A kind of environmental protection greening frame
Technical field
The present invention relates to a kind of greening frames, are in particular a kind of environmentally friendly greening frames.
Background technique
Such as a kind of dimensional greening frame assembly of publication number CN205648484U, it is related to afforestation, it is green for solving space
Change the low problem of utilization rate.It includes greening frame pedestal, the support rod on greening frame base center axis, catch basin, greening
Frame containing structure, the support rod lower end connect greening frame pedestal, and the upper end connects catch basin, and the rooved face connection of catchmenting is green
Change frame containing structure, the greening frame containing structure includes the first greening body panel, and the above the first greening body panel
Two greening body panels, the third above the second greening body panel afforest body panel;The shortcomings that utility model is cannot root
According to the height of use demand adjustment greening frame, automatic irrigation can not achieve.
Summary of the invention
The object of the present invention is to provide a kind of environmentally friendly greening frames, can adjust greening frame according to different use requirements
Highly, automatic irrigation may be implemented.
The purpose of the present invention is achieved through the following technical solutions:
A kind of environmental protection greening frame, including support frame, supporting plate mechanism I, supporting plate mechanism II, power mechanism and irrigation mechanism, institute
Stating support frame includes collecting box, support leg I, support leg II, support leg III, W clamping block, sliding cylinder, connecting plate, feedback board and anti-
Slide post is presented, support leg I is fixedly connected at left and right sides of collecting box, has been respectively fixedly connected with branch at left and right sides of collecting box
Support foot II and support leg III are fixedly connected with W clamping block in support leg III, are fixedly connected in support leg III and support leg II
Sliding cylinder, the upper end of support leg III are fixedly connected there are two connecting plate, and feedback board is slidably connected in collecting box, under feedback board
End is fixedly connected with feedback slide post, and feedback slide post is slidably connected on collecting box, feeds back and is set with compression bullet on slide post
Spring I, compressed spring I is between collecting box and feedback board;
The supporting plate mechanism I includes supporting plate I, slide post, threaded rod I, threaded rod II and lifting handle, is arranged on supporting plate I
There are multiple filter hole I, the rear and front end of supporting plate I is fixedly connected to slide post, and two slide posts are slidably connected at two respectively
In sliding cylinder, the left end of supporting plate I has been connected through a screw thread threaded rod I, and the right end interval of supporting plate I is combined with threaded rod II, screw thread
Lifting handle is fixedly connected on bar I and threaded rod II;
The supporting plate mechanism II includes supporting plate II and water flow baffle II, is provided with multiple filter hole II, supporting plate on supporting plate II
II lower end is fixedly connected with water flow baffle II, and for one end clearance fit of supporting plate II on threaded rod I, the other end of supporting plate II is logical
It crosses and is threaded on threaded rod II;
The power mechanism includes motor, line shaft, friction pulley I, friction pulley II, shift fork, power slide post, triangle card
Block, pushes connecting rod and connecting key II, motor to be fixedly connected in support leg II at power belt wheel, one end rotation connection of line shaft
On the output shaft of motor, the other end of line shaft is rotatably connected on connecting plate, is fixedly connected with and is rubbed on the output shaft of motor
Wheel I is wiped, is fixedly connected with connecting key II on line shaft, friction pulley II, friction pulley II and friction are slidably connected on connecting key II
I frictional drive is taken turns, shift fork is rotatably connected on friction pulley II, dynamic slide post is fixedly connected on shift fork, power slide post is sliding
It is dynamic to be connected on connecting plate, triangle card is slidably connected on power slide post, triangle card is connected on W clamping block, triangle
Compressed spring II is set on fixture block, compressed spring II is fixed on line shaft to connect between power slide post and triangle card
It is connected to power belt wheel, pushes the upper end of connecting rod to be hinged on the lower end of feedback slide post, the lower end of connecting rod is pushed to be hinged on shift fork;
The irrigation mechanism include irrigate cylinder, enter water drum, impeller-hub, push hang plate, push belt wheel, irrigate slide post,
Spring stop irrigates sliding panel I, irrigates that sliding panel II, taper are fast I, unidirectional slide post I, irrigate fixed plate I, irrigate fixed plate
II, taper fast II and unidirectional slide post II, irrigate cylinder and are fixedly connected between two connecting plates, the upper end for irrigating cylinder is fixed and connected
It is connected with into water drum, one end of impeller-hub, which is rotatably connected on, to be irrigated on cylinder, and the other end of impeller-hub is fixedly connected with promotion belt wheel, pushes away
Movable belt pulley is connected with power belt wheel by V belt translation, and promotion hang plate is fixedly connected on power belt wheel, irrigates slide post sliding
