CN112616626B - Afforestation irrigation equipment who combines swing - Google Patents

Abstract

The invention provides a landscaping irrigation device combined with a swing, which comprises: the rainwater storage device comprises a base, a bracket and a water storage tank, wherein the bracket is symmetrically and fixedly arranged on the upper surface of the base, the water storage tank capable of storing rainwater is arranged on one side of the bracket on the upper surface of the base, a water collecting device which can filter and collect rainwater is arranged above the bracket, a water collecting box is fixedly arranged on the surface of the upper end of the bracket, the swinging pressurization effect is formed by the structural cooperation of the swinging structure, the pressurization structure and the one-way valve structure, the swinging pressurization effect is used as a pressure difference source to replace a pressurization pump in the irrigation of a pipeline system, the use of energy is reduced, certain energy is effectively saved, rainwater can be uniformly sprayed out through the rotation structure, the greening irrigation function is well realized, can stop the wobbling swing fast under emergency through the braking structure, prevent other unexpected emergence, improve the security of whole device, the effectual personal safety who protects the player.

Description

Afforestation irrigation equipment who combines swing

Technical Field

The invention relates to the technical field of garden irrigation, in particular to a garden greening irrigation device combined with a swing.

Background

The garden irrigation is a technical measure for supplementing soil moisture required by growth of garden plants to improve the growth conditions of the garden plants, and the soil moisture of garden greenbelts is supplemented by using an artificial method or a mechanical method in different irrigation forms to meet the moisture requirement of the plants so as to help the plants to normally survive and grow.

The existing garden irrigation adopts a fixed pipeline type sprinkling irrigation system or an artificial irrigation mode to irrigate plants, and has the following defects:

1. the manual irrigation mode is adopted, the water pipe is manually held to irrigate the plants in a movable manner after the water source is connected, workers need to manually connect the water source and arrange the water pipe, the labor intensity of the workers is greatly increased, and time and labor are wasted;

2. when the pipeline type spray pipe system is adopted for irrigation, a booster pump is needed for boosting and spraying water flow, a large amount of energy is wasted due to the operation of the booster pump, and a long time is spent when the sprinkler irrigates plants, so that a large amount of water resources are wasted;

3. the pipeline type spray pipe system comprehensively considers the position of greening during layout, the position of the pipeline needs to be planned and laid, and plants cannot be well irrigated in some areas where the pipeline cannot be laid;

4. the pipeline type spray pipe system is densely distributed below the ground along with the pipe, when the pipeline leaks water, the specific damaged position of the pipeline needs to be judged and found out, the pipeline type spray pipe system is replaced and maintained, and the process is very troublesome.

Therefore, it is necessary to provide a landscaping irrigation device with a swing to solve the above technical problems.

Disclosure of Invention

In order to solve the technical problem, the invention provides a garden greening irrigation device combined with a swing.

The invention provides: an landscaping irrigation device that incorporates a swing, comprising: the rainwater collecting device comprises a base, a support and a water storage tank, wherein the support is fixedly and symmetrically arranged on the upper surface of the base, a water storage tank capable of storing rainwater is arranged on one side of the support, a rainwater collecting device capable of filtering and collecting rainwater is arranged above the support, a water collecting box is fixedly and fixedly arranged at the upper end of the support, an impurity removing structure capable of pushing dead leaves for cleaning is arranged inside the water collecting box, a filter box capable of filtering impurities in rainwater is arranged on the side surface of the water collecting box close to the water storage tank, a swinging structure capable of swinging back and forth is arranged between the supports below the rainwater collecting device, a rotating rod is rotatably and rotatably arranged between the supports below the rainwater collecting device, a connecting frame is fixedly and symmetrically arranged on the surface of the rotating rod, a swing is fixedly and fixedly arranged at the end part of the connecting frame, and a braking structure capable of helping the swing to stop emergently is arranged inside one side of the rotating rod far away from the filter box, the inside below that is located the filter cartridge of support is equipped with the pressure boost structure that can realize the swing pressure boost with the bull stick cooperation, the inside below that is located pressure boost structure of support is equipped with the check valve structure that can intermittently open and shut, one side of storage water tank is equipped with the rotation structure that can with check valve structure complex.

Preferably, the water collecting box comprises a water outlet groove, a water outlet hole, a water collecting groove and a water guide hole, the water outlet groove is formed in the upper portion of the water collecting box, the water outlet hole is formed in one side of the upper surface of the water outlet groove, the water outlet hole is communicated with the outside of the water collecting box, the water collecting groove is formed in one side, located on one side of the water outlet groove, of the upper portion of the water collecting box, the depth of the water collecting groove is smaller than that of the water outlet groove, and the water guide hole is formed in one side, far away from the water outlet hole, of the inside of the water collecting groove.

