friendly irrigation device convenient for water conservancy planting and a using method thereof are provided.

Disclosure of Invention

The invention aims to provide an environment-friendly irrigation device convenient for water conservancy planting and a using method thereof, and solves the problems that when the existing irrigation device in the background technology is used, the stability of a drain pipe is low, the impact force on the drain pipe is larger due to larger water pressure in the drainage process, the shaking sense is larger, the working efficiency is influenced, and secondly, water source supply is continuously carried out during irrigation, otherwise, the water cut-off phenomenon occurs, and the whole working efficiency is influenced.

In order to achieve the purpose, the invention provides the following technical scheme: an environment-friendly irrigation device convenient for water conservancy planting comprises a main machine body, an irrigation cylinder arranged on the outer surface of the main machine body and a moving machine set arranged at the lower end of the main machine body, wherein a spraying mechanism is arranged on the outer surface of the irrigation cylinder;

the spraying mechanism comprises a moving outer ring arranged on the outer surface of the irrigation cylinder, telescopic push rods arranged on two sides of the moving outer ring, a fixed rod arranged at the upper end of the moving outer ring and a fixed ring arranged on the outer surface of the fixed rod, wherein a transverse pipe is arranged at one end of the fixed rod, end plates are arranged at two ends of the transverse pipe, irrigation nozzles are arranged on the outer surface of the end plates, a connection hose is arranged at the lower end of the fixed rod, and one end of the connection hose is arranged inside the irrigation cylinder.

Furthermore, the main machine body comprises an arc clamping groove and a penetrating groove which are arranged on the upper surface of the main machine body, an inserting groove which is arranged on the outer surface of the main machine body, a magnetic wall hole which is arranged in the inserting groove and a bottom groove which is arranged on the inner wall of the inserting groove, a pressing groove is also formed in the outer surface of the main machine body, a pressure pump is arranged on the outer surface of the main machine body, the main machine body is connected with a watering barrel through the arc clamping groove, the main machine body is connected with a moving and supporting mechanism through the penetrating groove, the main machine body is connected with a leading mechanism through the inserting groove, and the main machine body is connected with the pressing mechanism through the pressing groove.

Furthermore, an open slot is formed in the outer surface of the irrigation cylinder, side discs are arranged at two ends of the irrigation cylinder, the outer ring is movably connected with the irrigation cylinder, one end of the telescopic push rod is connected with the side discs, one end of the connection hose penetrates through the open slot to be communicated with a water pump arranged inside the irrigation cylinder, and the irrigation cylinder is connected with the positioning mechanism through the side discs.

Further, positioning mechanism is including setting up the positioning disk on side position dish surface, the down tube of setting on the positioning disk surface, set up the chute on the down tube surface, and run through the dimension stabilizer bar that sets up in chute inside, the one end of dimension stabilizer bar is provided with the dwang, be provided with on the surface of dwang and mix the blade, the one end and the motor drive who sets up in dimension stabilizer bar inside of dwang are connected, the other end of dwang passes the setting of host computer internal wall inside the host computer body, the inside of the host computer body is provided with complementary unit.

Furthermore, the auxiliary mechanism comprises a top groove formed in the upper jaw of the main machine body, a return spring and a stop block which are arranged inside the top groove, and an air pressure telescopic rod arranged on one side of the top groove, wherein one end of the return spring is connected with the inner wall of the top groove, the other end of the return spring is connected with the stop block, one end of the air pressure telescopic rod is connected with the support moving mechanism, and the return spring and the air pressure telescopic rod are oppositely arranged.

Furthermore, the outer surface of the air pressure telescopic rod is communicated with an air conveying pipe, one end of the air conveying pipe is provided with an air collecting hood, the air collecting hood and the stirring blades are arranged on the same horizontal plane and are arranged oppositely, an L-shaped plate and a diversion assembly are further arranged inside the main machine body, one end of the L-shaped plate is connected with the bottom of the main machine body, the L-shaped plate and the inner wall of the main machine body form a semi-closed area, and the diversion assembly is arranged in the formed semi-closed area.