It is connected to and irrigates on cylinder, irrigate on slide post and be fixedly connected with spring stop, irrigate on slide post and be set with compressed spring III, press
Contracting spring III, which is located at, irrigates between cylinder and spring stop, and the one end for irrigating slide post withstands on the eccentric position for pushing hang plate, fills
The other end for irrigating slide post, which is fixedly connected with, irrigates sliding panel II, irrigates on slide post to be fixedly connected with and irrigates sliding panel I, irrigates
Sliding panel II and irrigation sliding panel I are slidably connected at and irrigate in cylinder, irrigate on sliding panel I and are provided with bellmouth I, irrigate sliding
It is provided with water hole I on plate II, irrigates on sliding panel II and slidably connects unidirectional slide post I, be fixedly connected on unidirectional slide post I
There is taper fast I, taper fast I is withstood in the bellmouth I irrigated and be arranged on sliding panel I, is set with compressed spring on unidirectional slide post I
IV, compressed spring IV, which is located at, irrigates between sliding panel II and taper fast I, enters to be fixedly connected in water drum and irrigates fixed plate I and fill
Fixed plate II is irrigate, irrigates in fixed plate I and is provided with bellmouth II, irrigates in fixed plate II and is provided with water hole II, irrigates and fixes
Unidirectional slide post II is slidably connected on plate II, taper fast II is fixedly connected on unidirectional slide post II, and taper fast II withstands on filling
It irrigates in the bellmouth II being arranged in fixed plate I, compressed spring V is fixedly connected on unidirectional slide post II, compressed spring V is located at
It irrigates between fixed plate II and taper fast II.
As advanced optimizing for the technical program, a kind of environmentally friendly greening frame of the present invention, support frame as described above further includes vertical
Waist hole, vertical waist hole are arranged in support leg II.
As advanced optimizing for the technical program, a kind of environmentally friendly greening frame of the present invention, the supporting plate mechanism I;Further include
The lower end of lifting belt wheel, connecting key I and water flow baffle I, threaded rod I and threaded rod II is fixedly connected to connecting key I, threaded rod
I and the lower end of threaded rod II be rotatably connected to lifting belt wheel, two lifting belt wheels are connected each other by V belt translation, supporting plate I
Lower end is fixedly connected with water flow baffle I.
As advanced optimizing for the technical program, a kind of environmentally friendly greening frame of the present invention, the irrigation mechanism further includes filling
Bushing is irrigate, irrigates on bushing and is provided with multiple apopores, bushing is irrigated and is fixedly connected on irrigation cylinder.
As advanced optimizing for the technical program, a kind of environmentally friendly greening frame of the present invention, the taper fast I and taper fast II
Structure it is identical, the diameter of fast I rear end of taper is less than the diameter of fast I front end of taper, and the diameter of fast II upper end of taper is less than taper
The diameter of fast II lower end.
As advanced optimizing for the technical program, a kind of environmentally friendly greening frame of the present invention, the environmental protection greening frame further includes
Linkage mechanism, linkage mechanism includes linkage board I, linkage board II, the friction pulley that links, link screw rod and the plate that is connected, linkage board I
One end be fixedly connected with linkage board II, the other end of linkage board I has been connected through a screw thread linkage screw rod, and linkage board I passes through perpendicular
The lower end of straight waist hole, the screw rod that links is rotatably connected to the plate that is connected, and the plate that is connected is fixedly connected in support leg II, linkage
The both ends of plate II are rotatably connected to linkage friction pulley, and two linkage friction pulleys are slidably connected at respectively on two connecting keys I.
As advanced optimizing for the technical program, a kind of environmentally friendly greening frame of the present invention, the area of the supporting plate I is greater than support
The area of plate II.
A kind of environmentally friendly greening frame of the present invention has the beneficial effect that
A kind of environmentally friendly greening frame of the present invention, green plants can be placed on supporting plate I and supporting plate II and be cultivated, passed through
It rotates threaded rod I and threaded rod II and makes supporting plate I and supporting plate II can be adapted for difference to adjust the height of supporting plate I and supporting plate II
Different height under use demand can realize the adjustment together of supporting plate I and II height of supporting plate by linkage mechanism and adjust respectively
Whole increase service efficiency, is controlled by the feedback board in collecting box and falls in water in collecting box by supporting plate I and supporting plate II
How much, when the water in collecting box is more, compressed spring I is squeezed come so that the power on power mechanism can not by feedback board
It is transmitted to irrigation mechanism do not irrigated, be prevented while energy saving excessive to plant watering on supporting plate I and supporting plate II.