Preferably, the impurity removing structure comprises a first motor, a first guide wheel, a through cavity, a first steel wire rope, a guide pillar, a first spring and a scraper, the first motor is fixedly installed inside the side wall of the water collecting tank far away from the water collecting box, the first guide wheel is fixedly installed at the output end part of the first motor, the through cavity is formed inside the side wall of the water collecting box, the guide pillar is symmetrically and slidably installed inside the through cavity and is elastically connected with the side wall of the through cavity through the first spring, the scraper is fixedly installed at the position above the water collecting tank between the guide pillars and is in contact extrusion fit with the upper surface of the water collecting tank, the first steel wire rope is wound on the surface of the first guide wheel, and the first steel wire rope is symmetrically wound around the guide wheel and then is fixedly connected with the side surface of the guide pillar.

Preferably, the filter cartridge includes hole, release axle, filter screen, second motor and rolling axle, the inside hole of seting up of filter cartridge, and the hole communicates with each other with the water guide hole and is connected, the inside hole one side that is located of filter cartridge rotates installation release axle, and releases axle surface winding cover and establish the filter screen, the inside release axle one side fixed mounting second motor of keeping away from of filter cartridge, second motor output end fixed mounting rolling axle, and the filter screen passes hole and rolling axle fixed surface and be connected.

Preferably, the pressure intensifying structure includes side chamber, rack, round gear, piston and inlet opening, the support is located the extreme position that the bull stick kept away from clutch blocks one side and offers the side chamber, the side intracavity portion is close to bull stick extreme position department and is equipped with the rack, the bull stick tip is located the inside fixed mounting round gear of side chamber, and round gear and rack meshing transmission cooperation, the tip is located the inside fixed mounting piston of side chamber under the rack, and piston and side intracavity wall sliding extrusion cooperation, the inlet opening is opened to the side chamber lateral wall near side chamber bottom position, and the inlet opening communicates with each other with the storage water tank and is connected.

Preferably, the check valve structure includes inner chamber, baffle, upper aperture, flexible post, third spring and flow mouth, the mouth that flows is seted up to the side chamber diapire, the support is inside to be located side chamber lower position department and to set up the inner chamber, and the inner chamber communicates with each other with the side chamber through flowing the mouth and be connected, the inner chamber upper wall is located the mouth bilateral symmetry of flowing and sets up the upper aperture, the equal fixed mounting flexible post of upper aperture upper wall, and flexible post lower surface is located the inside fixed mounting baffle of inner chamber, and baffle and the structural cooperation of flowing the mouth, the third spring is established to flexible post surface position between upper aperture upper wall and the baffle upper surface elastic sleeve.

Preferably, the rotation structure includes pipe, water blocking leaf, bevel gear group, transmission shaft, shower nozzle and drive gear group, storage water tank one side is equipped with the pipe, and the pipe communicates with each other with the inner chamber and is connected, rotate between the inner wall at pipe end and install the water blocking leaf, pipe port portion rotates the installation shower nozzle, the pipe lateral wall is located position rotation installation transmission shaft between shower nozzle and the water blocking leaf, and the water blocking leaf passes through bevel gear group and is connected with the transmission shaft transmission, and the shower nozzle passes through drive gear group and is connected with the transmission shaft end transmission.

Preferably, the braking structure is including inserting post, clutch blocks, second spring, second wire rope and pull rod, the filter cartridge one side slip is kept away from inside the bull stick and is inserted the post, and inserts inside the toe portion rises to the support, and inserts the post through second spring and bull stick inner wall elastic connection, insert the toe portion and be located the inside fixed mounting clutch blocks of support, and clutch blocks and bull stick tip extrusion friction fit, the bull stick below is equipped with the pull rod, and the pull rod tip passes through second wire rope and inserts a side fixed connection of surface.