Furthermore, the diversion component comprises a diversion cylinder arranged inside the main machine body, a water inlet notch formed in the outer surface of the diversion cylinder, a front end pipe arranged at one end of the diversion cylinder and a rear end pipe arranged at the other end of the diversion cylinder, wherein a main connecting pipe is arranged at one end of the rear end pipe, the diversion cylinder is communicated with the irrigation cylinder through the main connecting pipe, and the diversion cylinder is connected with the pressure pump through the front end pipe.

Further, move and prop the mechanism including setting up at the stay block that moves that pierces through inslot portion, run through the setting and moving the inside contact tube of stay block, set up the branch pipe that moves stay block one side to and set up at the check blend stop that moves the stay block lower extreme, the upper end of moving the stay block is provided with flexible side's pipe, the upper end of flexible side's pipe is provided with half arc supporting shoe and short circuit spring, half arc supporting shoe is connected with flexible side's pipe through the short circuit spring, the contact tube is linked together through branch pipe and air telescopic pole.

Further, connect and draw the mechanism including setting up the flourishing basin in the main engine body inside, the return bend of setting at flourishing basin lower extreme, the setting is in the pole that connects of flourishing basin one side, the setting is in the magnetic card dish that connects pole one end, and the atmospheric pressure catch bar of setting in magnetic card dish one side, flourishing basin is connected with the main engine body through the ann slot, the return bend is connected with the kerve, the magnetic chuck meets with magnetic wall hole magnetism, pressing means connects the spring including the owner that sets up in pressing the inslot, the setting connects the pressing block of spring one end at the owner, the setting connects the atmospheric pressure shrinkage pipe of the spring other end at the owner, and the supplementary takeover of setting in atmospheric pressure shrinkage pipe one end, the one end and the atmospheric pressure catch bar of supplementary takeover are linked together.

The invention provides another technical scheme that: the application method of the environment-friendly irrigation device convenient for water conservancy planting is provided, and comprises the following steps:

s1: the irrigation spray head is moved to a proper position through the telescopic push rod, and the telescopic square pipe is upwards extended by utilizing wind power generated by the stirring blades during water pumping and irrigation, so that the semi-arc supporting block plays a supporting role on the transverse pipe;

s2: when the transverse pipe moves, the moving and supporting mechanism is driven to integrally move, the grid barrier strips can enable the L-shaped plate and the inner wall of the main machine body to form water in a semi-closed area to be agitated, so that the water enters the rotating flow cylinder, and then the water is conveyed to the inside of the irrigation cylinder by the aid of the pressure pump, and the water source in the irrigation cylinder is prevented from being insufficient;

s3: the watering shower nozzle is when watering, presses down and presses the briquetting for atmospheric pressure shrink tube shrink, and its inside gas enters into the atmospheric pressure catch bar, makes it lengthen, and the magnetic force between magnetic chuck and the magnetic wall hole reduces gradually, makes flourishing basin shift out from the groove of placeeing, prevents that watering shower nozzle seam crossing from leaking, and to this point, accomplishes all usage steps.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention provides an environment-friendly irrigation device convenient for water conservancy planting and a use method thereof, wherein a movable outer ring is arranged on the outer surface of an irrigation cylinder, telescopic push rods are arranged at two sides of the movable outer ring, a fixed rod is arranged at the upper end of the movable outer ring, a fixed ring is arranged on the outer surface of the fixed rod, a transverse pipe is arranged at one end of the fixed rod, end plates are arranged at two ends of the transverse pipe, an irrigation nozzle is arranged on the outer surface of each end plate, a communicating hose is arranged at the lower end of the fixed rod, one end of the communicating hose is arranged in the irrigation cylinder, a positioning plate is arranged on the outer surface of a side positioning plate, an inclined rod is arranged on the outer surface of the positioning plate, an inclined groove is arranged on the outer surface of the inclined rod, a stabilizing rod is arranged in the inclined groove, a rotating rod is arranged at one end of the stabilizing rod, and stirring blades are arranged on the outer surface of the rotating rod, the one end and the setting of dwang are connected at the inside motor drive of dimension steady pole, the other end of dwang passes the setting of main internal wall at the main internal portion, the inside that pierces through the groove is provided with moves the bracer, the inside that moves the bracer is provided with the contact tube, one side that moves the bracer is provided with the branch pipe, the lower extreme that moves the bracer is provided with check blend stop, the upper end that moves the bracer is provided with flexible side's pipe, the upper end that flexible side's pipe is provided with half arc supporting shoe and short circuit spring, the half arc supporting shoe is connected with flexible side's pipe through the short circuit spring, the contact tube is linked together with pneumatic telescopic rod through the branch pipe, move the watering shower nozzle to suitable position through telescopic push rod, when watering, utilize the wind-force that stirring blade produced, make flexible side's pipe upwards extend, make half arc violently manage and play the supporting role to the supporting shoe, reduce vibrations, improve the stability of during operation.