Detailed description of the invention
The present invention will be further described in detail with specific implementation method with reference to the accompanying drawing.
Fig. 1 is environmentally friendly greening frame overall structure diagram of the invention;
Fig. 2 is environmentally friendly greening frame section view figure structure schematic representation of the invention;
Fig. 3 is support frame structure diagram of the invention;
Fig. 4 is support frame section view figure structure schematic representation of the invention;
Fig. 5 is I structural schematic diagram of supporting plate mechanism of the invention;
Fig. 6 is I section view figure structure schematic representation of supporting plate mechanism of the invention;
Fig. 7 is II structural schematic diagram of supporting plate mechanism of the invention;
Fig. 8 is II section view figure structure schematic representation of supporting plate mechanism of the invention;
Fig. 9 is power mechanism structural schematic diagram of the invention;
Figure 10 is power mechanism section view figure structure schematic representation of the invention;
Figure 11 is irrigation mechanism structural schematic diagram one of the invention;
Figure 12 is irrigation mechanism section view figure structure schematic representation of the invention;
Figure 13 is irrigation mechanism structural schematic diagram two of the invention;
Figure 14 is linkage mechanism structural schematic diagram of the invention.
In figure: support frame 1;Collecting box 1-1;I 1-2 of support leg;II 1-3 of support leg;Vertical waist hole 1-4;III 1- of support leg
5;W clamping block 1-6;Sliding cylinder 1-7;Connecting plate 1-8;Feedback board 1-9;Feed back slide post 1-10;Supporting plate mechanism I 2;I 2- of supporting plate
1;Slide post 2-2;I 2-3 of threaded rod;II 2-4 of threaded rod;Lifting handle 2-5;Go up and down belt wheel 2-6;I 2-7 of connecting key;Water flow gear
I 2-8 of plate;Supporting plate mechanism II 3;II 3-1 of supporting plate;II 3-2 of water flow baffle;Power mechanism 4;Motor 4-1;Line shaft 4-2;Friction pulley
Ⅰ4-3;II 4-4 of friction pulley;Shift fork 4-5;Power slide post 4-6;Triangle card 4-7;Power belt wheel 4-8;Push connecting rod 4-9;Even
Meet II 4-10 of key;Irrigation mechanism 5;Irrigate cylinder 5-1;Enter water drum 5-2;Impeller-hub 5-3;Push hang plate 5-4;Push belt wheel 5-5;
Irrigate slide post 5-6;Spring stop 5-7;Irrigate I 5-8 of sliding panel;Irrigate II 5-9 of sliding panel;Fast I 5-10 of taper;Unidirectional sliding
I 5-11 of column;Irrigate I 5-12 of fixed plate;Irrigate II 5-13 of fixed plate;Fast II 5-14 of taper;II 5-15 of unidirectional slide post;Irrigate leakage
Plate 5-16;Linkage mechanism 6;I 6-1 of linkage board;II 6-2 of linkage board;Link friction pulley 6-3;Link screw rod 6-4;Be connected plate
6-5。
Specific embodiment
The present invention is described in further detail below in conjunction with the accompanying drawings.
Before illustrating specific embodiment, to avoid repeating language, illustrating " being fixedly connected " as described below can be with
It is: is bolted, welds and the modes such as rivet interlacement are fixed, those skilled in the art can be according to different applications
Scene selects the different modes that is fixedly connected, and main purpose is that two pieces part is fixed.
Specific embodiment 1:
Illustrate present embodiment, a kind of environmental protection greening frame, including support frame 1, supporting plate mechanism I 2, support below with reference to Fig. 1-14
Green plants can be placed on II 3-1 of I 2-1 of supporting plate and supporting plate and carry out by trigger structure II 3, power mechanism 4 and irrigation mechanism 5
It cultivates, supporting plate I and supporting plate is made to adjust the height of supporting plate I and supporting plate II by rotation I 2-3 of threaded rod and II 2-4 of threaded rod
II can be adapted for the different height under different use demands, can realize I 2-1 of supporting plate and II 3-1 of supporting plate by linkage mechanism 6
The adjustment together of height and increase service efficiency is adjusted separately, is controlled by the feedback board in collecting box 1-1 through I 2- of supporting plate
1 and II 3-1 of supporting plate falls in the number of water in collecting box 1-1, when the water in collecting box 1-1 is more, passes through feedback board 1-9
Compressed spring I is squeezed to come so that the power on power mechanism 4 can not be transmitted to irrigation mechanism 5 is not being irrigated, it is energy saving
While prevent it is excessive to plant watering on II 3-1 of I 2-1 of supporting plate and supporting plate.