Compared with the related art, the landscaping irrigation device combined with the swing has the following beneficial effects:

the invention provides a landscaping irrigation device combined with a swing, which comprises:

1. rainwater can be well guided into the water storage tank through the water collecting device for storage, meanwhile, impurities such as dead branches and leaves can be effectively pushed and cleaned through the impurity removing structure, the impurities in the rainwater can be filtered to a certain extent through the filter box, the rainwater in the water storage tank is effectively ensured to contain less impurities, the condition that a nozzle or a pipeline is blocked due to the impurities in the rainwater is reduced, and the smoothness of the whole device is effectively ensured;

2. meanwhile, during maintenance, only the whole is required to be checked, and the damaged part is maintained or replaced, so that time and labor are saved;

3. the swing pressurization effect is formed by the structural matching of the swing structure, the pressurization structure and the one-way valve structure, and the swing pressurization effect is used as a source of pressure difference to replace a pressurization pump in the irrigation of a pipeline system, so that the use of energy is reduced, certain energy is effectively saved, rainwater can be uniformly sprayed out through the rotation structure, and the greening irrigation function is well realized;

4. can stop the wobbling swing fast under emergency through the braking structure, prevent other unexpected emergence, improve the security of whole device, effectual protection player's personal safety.

Drawings

FIG. 1 is a schematic view of the overall structure provided by the present invention;

FIG. 2 is a schematic view of a swing structure provided by the present invention;

FIG. 3 is a schematic view of a water collection device provided by the present invention;

FIG. 4 is a schematic view of a filter structure provided by the present invention;

FIG. 5 is a schematic view of a braking structure provided by the present invention;

FIG. 6 is a schematic view of a supercharging configuration provided by the present invention;

FIG. 7 is a schematic view of a check valve configuration provided by the present invention;

fig. 8 is a schematic diagram of a self-transmitting structure provided by the present invention.

Reference numbers in the figures: 1. a base; 2. a support; 3. a water storage tank; 4. a water collection device; 41. a water collection box; 411. a water outlet groove; 412. a water outlet hole; 413. a water collection tank; 414. a water guide hole; 42. an impurity removal structure; 421. a first motor; 422. a first guide wheel; 423. a cavity is communicated; 424. a first wire rope; 425. a guide post; 426. a first spring; 427. a squeegee; 43. a filter cartridge; 431. an inner bore; 432. releasing the shaft; 433. a filter screen; 434. a second motor; 435. a winding shaft; 5. a swing structure; 51. a rotating rod; 52. a connecting frame; 53. a swing; 6. a braking structure; 61. inserting a column; 62. a friction block; 63. a second spring; 64. a second wire rope; 65. a pull rod; 7. a pressurizing structure; 71. a lateral cavity; 72. a rack; 73. a circular gear; 74. a piston; 75. a water inlet hole; 8. a one-way valve structure; 81. an inner cavity; 82. a baffle plate; 83. an upper hole; 84. a telescopic column; 85. a third spring; 86. a spout; 9. a rotation structure; 91. a conduit; 92. a water retaining blade; 93. a bevel gear set; 94. a drive shaft; 95. a spray head; 96. a drive gear set.

Detailed Description

The invention is further described with reference to the following figures and embodiments.

Please refer to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7 and fig. 8 in combination, wherein fig. 1 is a schematic diagram of an overall structure provided by the present invention; FIG. 2 is a schematic view of a swing structure provided by the present invention; FIG. 3 is a schematic view of a water collection device provided by the present invention; FIG. 4 is a schematic view of a filter structure provided by the present invention; FIG. 5 is a schematic view of a braking structure provided by the present invention; FIG. 6 is a schematic view of a supercharging configuration provided by the present invention; FIG. 7 is a schematic view of a check valve configuration provided by the present invention; fig. 8 is a schematic diagram of a self-transmission structure provided by the present invention, and the landscaping irrigation device with a swing includes: base 1, support 2 and storage water tank 3.

In the specific implementation process, as shown in fig. 1, fig. 2 and fig. 3, the support 2 is fixed and installed symmetrically on the upper surface of the base 1, a water storage tank 3 capable of storing rainwater is arranged on one side of the support 2 on the upper surface of the base 1, a water collecting device 4 capable of filtering and collecting rainwater is arranged above the support 2, a water collecting box 41 is fixedly installed on the upper end surface of the support 2, an impurity removing structure 42 capable of pushing dead tree leaves to clean is arranged inside the water collecting box 41, a filter box 43 capable of filtering impurities in rainwater is arranged on the side surface of the water collecting box 41 close to the water storage tank 3, a swing structure 5 capable of swinging back and forth is arranged between the supports 2 below the water collecting device 4, a rotating rod 51 is rotatably installed at the position below the water collecting device 4 between the supports 2, a connecting frame 52 is fixedly installed symmetrically on the surface of the rotating rod 51, and a swing 53 is fixedly installed at the end of the connecting frame 52, the inside of bull stick 51 one side far away from filter cartridge 43 is equipped with the braking structure 6 that can help swing 53 to promptly stop, the inside below position that is located filter cartridge 43 of support 2 is equipped with can realize the pressure boost structure 7 of swing pressure boost with the cooperation of bull stick 51, the inside below that is located pressure boost structure 7 of support 2 is equipped with the check valve structure 8 that can intermittently open and shut, one side of storage water tank 3 is equipped with can with the 8 structure complex rotation structures 9 of check valve structure.