2. The invention provides an environment-friendly irrigation device convenient for water conservancy planting and a use method thereof, wherein a top groove is arranged on the upper jaw of a main machine body, a return spring and a stop block are arranged inside the top groove, a pneumatic telescopic rod is arranged on one side of the top groove, one end of the return spring is connected with the inner wall of the top groove, the other end of the return spring is connected with the stop block, one end of the pneumatic telescopic rod is connected with a moving and supporting mechanism, the return spring and the pneumatic telescopic rod are oppositely arranged, a gas conveying pipe is communicated on the outer surface of the pneumatic telescopic rod, a gas collecting hood is arranged at one end of the gas conveying pipe, the gas collecting hood and stirring blades are arranged in the same horizontal plane and are oppositely arranged, an L-shaped plate and a diversion assembly are also arranged inside the main machine body, one end of the L-shaped plate is connected with the bottom of the main machine body, and the L-shaped plate and the inner wall of the main machine body form a semi-closed area, the subassembly that changes flows sets up in the semi-enclosed region that constitutes, the inside of the host computer body is provided with a commentaries on classics section of thick bamboo, be provided with the notch of intaking on the surface of a commentaries on classics section of thick bamboo, the one end of a commentaries on classics section of thick bamboo is provided with the front end pipe, the other end of a commentaries on classics section of thick bamboo is provided with the rear end pipe, the one end of rear end pipe is provided with main takeover, a commentaries on classics section of thick bamboo is linked together with an irrigation section of thick bamboo through main takeover, a commentaries on classics section of thick bamboo is connected with the force (forcing) pump through the front end pipe, when violently managing to take place to remove, can drive and move the bodily movement of strut mechanism, wherein check blend stop can make L template and the water that the main internal wall constitutes semi-enclosed region of host computer swash, make water get into a commentaries on classics section of thick bamboo, recycle force (forcing) pump with water transport to inside an irrigation section of thick bamboo, thereby play the effect of constantly filling water, prevent that an irrigation section of thick bamboo water source is not enough, indirectness improves whole work efficiency.

3. The invention provides an environment-friendly irrigation device convenient for water conservancy planting and a using method thereof.

Drawings

FIG. 1 is a schematic view of the overall structure of the environment-friendly irrigation device for facilitating water conservancy planting according to the present invention;

FIG. 2 is a schematic structural view of a main body of the irrigation device for facilitating environmental protection for water conservancy planting according to the present invention;

FIG. 3 is a schematic view of the ejection mechanism of the environmental protection irrigation device for facilitating water conservancy planting according to the present invention;

FIG. 4 is a schematic view of a partial structure of an irrigation cylinder of the environment-friendly irrigation device for facilitating water conservancy planting according to the present invention;

FIG. 5 is a schematic view of a positioning mechanism of the environment-friendly irrigation device for facilitating water conservancy planting according to the present invention;

FIG. 6 is a schematic view of the internal structure of the main body of the environment-friendly irrigation device for facilitating water conservancy planting according to the present invention;

FIG. 7 is a schematic structural view of a support mechanism of the environment-friendly irrigation device for facilitating water conservancy planting according to the present invention;

FIG. 8 is a schematic view of a diversion assembly of the environment-friendly irrigation device for facilitating water conservancy planting according to the present invention;

FIG. 9 is a schematic view of the connecting and leading mechanism of the environmental irrigation device for facilitating water conservancy planting according to the present invention;

FIG. 10 is a schematic view of the pressing mechanism of the environment-friendly irrigation device for water conservancy planting according to the present invention.