Support frame as described above 1 includes collecting box 1-1, I 1-2 of support leg, II 1-3 of support leg, III 1-5, W clamping block 1- of support leg
6, it is fixedly connected at left and right sides of sliding cylinder 1-7, connecting plate 1-8, feedback board 1-9 and feedback slide post 1-10, collecting box 1-1
There is I 1-2 of support leg, III 1-5 of II 1-3 of support leg and support leg, support leg have been respectively fixedly connected at left and right sides of collecting box 1-1
It is fixedly connected with W clamping block 1-6 on III 1-5, is fixedly connected to sliding cylinder 1-7 on II 1-3 of III 1-5 of support leg and support leg,
The upper end of III 1-5 of support leg is fixedly connected there are two connecting plate 1-8, and feedback board 1-9 is slidably connected in collecting box 1-1, is fed back
The lower end of plate 1-9 is fixedly connected with feedback slide post 1-10, and feedback slide post 1-10 is slidably connected on collecting box 1-1, feeds back
Compressed spring I is set on slide post 1-10, compressed spring I is between collecting box 1-1 and feedback board 1-9;
The supporting plate mechanism I 2 includes I 2-1 of supporting plate, slide post 2-2, I 2-3 of threaded rod, II 2-4 of threaded rod and lifting handle
It is provided with multiple filter hole I on 2-5, I 2-1 of supporting plate, the rear and front end of I 2-1 of supporting plate is fixedly connected to slide post 2-2, and two
Slide post 2-2 is slidably connected at respectively in two sliding cylinder 1-7, and the left end of I 2-1 of supporting plate has been connected through a screw thread I 2- of threaded rod
The right end interval of 3, I 2-1 of supporting plate are combined with II 2-4 of threaded rod, are fixedly connected to liter on II 2-4 of I 2-3 of threaded rod and threaded rod
Handle 2-5 drops;
The supporting plate mechanism II 3 includes II 3-2 of II 3-1 of supporting plate and water flow baffle, is provided with multiple filterings on II 3-1 of supporting plate
Hole II, the lower end of II 3-1 of supporting plate are fixedly connected with II 3-2 of water flow baffle, and one end clearance fit of II 3-1 of supporting plate is in threaded rod I
On 2-3, the other end of II 3-1 of supporting plate is threadedly attached on II 2-4 of threaded rod;
The power mechanism 4 includes motor 4-1, line shaft 4-2, I 4-3 of friction pulley, II 4-4 of friction pulley, shift fork 4-5, moves
Power slide post 4-6, triangle card 4-7, power belt wheel 4-8, II 4-10 of connecting rod 4-9 and connecting key, motor 4-1 is pushed to be fixedly connected
On II 1-3 of support leg, one end of line shaft 4-2 is rotatably connected on the output shaft of motor 4-1, the other end of line shaft 4-2
It is rotatably connected on connecting plate 1-8, I 4-3 of friction pulley, fixed company on line shaft 4-2 is fixedly connected on the output shaft of motor 4-1
It is connected to II 4-10 of connecting key, II 4-4 of friction pulley, I 4-3 of II 4-4 of friction pulley and friction pulley are slidably connected on II 4-10 of connecting key
Frictional drive is rotatably connected to shift fork 4-5 on II 4-4 of friction pulley, dynamic slide post 4-6, power is fixedly connected on shift fork 4-5
Slide post 4-6 is slidably connected on connecting plate 1-8, slidably connects triangle card 4-7, triangle card on power slide post 4-6
4-7 is connected on W clamping block 1-6, and compressed spring II is set on triangle card 4-7, and compressed spring II is located at power slide post
Between 4-6 and triangle card 4-7, it is fixedly connected with power belt wheel 4-8 on line shaft 4-2, the upper end of connecting rod 4-9 is pushed to be hinged on
The lower end of slide post 1-10 is fed back, the lower end of connecting rod 4-9 is pushed to be hinged on shift fork 4-5;
The irrigation mechanism 5 includes irrigating cylinder 5-1, entering water drum 5-2, impeller-hub 5-3, push hang plate 5-4, push belt wheel
5-5, slide post 5-6, spring stop 5-7 are irrigated, I 5-8 of sliding panel is irrigated, irrigates II 5-9 of sliding panel, is fast I 5-10 of taper, unidirectional
I 5-11 of slide post, it irrigates I 5-12 of fixed plate, irrigate II 5-13 of fixed plate, taper fast II 5-14 and II 5-15 of unidirectional slide post,
It irrigates cylinder 5-1 to be fixedly connected between two connecting plate 1-8, the upper end for irrigating cylinder 5-1 is fixed and is communicated with into water drum 5-2, pushes away