In order to solve the defects existing in the prior art, the rainwater can be well guided into the water storage tank 3 for storage through the water collecting device 4, meanwhile, impurities such as dead branches and leaves can be effectively pushed and cleaned through the impurity removing structure 42, the impurities in the rainwater can be filtered to a certain extent through the filter box 43, the rainwater in the water storage tank 3 is well guided into the rotation structure 9 through the swinging structure 5 and the pressurization structure 7 which are matched with each other to form the swinging pressurization effect, the rainwater can be well rotated and uniformly sprayed out through the rotation structure 9 so as to realize the irrigation for the greening, in the invention, the whole irrigation device replaces the existing manual irrigation and the existing pipeline system irrigation, the operation and the working principle are simple and effective, the labor intensity of workers is greatly reduced, the laying work of a complex pipeline system is also avoided, and the swinging structure 5, the pressurization structure 7 and the one-way valve structure 8 are matched with each other, as the source of pressure differential, the booster pump in the pipe-line system watering has been replaced, the use of the energy has been reduced, the effectual certain energy of having practiced thrift, water-collecting device 4 has effectually guaranteed that the rainwater in the storage water tank 3 contains less impurity, the condition of stopping up spout or pipeline because of impurity in the rainwater has been reduced, simultaneously when the maintenance, only need the inspection whole, and will damage the department maintain or change can, time saving and labor saving, braking structure 6 can be under emergency fast with wobbling swing 53 shut down, prevent the emergence of other accidents, the effectual personal safety who plays the person of having protected.

Referring to fig. 3, the water collecting box 41 includes a water outlet slot 411, a water outlet hole 412, a water collecting tank 413 and a water guiding hole 414, the water outlet slot 411 is formed above the water collecting box 41, the water outlet hole 412 is formed in one side of the upper surface of the water outlet slot 411, the water outlet hole 412 is communicated with the outside of the water collecting box 41, the water collecting tank 413 is formed in one side of the water outlet slot 411 above the water collecting box 41, the depth of the water collecting tank 413 is smaller than that of the water outlet slot 411, and the water guiding hole 414 is formed in one side of the water collecting tank 413 far away from the water outlet hole 412.

Referring to fig. 3, the trash removing structure 42 includes a first motor 421, a first guide wheel 422, a through cavity 423, a first wire rope 424, a guide pillar 425, a first spring 426 and a scraper 427, the first motor 421 is fixedly installed inside a side wall of the water collecting box 41 far away from the water collecting tank 413, the first guide wheel 422 is fixedly installed at an output end of the first motor 421, the through cavity 423 is opened inside the side wall of the water collecting box 41, the guide pillars 425 are symmetrically and slidably installed inside the through cavity 423, the guide pillars 425 are elastically connected with the side wall of the through cavity 423 through the first spring 426, the scraper 427 is fixedly installed between the guide pillars 425 at a position above the water collecting tank 413, the scraper 427 is in contact and press fit with the upper surface of the water collecting tank 413, the first wire rope 424 is wound on the surface of the first guide wheel 422, and the first wire ropes 424 are fixedly connected with the side surface of the guide pillars 425 after symmetrically bypassing the guide wheel.

Referring to fig. 4, the filter box 43 includes an inner hole 431, a release shaft 432, a filter screen 433, a second motor 434 and a winding shaft 435, the inner hole 431 is formed in the filter box 43, the inner hole 431 is communicated and connected with the water guide hole 414, the release shaft 432 is rotatably mounted at one side of the inner hole 431 in the filter box 43, the filter screen 433 is wound and sleeved on the surface of the release shaft 432, the second motor 434 is fixedly mounted at one side of the filter box 43 far away from the release shaft 432, the winding shaft 435 is fixedly mounted at the output end of the second motor 434, and the filter screen 433 passes through the inner hole 431 and is fixedly connected with the winding shaft 435.