In the figure: 1. a main body; 11. an arc clamping groove; 12. penetrating the groove; 13. installing a slot; 14. a magnetic wall hole; 15. a bottom groove; 16. pressing the groove; 17. a pressure pump; 2. a watering cylinder; 21. an open slot; 22. a side tray; 3. moving the unit; 4. a discharge mechanism; 41. a transverse tube; 42. fixing the rod; 43. a fixing ring; 44. an end disc; 45. watering the spray head; 46. moving the outer ring; 47. a telescopic push rod; 48. connecting a hose; 5. a positioning mechanism; 51. positioning a plate; 52. a diagonal bar; 53. a chute; 54. maintaining and stabilizing the rod; 55. rotating the rod; 56. agitating the blade; 6. a support moving mechanism; 61. moving a supporting block; 62. a delivery pipe; 63. a branch pipe; 64. grid barrier strips; 65. a telescopic square tube; 66. a half arc supporting block; 67. a short circuit spring; 7. a connecting and leading mechanism; 71. a water containing tank; 72. bending a pipe; 73. connecting a guide rod; 74. a magnetic chuck; 75. a pneumatic push rod; 8. a pressing mechanism; 81. pressing the block; 82. a main connecting spring; 83. an air pressure collapsible tube; 84. auxiliary pipe connection; 9. an auxiliary mechanism; 91. a top groove; 92. a return spring; 93. a stopper; 94. an air pressure telescopic rod; 95. a gas delivery pipe; 96. a gas-collecting channel; 97. an L-shaped plate; 98. a diversion assembly; 981. a flow diversion cylinder; 982. a water inlet notch; 983. a front end tube; 984. a rear end tube; 985. and (4) main connection pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In order to solve the technical problem of how to improve the stability during operation, as shown in fig. 1-5 and fig. 7, the following preferred technical solutions are provided:

an environment-friendly irrigation device convenient for water conservancy planting comprises a main machine body 1, an irrigation cylinder 2 arranged on the outer surface of the main machine body 1, and a moving machine set 3 arranged at the lower end of the main machine body 1, wherein a spraying mechanism 4 is arranged on the outer surface of the irrigation cylinder 2, two ends of the irrigation cylinder 2 are respectively provided with a positioning mechanism 5, the upper end of the main machine body 1 is provided with a moving and supporting mechanism 6, two sides of the main machine body 1 are provided with a guiding mechanism 7 and a pressing mechanism 8, the spraying mechanism 4 comprises a moving outer ring 46 arranged on the outer surface of the irrigation cylinder 2, telescopic push rods 47 arranged at two sides of the moving outer ring 46, a fixed rod 42 arranged at the upper end of the moving outer ring 46, and a fixed ring 43 arranged on the outer surface of the fixed rod 42, one end of the fixed rod 42 is provided with a transverse pipe 41, and two ends of the transverse pipe 41 are respectively provided with an end disc 44, an irrigation nozzle 45 is arranged on the outer surface of the end disc 44, a connection hose 48 is arranged at the lower end of the fixed rod 42, one end of the connection hose 48 is arranged inside the irrigation cylinder 2, the main body 1 comprises an arc clamping groove 11 and a penetrating groove 12 which are arranged on the upper surface of the main body 1, an inserting groove 13 which is arranged on the outer surface of the main body 1, a magnetic wall hole 14 which is arranged inside the inserting groove 13 and a bottom groove 15 which is arranged on the inner wall of the inserting groove 13, a pressing groove 16 is further arranged on the outer surface of the main body 1, a pressure pump 17 is arranged on the outer surface of the main body 1, the main body 1 is connected with the irrigation cylinder 2 through the arc clamping groove 11, the main body 1 is connected with the movable supporting mechanism 6 through the penetrating groove 12, the main body 1 is connected with the guiding mechanism 7 through the inserting groove 13, and the main body 1 is connected with the pressing mechanism 8 through the pressing groove 16.