One end of moving axis 5-3, which is rotatably connected on, to be irrigated on cylinder 5-1, and the other end of impeller-hub 5-3, which is fixedly connected with, pushes belt wheel 5-5, is pushed away
Movable belt pulley 5-5 is connected with power belt wheel 4-8 by V belt translation, is fixedly connected on power belt wheel 4-8 and is pushed hang plate 5-4, is filled
It irrigates slide post 5-6 to be slidably connected on irrigation cylinder 5-1, irrigates on slide post 5-6 and be fixedly connected with spring stop 5-7, irrigate and slide
Compressed spring III is set on dynamic column 5-6, compressed spring III, which is located at, irrigates between cylinder 5-1 and spring stop 5-7, irrigates slide post
One end of 5-6 withstands on the eccentric position for pushing hang plate 5-4, and the other end for irrigating slide post 5-6 is fixedly connected with irrigation sliding
II 5-9 of plate is irrigated on slide post 5-6 to be fixedly connected with and is irrigated I 5-8 of sliding panel, is irrigated II 5-9 of sliding panel and is irrigated sliding panel I
5-8, which is slidably connected at, to irrigate in cylinder 5-1, irrigates on I 5-8 of sliding panel and is provided with bellmouth I, irrigates on II 5-9 of sliding panel and set
It is equipped with water hole I, irrigates on II 5-9 of sliding panel and slidably connects unidirectional I 5-11 of slide post, it is fixed on unidirectional I 5-11 of slide post
It is connected with fast I 5-10 of taper, fast I 5-10 of taper is withstood in the bellmouth I irrigated and be arranged on I 5-8 of sliding panel, unidirectional slide post I
Compressed spring IV is set on 5-11, compressed spring IV, which is located at, irrigates between II 5-9 of sliding panel and fast I 5-10 of taper, enters water drum
It is fixedly connected in 5-2 and irrigates I 5-12 of fixed plate and irrigate II 5-13 of fixed plate, irrigated on I 5-12 of fixed plate and be provided with taper
Hole II is irrigated on II 5-13 of fixed plate and is provided with water hole II, irrigates on II 5-13 of fixed plate and slidably connects unidirectional slide post
Fast II 5-14 of taper is fixedly connected on II 5-15, unidirectional II 5-15 of slide post, fast II 5-14 of taper, which is withstood on, irrigates I 5- of fixed plate
In the bellmouth II being arranged on 12, compressed spring V is fixedly connected on unidirectional II 5-15 of slide post, compressed spring V, which is located at, to be filled
It irrigates between II 5-13 of fixed plate and fast II 5-14 of taper;The plant that greening will be cultivated when use is placed on I 2-1 of supporting plate and supporting plate
On II 3-1, water inlet pipe excuse is connected on water drum 5-2, when the level height for needing to adjust II 3-1 of I 2-1 of supporting plate and supporting plate
When, the adjustment of II 3-1 level height of I 2-1 of supporting plate and supporting plate is conducive to the plant that greening is carried on II 3-1 of I 2-1 of supporting plate and supporting plate
Object is also beneficial to so that the different illumination of the plant absorption of the greening on I 2-1 of supporting plate and II 3-1 of supporting plate, rotates two respectively and rise
Handle 2-5 drops, so that two lifting handle 2-5 drive corresponding I 2-3 of threaded rod and II 2-4 of threaded rod to be turned respectively
It is dynamic, the adjustment of I 2-1 level height of supporting plate is driven when I 2-3 of threaded rod is rotated by screw thread, II 2-4 of threaded rod passes through spiral shell when rotating
Line drives the adjustment of II 3-1 level height of supporting plate, adds when needing the height to II 3-1 of I 2-1 of supporting plate and supporting plate to carry out adjustment together
When regulating the speed fastly, rotation linkage screw rod 6-4 rotates linkage screw rod 6-4 centered on the axis for the screw rod 6-4 that links,
Linkage screw rod 6-4 drives I 6-1 of linkage board to be slided in vertical waist hole 1-4 by screw thread, the level height of I 6-1 of linkage board
It changes, I 6-1 of linkage board drives the level height of II 6-2 of linkage board to change, and II 6-2 of linkage board drives two linkages
The level height of friction pulley 6-3 changes, and two linkage friction pulley 6-3 are slided on two I 2-7 of connecting key respectively,
Two linkage friction pulley 6-3 are contacted with two lifting belt wheel 2-6 respectively, and two linkage friction pulley 6-3 rise with two respectively
Belt wheel 2-6 frictional drive, when as I 2-3 of threaded rod or II 2-4 of threaded rod, one of them is rotated, I 2-3 of threaded rod or spiral shell drop