In order to solve the problems that the manual watering method of holding the water pipe is time-consuming and labor-consuming and the watering method of adopting the pipeline type spray pipe needs to lay the pipeline, the device drops rainwater above the water collecting tank 413 in rainy days, the rainwater flows into the inner hole 431 through the water guide hole 414 and is guided into the water storage tank 3 for storage, the rainwater in the water storage tank 3 enters the side cavity 71 through the water inlet hole 75, meanwhile, in order to prevent impurities such as withered leaves and the like from blocking the water guide hole 414, the first motor 421 works to drive the first guide wheel 422 to rotate, the first steel wire rope 424 is wound, the first steel wire rope 424 pulls the guide pillar 425 to slide along the through cavity 423, meanwhile, the first spring 426 is elastically compressed by the extrusion of the guide pillar 425, the guide pillar drives the scraper 427 to be attached to the surface of the water collecting tank 413 to slide, the impurities on the surface of the water collecting tank 413 are pushed out of the water collecting tank 411, and the influence on the water drainage caused by the blocking of the water guide hole 414 by the impurities is effectively prevented, drive first guide pulley 422 antiport through first motor 421, with the release of first wire rope 424, under the elastic action of first spring 426, extrusion guide pillar 425 slides and resets, and stretch over first wire rope 424, and the whole repeatedly working of filter box 43, simultaneously in order to avoid the influence of the less impurity of volume to the device in the rainwater, the rainwater will pass through the filtration of filter screen 433, because long-time filtration, impurity in the rainwater will adsorb inside filter screen 433 and plug up filter screen 433, drive partial filter screen 433 that rolling axle 435 rotated and will plug up through second motor 434 this moment, release axle 432 will release new filter screen 433 simultaneously, to a great extent filters the impurity in the rainwater, the patency of the inside pore of device has effectively been guaranteed.

Referring to fig. 6, the pressurizing structure 7 includes a side cavity 71, a rack 72, a circular gear 73, a piston 74 and a water inlet 75, the end position of the bracket 2 located on one side of the rotating rod 51 far away from the friction block 62 is provided with the side cavity 71, the end position of the inside of the side cavity 71 near the end position of the rotating rod 51 is provided with the rack 72, the end of the rotating rod 51 is located on the circular gear 73 fixedly installed inside the side cavity 71, the circular gear 73 is engaged with the rack 72 for transmission, the lower end of the rack 72 is located on the piston 74 fixedly installed inside the side cavity 71, the piston 74 is in sliding extrusion fit with the inner wall of the side cavity 71, the side cavity 71 side wall is close to the bottom end position of the side cavity 71 and is provided with the water inlet 75, and the water inlet 75 is connected with the water storage tank 3.

Referring to fig. 6 and 7, the check valve structure 8 includes an inner cavity 81, a baffle 82, an upper hole 83, a telescopic column 84, a third spring 85 and a flow port 86, the flow port 86 is formed in the bottom wall of the side cavity 71, the inner cavity 81 is formed in the position, located below the side cavity 71, inside the bracket 2, and is communicated with the side cavity 71 through the flow port 86, the upper holes 83 are symmetrically formed in the upper wall of the inner cavity 81 and located on both sides of the flow port 86, the telescopic column 84 is fixedly mounted on the upper wall of each upper hole 83, the baffle 82 is fixedly mounted inside the inner cavity 81 on the lower surface of each telescopic column 84, the baffle 82 is structurally matched with the flow port 86, and the third spring 85 is elastically sleeved between the upper wall of each upper hole 83 and the upper surface of the baffle 82 on the outer surface of each telescopic column 84.

Referring to fig. 7 and 8, the rotation structure 9 includes a guide pipe 91, a water blocking blade 92, a helical gear set 93, a transmission shaft 94, a nozzle 95 and a transmission gear set 96, the guide pipe 91 is disposed on one side of the water storage tank 3, the guide pipe 91 is communicated with the inner cavity 81, the water blocking blade 92 is rotatably mounted between inner walls of end portions of the guide pipe 91, the nozzle 95 is rotatably mounted at a port portion of the guide pipe 91, the transmission shaft 94 is rotatably mounted at a position, between the nozzle 95 and the water blocking blade 92, of a side wall of the guide pipe 91, the water blocking blade 92 is in transmission connection with the transmission shaft 94 through the helical gear set 93, and the nozzle 95 is in transmission connection with an end portion of the transmission shaft 94 through the transmission gear set 96.