An open slot 21 is arranged on the outer surface of the irrigation cylinder 2, side trays 22 are arranged at both ends of the irrigation cylinder 2, a movable outer ring 46 is movably connected with the irrigation cylinder 2, one end of a telescopic push rod 47 is connected with the side trays 22, one end of a communication hose 48 penetrates through the open slot 21 to be communicated with a water pump arranged in the irrigation cylinder 2, and the irrigation cylinder 2 is connected with a positioning mechanism 5 through the side trays 22.

Positioning mechanism 5 is including setting up positioning disk 51 on side position dish 22 surface, set up down tube 52 on positioning disk 51 surface, set up chute 53 on down tube 52 surface, and run through the maintenance pole 54 that sets up in chute 53 inside, the one end of maintenance pole 54 is provided with dwang 55, be provided with on the surface of dwang 55 and mix blade 56, the one end and the motor drive who sets up in maintenance pole 54 inside of dwang 55 are connected, the other end of dwang 55 passes the setting of host computer body 1 inner wall inside host computer body 1, the inside of host computer body 1 is provided with complementary unit 9.

Move and prop mechanism 6 including setting up at the inside bracer 61 that moves of penetrating groove 12, run through the setting and move the inside contact tube 62 of bracer 61, the setting is moving the branch pipe 63 of bracer 61 one side, and the setting is moving check blend stop 64 of bracer 61 lower extreme, the upper end of moving bracer 61 is provided with flexible square pipe 65, the upper end of flexible square pipe 65 is provided with half arc supporting shoe 66 and short circuit spring 67, half arc supporting shoe 66 is connected with flexible square pipe 65 through short circuit spring 67, contact tube 62 is linked together through branch pipe 63 and air telescopic pole 94.

Specifically, the irrigation nozzle 45 is moved to a proper position through the telescopic push rod 47, and when water is pumped and irrigated, the wind power generated by the stirring blades 56 is utilized, so that the telescopic square pipe 65 extends upwards, the semi-arc supporting block 66 plays a supporting role on the transverse pipe 41, vibration is reduced, and the stability in working is improved.

In order to solve the technical problem of how to prevent the water source in the irrigation cylinder 2 from being insufficient, as shown in fig. 6 and 8, the following preferred technical solutions are provided:

the auxiliary mechanism 9 comprises a top groove 91 arranged on the upper jaw of the main body 1, a return spring 92 and a stop block 93 which are arranged inside the top groove 91, and an air pressure telescopic rod 94 arranged on one side of the top groove 91, wherein one end of the return spring 92 is connected with the inner wall of the top groove 91, the other end of the return spring 92 is connected with the stop block 93, one end of the air pressure telescopic rod 94 is connected with the support moving mechanism 6, and the return spring 92 and the air pressure telescopic rod 94 are oppositely arranged.

The outer surface of the air pressure telescopic rod 94 is communicated with an air conveying pipe 95, one end of the air conveying pipe 95 is provided with a gas collecting hood 96, the gas collecting hood 96 and the stirring blades 56 are arranged in the same horizontal plane and are arranged opposite to each other, an L-shaped plate 97 and a diversion assembly 98 are further arranged inside the main machine body 1, one end of the L-shaped plate 97 is connected with the bottom of the main machine body 1, the L-shaped plate 97 and the inner wall of the main machine body 1 form a semi-closed area, and the diversion assembly 98 is arranged in the formed semi-closed area.

The diverting assembly 98 includes a diverting tube 981 arranged in the main body 1, a water inlet notch 982 arranged on the outer surface of the diverting tube 981, a front end pipe 983 arranged at one end of the diverting tube 981, and a rear end pipe 984 arranged at the other end of the diverting tube 981, one end of the rear end pipe 984 is provided with a main connecting tube 985, the diverting tube 981 is communicated with the irrigating tube 2 through the main connecting tube 985, and the diverting tube 981 is connected with the pressure pump 17 through the front end pipe 983.