II 2-4 of rasp bar can be driven respectively by I 2-7 of connecting key that is arranged thereon and its to linkage friction pulley 6-3 rotate,
Linkage friction pulley 6-3 can drive a lifting belt wheel 2-6 to be rotated respectively, and a lifting belt wheel 2-6 drives another liter
Drop belt wheel 2-6 is rotated, when rotating threaded rod I 2-3 or II 2-4 of threaded rod of side, I 2-3 of threaded rod or spiral shell of the other side
II 2-4 of rasp bar can also be rotated simultaneously, and the level height of II 3-1 of I 2-1 of supporting plate and supporting plate can adjust together, increase by I 2-1 of supporting plate and
The efficiency of II 3-1 height of supporting plate adjustment;Start motor 4-1, the output shaft of motor 4-1 starts turning, the output shaft band of motor 4-1
I 4-3 of dynamic friction wheel is rotated centered on the axis of motor 4-1 output shaft, and compressed spring I, which has, pushes feedback board 1-9 upward
The trend of movement, feedback board 1-9, which will drive, pushes the upper end of connecting rod 4-9 to be moved upwards, pushes the lower end of connecting rod 4-9 can be to
The progress of the side motor 4-1 is close, pushes connecting rod 4-9 that shift fork 4-5 is driven to carry out to the side motor 4-1 close, shift fork 4-5 drives friction pulley
II 4-4 and I 4-3 of friction pulley carries out contact frictional drive, and I 4-3 of friction pulley drives II 4-4 of friction pulley with the axis of line shaft 4-2
Centered on rotated, II 4-4 of friction pulley is driven during line shaft 4-2 with the axis of line shaft 4-2 is by II 4-10 of connecting key
The heart is rotated, and line shaft 4-2 drives power belt wheel 4-8 to be rotated centered on the axis of line shaft 4-2, power belt wheel 4-
8 drive promotion belt wheel 5-5 to be rotated centered on the axis of impeller-hub 5-3, and belt wheel 5-5 is pushed to drive impeller-hub 5-3 to push away
It is rotated centered on the axis of moving axis 5-3, impeller-hub 5-3, which drives, pushes hang plate 5-4 centered on the axis of impeller-hub 5-3
It is rotated, pushes hang plate 5-4 that irrigation slide post 5-6 is pushed to squeeze compressed spring III and slided on irrigating cylinder 5-1, filled
It irrigates slide post 5-6 drive irrigation I 5-8 of sliding panel and irrigates II 5-9 of sliding panel and slided in irrigation cylinder 5-1, when irrigation cunning
I 5-8 of movable plate and II 5-9 of sliding panel is irrigated to when entering the side water drum 5-2 and being slided, fast II 5-14 of taper will irrigate I 5- of fixed plate
The bellmouth being arranged on 12 is blocked, and fast I 5-10 of the taper irrigated on I 5-8 of sliding panel squeezes compressed spring IV and makes fast I 5- of taper
10 no longer withstand on and irrigate on I 5-8 of sliding panel in the bellmouth I that is arranged, and the water of pouring is arranged on I 5-8 of sliding panel by irrigating
Bellmouth I, which is flowed into, irrigates I 5-8 of sliding panel and irrigates between bushing 5-16, as irrigation I 5-8 of sliding panel and irrigates sliding panel II
When 5-9 is to far from entering the side water drum 5-2 and being slided, fast II 5-14 of taper, which squeezes compressed spring V, will not irrigate I 5- of fixed plate
The bellmouth being arranged on 12 is blocked, and taper fast I 5-10 irrigated on I 5-8 of sliding panel, which withstands on to irrigate on I 5-8 of sliding panel, to be arranged
In bellmouth I, the water of pouring, which is pushed to pour from irrigation bushing 5-16 outflow by I 5-8 of irrigation sliding panel, to be filled on II 3-1 of supporting plate, is held in the palm
Water on II 3-1 of plate passes through the filter hole II being arranged thereon and falls on I 2-1 of supporting plate, and water passes through the mistake being arranged on I 2-1 of supporting plate
Filter opening I is fallen in collecting box 1-1, is realized and is poured simultaneously to I 2-1 of supporting plate and II 3-1 of supporting plate, the water in collecting box 1-1
When reaching constant weight, press feedback board 1-9 and slided downwards, feedback board 1-9 drive feedback slide post 1-10 upper end to
Under moved, the lower end of feedback slide post 1-10 drives triangle card 4-7 to change clamping position on W clamping block 1-6, rubs
It wipes wheel I 4-3 and II 4-4 of friction pulley and exits frictional drive, II 4-4 of friction pulley is not being rotated, and irrigation mechanism 5 no longer works and prevents water
Multithread is flowed through to enter.