In order to solve the problem that a large amount of energy and water resources are wasted due to long-time operation of the booster pump when a tourist sits on the swing 53 in a park for rest and entertainment, the swing 53 drives the rotating rod 51 and the bracket 2 to swing relatively through the connecting frame 52, so that the side cavity 71 drives the circular gear 73 at one end to rotate, the circular gear 73 drives the rack 72 to slide up and down along the inside of the side cavity 71 through meshing fit, the rack 72 drives the piston 74 to slide up and down along the side cavity 71, at the moment, the piston 74 pushes rainwater at the bottom of the side cavity 71 to form certain pressure, the baffle 82 is pushed open by overcoming the elasticity of the third spring 85, the rainwater enters the conduit 91, and when the piston 74 slides upwards, the baffle 82 can be driven to elastically reset under the fit of the third spring 85 and the telescopic column 84, and the rainwater continues to flow into the bottom of the side cavity 71 through the water inlet 75, effectively guarantee that side chamber 71 bottom and piston 74 cooperation form airtight pressure effect, through the continuous compression effect of piston 74, the rainwater will flow to the tip along pipe 91, the rainwater can extrude and push fender water leaf 92 and rotate, transmission effect through bevel gear set 93 drives transmission shaft 94 and rotates, transmission effect through transmission gear set 96, transmission shaft 94 can drive shower nozzle 95 and rotate, and the rainwater rotates even blowout by shower nozzle 95 after the pressure boost, in order to reach fine irrigation.

Referring to fig. 5, the braking structure 6 includes an inserting column 61, a friction block 62, a second spring 63, a second steel wire rope 64 and a pull rod 65, one side of the rotating rod 51 far from the filter box 43 is slidably inserted into the inserting column 61, the end of the inserting column 61 rises into the support 2, the inserting column 61 is elastically connected with the inner wall of the rotating rod 51 through the second spring 63, the end of the inserting column 61 is located in the friction block 62 fixedly installed inside the support 2, the friction block 62 is in friction fit with the end of the rotating rod 51 in an extrusion manner, the pull rod 65 is arranged below the rotating rod 51, and the end of the pull rod 65 is fixedly connected with the side surface of the inserting column 61 through the second steel wire rope 64.

In order to stop the swing 53 in case of emergency or danger, the pull rod 65 and the second wire rope 64 are pulled to drive the insertion post 61 to move inwards, the second spring 63 elastically accumulates force, the insertion post 61 drives the friction block 62 to move to one side, the friction block 62 is tightly attached to the end of the rotating rod 51 to form friction to help the swing 53 to stop, meanwhile, after the swing 53 stops, the pull rod 65 is loosened, and under the action of the second spring 63, the insertion post 61 can be pushed to slide and reset so that the swing 53 can normally swing.

The working principle is as follows: the device is arranged in a park, the lower half part of the device is buried underground, rainwater falls above a water collecting tank 413 in rainy days, flows into an inner hole 431 through a water guide hole 414 and is guided into a water storage tank 3 for storage, the rainwater in the water storage tank 3 enters into a side cavity 71 through a water inlet hole 75, the rainwater is filtered by a filter screen 433 in the process, impurities in the rainwater are adsorbed in the filter screen 433 and block the filter screen 433 due to long-time filtration, at the moment, a second motor 434 drives a winding shaft 435 to rotate to wind part of the blocked filter screen 433, a new filter screen 433 is released by a releasing shaft 432, leaves and other impurities are accumulated in the water collecting tank 413, a first guide wheel 422 is driven to rotate by the operation of a first motor 421 to wind a first steel wire rope 424, the first steel wire rope 424 pulls a guide post 425 to slide along a through cavity 423, meanwhile, the first spring 426 is elastically compressed by the extrusion of the guide post 425, the guide post 425 drives the scraper 427 to be attached to the surface of the water collecting tank 413 to slide, impurities on the surface of the water collecting tank 413 are pushed into the water outlet tank 411, the influence of the impurities on the water guide hole 414 on the launching is effectively prevented, the first guide wheel 422 is driven to rotate reversely by the first motor 421, the first steel wire rope 424 is released, the extrusion guide post 425 slides and resets under the elastic action of the first spring 426, the first steel wire rope 424 is straightened, the whole filter box 43 can work repeatedly, after a rainy day, when a visitor sits on the swing 53 in a park for rest and entertainment, the swing 53 drives the rotating rod 51 and the support 2 to swing relatively through the connecting frame 52, the side cavity 71 drives the circular gear 73 at one end to rotate, through meshing fit, the circular gear 73 drives the rack 72 to slide up and down along the inside of the side cavity 71, the rack 72 drives the piston 74 to slide up and down along the side cavity 71, at the moment, the piston 74 pushes rainwater at the bottom of the side cavity 71 to form a certain pressure, the baffle 82 is pushed open by overcoming the elasticity of the third spring 85, the rainwater enters the conduit 91, meanwhile, when the piston 74 slides upwards, the baffle 82 can be driven to elastically reset under the matching of the third spring 85 and the telescopic column 84, the rainwater continues to flow into the bottom of the side cavity 71 through the water inlet 75, the bottom of the side cavity 71 and the piston 74 are effectively ensured to form a sealed pressure action, the rainwater flows to the end part along the conduit 91 under the continuous compression action of the piston 74, the rainwater can be pressed to push the water blocking blade 92 to rotate, the transmission shaft 94 is driven to rotate through the transmission action of the bevel gear set 93, the transmission shaft 94 can drive the spray head 95 to rotate through the transmission action of the transmission gear set 96, and the rainwater is uniformly sprayed out through the rotation of the spray head 95 after being pressurized, so as to achieve the irrigation effect, and meanwhile, after the entertainment of tourists or emergency occurs, pulling pull rod 65 passes through second wire rope 64 and drives and insert post 61 and move to the inboard, and the second spring 63 elasticity is held up power this moment, inserts post 61 and drives friction block 62 and move to one side, and friction block 62 will hug closely and form the friction in the tip of bull stick 51 and stop in order to help swing 53, treats that swing 53 stops the back, and the pull rod 65 that becomes flexible again can promote to insert post 61 and slide and reset so that swing 53's normal swing under the effect of second spring 63.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (7)