Specifically, when violently managing 41 and taking place to remove, can drive and move and prop 6 moving as a whole, wherein check blend stop 64 can make L template 97 and the water that the internal wall of main engine body 1 constitutes semi-enclosed region and swamp, makes water enter into a commentaries on classics flow section of thick bamboo 981, recycles force (forcing) pump 17 and carries water to watering section of thick bamboo 2 inside to play the effect that constantly fills water, prevent that watering section of thick bamboo 2 is interior water source not enough, indirectness nature improves whole work efficiency.

In order to solve the technical problem of how to prevent water leakage at the joint 45 of the irrigation nozzle, as shown in fig. 9 and fig. 10, the following preferred technical solutions are provided:

the guiding mechanism 7 comprises a water containing groove 71 arranged in the main machine body 1, an elbow pipe 72 arranged at the lower end of the water containing groove 71, a guiding rod 73 arranged at one side of the water containing groove 71, a magnetic card disc 74 arranged at one end of the guiding rod 73, and an air pressure pushing rod 75 arranged at one side of the magnetic chuck 74, the water containing groove 71 is connected with the main machine body 1 through an installation groove 13, the elbow pipe 72 is connected with a bottom groove 15, the magnetic chuck 74 is magnetically connected with a magnetic wall hole 14, the pressing mechanism 8 comprises a main connecting spring 82 arranged in the pressing groove 16, a pressing block 81 arranged at one end of the main connecting spring 82, an air pressure contraction pipe 83 arranged at the other end of the main connecting spring 82, and an auxiliary connecting pipe 84 arranged at one end of the air pressure contraction pipe 83, and one end of the auxiliary connecting pipe 84 is communicated with the air pressure pushing rod 75.

Specifically, when the irrigation nozzle 45 is used for irrigation, the pressing block 81 is pressed down to enable the air pressure shrinkage pipe 83 to shrink, air in the air pressure shrinkage pipe enters the air pressure pushing rod 75 to enable the air pressure pushing rod to be lengthened, the magnetic force between the magnetic card disc 74 and the magnetic wall hole 14 is gradually reduced, the water containing groove 71 is moved out of the inserting groove 13, water leakage at the joint 45 of the irrigation nozzle is prevented, and environmental protection and irrigation saving are achieved.

To further better illustrate the above embodiments, the present invention also provides an embodiment of a method for using an environmental irrigation device for water conservancy planting, comprising the following steps:

s1: the irrigation nozzle 45 is moved to a proper position through the telescopic push rod 47, and when water is pumped and irrigated, the wind power generated by the stirring blades 56 is utilized to enable the telescopic square pipe 65 to extend upwards, so that the semi-arc supporting block 66 plays a role in supporting the transverse pipe 41;

s2: when the transverse pipe 41 moves, the moving and supporting mechanism 6 is driven to move integrally, wherein the grid barrier strips 64 enable the L-shaped plates 97 and the inner wall of the main body 1 to form water in a semi-closed area to be agitated, so that the water enters the rotating flow cylinder 981, and then the water is conveyed to the inside of the irrigation cylinder 2 by the pressure pump 17, so that the water source in the irrigation cylinder 2 is prevented from being insufficient;

s3: when the irrigation nozzle 45 is used for irrigation, the pressing block 81 is pressed down to enable the air pressure shrinkage pipe 83 to shrink, air in the air pressure shrinkage pipe enters the air pressure pushing rod 75 to enable the air pressure pushing rod to be lengthened, the magnetic force between the magnetic card disc 74 and the magnetic wall hole 14 is gradually reduced, the water containing groove 71 is moved out of the inserting groove 13, water leakage at the seam 45 of the irrigation nozzle is prevented, and all using steps are completed.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (3)