Specific embodiment 2:
Illustrate present embodiment below with reference to Fig. 1-14, present embodiment is described further embodiment one, described
Support frame 1 further includes vertical waist hole 1-4, and vertical waist hole 1-4 is arranged on II 1-3 of support leg.
Specific embodiment 3:
Illustrate present embodiment below with reference to Fig. 1-14, present embodiment is described further embodiment two, described
Supporting plate mechanism I 2;It further include lifting belt wheel 2-6, II 2-4 of I 2-7 of connecting key and water flow baffle I 2-8, I 2-3 of threaded rod and threaded rod
Lower end be fixedly connected to I 2-7 of connecting key, the lower end of II 2-4 of I 2-3 of threaded rod and threaded rod is rotatably connected to lifting belt
2-6 is taken turns, two lifting belt wheel 2-6 are connected each other by V belt translation, and the lower end of I 2-1 of supporting plate is fixedly connected with I 2-8 of water flow baffle.
Specific embodiment 4:
Illustrate present embodiment below with reference to Fig. 1-14, present embodiment is described further embodiment three, described
Irrigation mechanism 5 further includes irrigating bushing 5-16, irrigates on bushing 5-16 and is provided with multiple apopores, irrigates the fixed company of bushing 5-16
It connects on irrigating cylinder 5-1.
Specific embodiment 5:
Illustrate present embodiment below with reference to Fig. 1-14, present embodiment is described further embodiment four, described
Fast I 5-10 of taper is identical with the structure of fast II 5-14 of taper, and the diameter of the rear end taper fast I 5-10 is less than the front end taper fast I 5-10
Diameter, the diameter of the upper end taper fast II 5-14 is less than the diameter of the lower end taper fast II 5-14.
Specific embodiment 6:
Illustrate present embodiment below with reference to Fig. 1-14, present embodiment is described further embodiment five, described
Environmentally friendly greening frame further includes linkage mechanism 6, linkage mechanism 6 include I 6-1 of linkage board, II 6-2 of linkage board, linkage friction pulley 6-3,
Linkage screw rod 6-4 and the plate 6-5 that is connected, one end of I 6-1 of linkage board are fixedly connected with II 6-2 of linkage board, I 6-1's of linkage board
The other end has been connected through a screw thread linkage screw rod 6-4, and I 6-1 of linkage board passes through vertical waist hole 1-4, and the lower end of linkage screw rod 6-4 turns
Dynamic to be connected with the plate 6-5 that is connected, the plate 6-5 that is connected is fixedly connected on II 1-3 of support leg, the both ends of II 6-2 of linkage board
It is rotatably connected to linkage friction pulley 6-3, two linkage friction pulley 6-3 are slidably connected at respectively on two I 2-7 of connecting key.
Specific embodiment 7:
Illustrate present embodiment below with reference to Fig. 1-14, present embodiment is described further embodiment six, described
The area of I 2-1 of supporting plate is greater than the area of II 3-1 of supporting plate;It can make plant on I 2-1 of supporting plate being located below can also be with
Obtain enough illumination.
A kind of environmentally friendly greening frame of the invention, its working principle is that:
The plant that greening will be cultivated when use is placed on II 3-1 of I 2-1 of supporting plate and supporting plate, and water inlet pipe is made an excuse and is connected
On entering water drum 5-2, when needing to adjust the level height of II 3-1 of I 2-1 of supporting plate and supporting plate, II 3-1 water of I 2-1 of supporting plate and supporting plate
The adjustment of flat height is conducive to the plant that greening is carried on II 3-1 of I 2-1 of supporting plate and supporting plate, is also beneficial to so that I 2-1 of supporting plate
The illumination different with the plant absorption of greening on II 3-1 of supporting plate rotates two lifting handle 2-5 respectively, so that two liftings
Handle 2-5 drives corresponding I 2-3 of threaded rod and II 2-4 of threaded rod to be rotated respectively, and I 2-3 of threaded rod passes through when rotating
Screw thread drives the adjustment of I 2-1 level height of supporting plate, drives II 3-1 level height of supporting plate by screw thread when II 2-4 of threaded rod is rotated
Adjustment, when need to carry out the height of II 3-1 of I 2-1 of supporting plate and supporting plate adjustment is accelerated to regulate the speed together when, rotation linkage silk