1. An landscaping irrigation device that incorporates a swing, comprising: base (1), support (2) and storage water tank (3), the upper surface symmetry fixed mounting support (2) of base (1), one side that the upper surface of base (1) is located support (2) is equipped with storage water tank (3) that can store the rainwater, its characterized in that, the top of support (2) is equipped with can filter the water-collecting device (4) of collecting with the rainwater, the upper end fixed surface of support (2) installs water-collecting box (41), water-collecting box (41) inside is equipped with can promote the edulcoration structure (42) of cleaning with the withered branch leaf, the side surface that water-collecting box (41) are close to storage water tank (3) is equipped with can be with the filterable filter box (43) of impurity in the rainwater, it is equipped with swing structure (5) that can reciprocate to swing to lie in water-collecting device (4) below position between support (2), it rotates installation bull stick (51) to lie in water-collecting device (4) below position between support (2), the surface of the rotating rod (51) is symmetrically and fixedly provided with a connecting frame (52), the end part of the connecting frame (52) is fixedly provided with a swing (53), the inside of one side, away from the filter box (43), of the rotating rod (51) is provided with a braking structure (6) capable of helping the swing (53) to stop in an emergency mode, a pressurizing structure (7) capable of being matched with the rotating rod (51) to realize swinging pressurization is arranged at the position, below the pressurizing structure (7), inside the support (2), is provided with a one-way valve structure (8) capable of being opened and closed intermittently, and one side of the water storage tank (3) is provided with a self-rotating structure (9) capable of being matched with the one-way valve structure (8);

the utility model discloses a water collecting box, including water catch bowl (41), apopore (412), water catch bowl (413) and guiding hole (414), water catch bowl (41) top is seted up out basin (411), apopore (412) are seted up to water catch bowl (411) upper surface one side, and apopore (412) intercommunication water catch bowl (41) outside, water catch bowl (41) top is located water catch bowl (411) one side and sets up water catch bowl (413), and water catch bowl (413) degree of depth is less than water catch bowl (411), water catch bowl (413) inside keeps away from apopore (412) one side and opens guiding hole (414).

2. A landscaping irrigation device combined with a swing as claimed in claim 1, wherein the cleaning structure (42) comprises a first motor (421), a first guide wheel (422), a through cavity (423), a first steel cable (424), a guide post (425), a first spring (426) and a scraper (427), the first motor (421) is fixedly installed inside the side wall of the water collection box (41) far away from the water collection tank (413), the first guide wheel (422) is fixedly installed at the output end of the first motor (421), the through cavity (423) is opened inside the side wall of the water collection box (41), the guide post (425) is symmetrically and slidably installed inside the through cavity (423), the guide post (425) is elastically connected with the side wall of the through cavity (423) through the first spring (426), the scraper (427) is fixedly installed above the water collection tank (413) between the guide posts (425), and the scraper (427) is in contact and press fit with the upper surface of the water collection tank (413), the surface of the first guide wheel (422) is wound with a first steel wire rope (424), and the first steel wire rope (424) symmetrically winds around the guide wheel and then is fixedly connected with the side surface of the guide post (425).