1. The utility model provides an environmental protection watering device for water conservancy is planted convenient to, includes the host computer body (1), sets up watering section of thick bamboo (2) on the surface of the host computer body (1) to and set up mobile unit (3) at host computer body (1) lower extreme, its characterized in that: the outer surface of the irrigation cylinder (2) is provided with a spraying mechanism (4), two ends of the irrigation cylinder (2) are provided with positioning mechanisms (5), the upper end of the main machine body (1) is provided with a moving and supporting mechanism (6), and two sides of the main machine body (1) are provided with a guiding mechanism (7) and a pressing mechanism (8);

the spraying mechanism (4) comprises a movable outer ring (46) arranged on the outer surface of the irrigation cylinder (2), telescopic push rods (47) arranged on two sides of the movable outer ring (46), a fixed rod (42) arranged at the upper end of the movable outer ring (46), and a fixed ring (43) arranged on the outer surface of the fixed rod (42), wherein one end of the fixed rod (42) is provided with a transverse pipe (41), two ends of the transverse pipe (41) are respectively provided with an end disc (44), an irrigation spray head (45) is arranged on the outer surface of the end disc (44), the lower end of the fixed rod (42) is provided with a connection hose (48), and one end of the connection hose (48) is arranged inside the irrigation cylinder (2);

the main machine body (1) comprises an arc clamping groove (11) and a penetrating groove (12) which are arranged on the upper surface of the main machine body (1), an inserting groove (13) which is arranged on the outer surface of the main machine body (1), a magnetic wall hole (14) which is arranged inside the inserting groove (13), and a bottom groove (15) which is arranged on the inner wall of the inserting groove (13), wherein a pressing groove (16) is also formed in the outer surface of the main machine body (1), a pressure pump (17) is arranged on the outer surface of the main machine body (1), the main machine body (1) is connected with the irrigation cylinder (2) through the arc clamping groove (11), the main machine body (1) is connected with the moving and supporting mechanism (6) through the penetrating groove (12), the main machine body (1) is connected with the guiding mechanism (7) through the inserting groove (13), and the main machine body (1) is connected with the pressing mechanism (8) through the pressing groove (16);

an open slot (21) is formed in the outer surface of the irrigation cylinder (2), side discs (22) are arranged at two ends of the irrigation cylinder (2), a movable outer ring (46) is movably connected with the irrigation cylinder (2), one end of a telescopic push rod (47) is connected with the side discs (22), one end of a communicating hose (48) penetrates through the open slot (21) to be communicated with a water pump arranged in the irrigation cylinder (2), and the irrigation cylinder (2) is connected with a positioning mechanism (5) through the side discs (22);

the positioning mechanism (5) comprises a positioning disc (51) arranged on the outer surface of the side positioning disc (22), an inclined rod (52) arranged on the outer surface of the positioning disc (51), a chute (53) arranged on the outer surface of the inclined rod (52), and a stabilizing rod (54) penetrating through the inside of the chute (53), one end of the stabilizing rod (54) is provided with a rotating rod (55), the outer surface of the rotating rod (55) is provided with stirring blades (56), one end of the rotating rod (55) is in transmission connection with a motor arranged inside the stabilizing rod (54), the other end of the rotating rod (55) penetrates through the inner wall of the host body (1) and is arranged inside the host body (1), and an auxiliary mechanism (9) is arranged inside the host body (1);

the moving support mechanism (6) comprises a moving support block (61) arranged inside the penetrating groove (12), a delivery pipe (62) penetrating through the moving support block (61), a branch pipe (63) arranged on one side of the moving support block (61), and a grid barrier strip (64) arranged at the lower end of the moving support block (61), wherein a telescopic square pipe (65) is arranged at the upper end of the moving support block (61), a semi-arc support block (66) and a short-circuit spring (67) are arranged at the upper end of the telescopic square pipe (65), and the semi-arc support block (66) is connected with the telescopic square pipe (65) through the short-circuit spring (67);