3. A landscaping irrigation device combined with a swing as claimed in claim 1, wherein the filter box (43) comprises an inner hole (431), a release shaft (432), a filter screen (433), a second motor (434) and a winding shaft (435), the inner hole (431) is formed in the filter box (43), the inner hole (431) is communicated with the water guide hole (414), the release shaft (432) is rotatably mounted inside the filter box (43) at one side of the inner hole (431), the filter screen (433) is wound and sleeved on the surface of the release shaft (432), the second motor (434) is fixedly mounted inside the filter box (43) at one side far away from the release shaft (432), the winding shaft (435) is fixedly mounted at the output end of the second motor (434), and the filter screen (433) passes through the inner hole (431) and is fixedly connected with the surface of the winding shaft (435).

4. A landscaping irrigation device with a swing in combination as claimed in claim 1, the braking structure (6) comprises an inserting column (61), a friction block (62), a second spring (63), a second steel wire rope (64) and a pull rod (65), the side of the interior of the rotating rod (51) far away from the filter box (43) is inserted with an inserting column (61) in a sliding way, the end part of the inserted column (61) rises to the inside of the bracket (2), and the inserted column (61) is elastically connected with the inner wall of the rotating rod (51) through a second spring (63), the end part of the inserted column (61) is positioned in the bracket (2) and is fixedly provided with a friction block (62), the friction block (62) is in friction fit with the end part of the rotating rod (51) in an extrusion way, a pull rod (65) is arranged below the rotating rod (51), and the end part of the pull rod (65) is fixedly connected with the side surface of the insert column (61) through a second steel wire rope (64).

5. A landscaping irrigation device combined with a swing as claimed in claim 4, wherein the pressurizing structure (7) comprises a side cavity (71), a rack (72), a circular gear (73), a piston (74) and a water inlet hole (75), the end position of the bracket (2) located at one side of the rotating rod (51) far away from the friction block (62) is provided with the side cavity (71), the inside of the side cavity (71) close to the end position of the rotating rod (51) is provided with the rack (72), the end of the rotating rod (51) is located inside the side cavity (71) and fixedly provided with the circular gear (73), the circular gear (73) is meshed with the rack (72) for transmission fit, the lower end of the rack (72) is located inside the side cavity (71) and fixedly provided with the piston (74), the piston (74) is in sliding extrusion fit with the inner wall of the side cavity (71), the side wall of the side cavity (71) close to the bottom position of the side cavity (71) is provided with the water inlet hole (75), and the water inlet hole (75) is communicated and connected with the water storage tank (3).

6. A landscaping irrigation device with a swing as claimed in claim 5, wherein the check valve structure (8) comprises an inner cavity (81), a baffle (82), an upper hole (83), a telescopic column (84), a third spring (85) and a flow port (86), the bottom wall of the side cavity (71) is provided with the flow port (86), the inner cavity (81) is arranged at the position below the side cavity (71) inside the bracket (2), the inner cavity (81) is communicated and connected with the side cavity (71) through the flow port (86), the upper wall of the inner cavity (81) is symmetrically provided with the upper hole (83) at two sides of the flow port (86), the upper walls of the upper holes (83) are fixedly provided with the telescopic column (84), the lower surface of the telescopic column (84) is arranged at the position inside the inner cavity (81) and fixedly provided with the baffle (82), the baffle (82) is structurally matched with the flow port (86), the outer surface of the telescopic column (84) is arranged between the upper wall of the upper hole (83) and the upper surface of the baffle (82) and the third spring (86) is elastically sleeved with the baffle (82) (85).

7. A landscaping irrigation device with a swing as claimed in claim 6, the self-rotating structure (9) comprises a guide pipe (91), a water retaining blade (92), a helical gear set (93), a transmission shaft (94), a spray head (95) and a transmission gear set (96), one side of the water storage tank (3) is provided with the guide pipe (91), and the conduit (91) is communicated and connected with the inner cavity (81), a water blocking blade (92) is rotatably arranged between the inner walls of the end parts of the conduit (91), a nozzle (95) is rotatably arranged at the port part of the guide pipe (91), a transmission shaft (94) is rotatably arranged at the position of the side wall of the guide pipe (91) between the nozzle (95) and the water blocking blade (92), and the water retaining vane (92) is in transmission connection with the transmission shaft (94) through a bevel gear set (93), and the nozzle (95) is in transmission connection with the end part of the transmission shaft (94) through a transmission gear set (96).

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