the auxiliary mechanism (9) comprises a top groove (91) arranged on the upper jaw of the main machine body (1), a return spring (92) and a stop block (93) arranged inside the top groove (91), and an air pressure telescopic rod (94) arranged on one side of the top groove (91), wherein one end of the return spring (92) is connected with the inner wall of the top groove (91), the other end of the return spring (92) is connected with the stop block (93), one end of the air pressure telescopic rod (94) is connected with the support moving mechanism (6), and the return spring (92) and the air pressure telescopic rod (94) are oppositely arranged;

the outer surface of the air pressure telescopic rod (94) is communicated with an air conveying pipe (95), one end of the air conveying pipe (95) is provided with a gas collecting hood (96), the gas collecting hood (96) and the stirring blades (56) are arranged in the same horizontal plane and are arranged opposite to each other, an L-shaped plate (97) and a diversion assembly (98) are further arranged inside the main machine body (1), one end of the L-shaped plate (97) is connected with the bottom of the main machine body (1), the L-shaped plate (97) and the inner wall of the main machine body (1) form a semi-closed area, and the diversion assembly (98) is arranged in the formed semi-closed area;

the rotating flow assembly (98) comprises a rotating flow cylinder (981) arranged inside the main machine body (1), a water inlet notch (982) formed in the outer surface of the rotating flow cylinder (981), a front end pipe (983) arranged at one end of the rotating flow cylinder (981), and a rear end pipe (984) arranged at the other end of the rotating flow cylinder (981), a main connecting pipe (985) is arranged at one end of the rear end pipe (984), the rotating flow cylinder (981) is communicated with the irrigation cylinder (2) through the main connecting pipe (985), and the rotating flow cylinder (981) is connected with the pressure pump (17) through the front end pipe (983).

2. The environmental protection irrigation device for facilitating water conservancy planting according to claim 1, wherein: the guide mechanism (7) comprises a water containing groove (71) arranged inside the main machine body (1), an elbow pipe (72) arranged at the lower end of the water containing groove (71), a guide rod (73) arranged on one side of the water containing groove (71), a magnetic card disc (74) arranged at one end of the guide rod (73), and an air pressure push rod (75) arranged on one side of the magnetic card disc (74), the water containing groove (71) is connected with the main machine body (1) through an inserting groove (13), the elbow pipe (72) is connected with a bottom groove (15), the magnetic card disc (74) is magnetically connected with a magnetic wall hole (14), the pressing mechanism (8) comprises a main connecting spring (82) arranged inside a pressing groove (16), a pressing block (81) arranged at one end of the main connecting spring (82), an air pressure pipe (83) arranged at the other end of the main connecting spring (82), and an auxiliary connecting pipe (84) arranged at one end of the air pressure contraction pipe (83), and one end of the auxiliary connecting pipe (84) is communicated with the air pressure push rod (75).

3. The use method of the environment-friendly irrigation device facilitating water conservancy planting according to claim 2, characterized by comprising the following steps: the method comprises the following steps:

s1: the irrigation spray head (45) is moved to a proper position through the telescopic push rod (47), and when water is pumped and irrigated, the wind power generated by the stirring blades (56) is utilized to enable the telescopic square pipe (65) to extend upwards, so that the semi-arc supporting block (66) plays a role in supporting the transverse pipe (41);

s2: when the transverse pipe (41) moves, the moving and supporting mechanism (6) is driven to integrally move, wherein the grid barrier strips (64) can enable the L-shaped plate (97) and the inner wall of the main machine body (1) to form water in a semi-closed area to be agitated, so that the water enters the rotating flow cylinder (981), the water is conveyed to the inside of the irrigation cylinder (2) by the aid of the pressure pump (17), and water source shortage in the irrigation cylinder (2) is prevented;

s3: when the irrigation nozzle (45) is used for irrigation, the pressing block (81) is pressed down to enable the air pressure shrinkage pipe (83) to shrink, air in the air pressure shrinkage pipe enters the air pressure push rod (75) to enable the air pressure push rod to be lengthened, the magnetic force between the magnetic card disc (74) and the magnetic wall hole (14) is gradually reduced, the water containing groove (71) is moved out of the inserting groove (13), water leakage at a joint of the irrigation nozzle (45) is prevented, and all using steps are completed.

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