Bar 6-4 rotates linkage screw rod 6-4 centered on the axis for the screw rod 6-4 that links, and linkage screw rod 6-4 passes through screw thread and drives
I 6-1 of linkage board is slided in vertical waist hole 1-4, and the level height of I 6-1 of linkage board changes, and I 6-1 of linkage board drives
The level height of II 6-2 of linkage board changes, and II 6-2 of linkage board drives the level height of two linkage friction pulley 6-3 to occur
Variation, two linkage friction pulley 6-3 are slided on two I 2-7 of connecting key respectively, two linkage friction pulley 6-3 respectively with
Two lifting belt wheel 2-6 are contacted, and two linkage friction pulley 6-3 with two lifting belt wheel 2-6 frictional drives, work as screw thread respectively
I 2-3 of bar or II 2-4 of threaded rod one of them when being rotated, I 2-3 of threaded rod or II 2-4 of threaded rod can be respectively by thereon
I 2-7 of connecting key of setting drive and its to linkage friction pulley 6-3 rotate, linkage friction pulley 6-3 can drive respectively
One lifting belt wheel 2-6 is rotated, and a lifting belt wheel 2-6 drives another lifting belt wheel 2-6 to be rotated, and rotates side
Threaded rod I 2-3 or II 2-4 of threaded rod when, I 2-3 of threaded rod or II 2-4 of threaded rod of the other side can also be rotated simultaneously, supporting plate I
The level height of II 3-1 of 2-1 and supporting plate can adjust together, increase by the efficiency of I 2-1 of supporting plate and the adjustment of II 3-1 height of supporting plate;Starting
The output shaft of motor 4-1, motor 4-1 start turning, and the output shaft of motor 4-1 drives I 4-3 of friction pulley with motor 4-1 output shaft
Axis centered on rotated, compressed spring I have the tendency that push feedback board 1-9 move upwards, feedback board 1-9, which will drive, to be pushed away
The upper end of dynamic connecting rod 4-9 is moved upwards, is pushed the lower end of connecting rod 4-9 that can carry out to the side motor 4-1 close, is pushed connecting rod 4-
9 drive shift fork 4-5 close to the progress of the side motor 4-1, and shift fork 4-5 drives II 4-4 of friction pulley and I 4-3 of friction pulley to carry out contact and rubs
Transmission is wiped, I 4-3 of friction pulley drives II 4-4 of friction pulley to be rotated centered on the axis of line shaft 4-2, and II 4-4 of friction pulley is logical
Crossing II 4-10 of connecting key drives line shaft 4-2 to be rotated centered on the axis of line shaft 4-2, and line shaft 4-2 drives power
Belt wheel 4-8 is rotated centered on the axis of line shaft 4-2, and power belt wheel 4-8, which drives, pushes belt wheel 5-5 with impeller-hub 5-3
Axis centered on rotated, push belt wheel 5-5 drive impeller-hub 5-3 rotated centered on the axis of impeller-hub 5-3,
Impeller-hub 5-3, which drives, pushes hang plate 5-4 to be rotated centered on the axis of impeller-hub 5-3, pushes hang plate 5-4 to push and fills
It irrigates slide post 5-6 extruding compressed spring III to be slided on irrigating cylinder 5-1, irrigates slide post 5-6 and drive irrigation I 5- of sliding panel
It 8 and irrigates II 5-9 of sliding panel and is slided irrigating in cylinder 5-1, when irrigating I 5-8 of sliding panel and irrigate II 5-9 of sliding panel to entering
When water drum 5-2 is slided side, fast II 5-14 of taper is blocked the bellmouth being arranged on I 5-12 of fixed plate is irrigated, and irrigates sliding
Fast I 5-10 of taper on I 5-8 of plate squeezes compressed spring IV and fast I 5-10 of taper is made no longer to withstand on to irrigate on I 5-8 of sliding panel and set
In the bellmouth I set, the water of pouring by irrigate the bellmouth I being arranged on I 5-8 of sliding panel be flowed into irrigate I 5-8 of sliding panel and
Irrigate bushing 5-16 between, when irrigate I 5-8 of sliding panel and irrigate II 5-9 of sliding panel to far from enter the side water drum 5-2 slided
When, fast II 5-14 of taper squeezes compressed spring V and does not block will irrigate the bellmouth being arranged on I 5-12 of fixed plate, irrigates sliding
Fast I 5-10 of taper on I 5-8 of plate is withstood in the bellmouth I irrigated and be arranged on I 5-8 of sliding panel, and the water of pouring is by irrigation sliding panel
I 5-8 is pushed to pour from irrigation bushing 5-16 outflow and is filled on II 3-1 of supporting plate, and the water on II 3-1 of supporting plate passes through the filtering being arranged thereon
Hole II is fallen on I 2-1 of supporting plate, and water is fallen in collecting box 1-1 by the filter hole I being arranged on I 2-1 of supporting plate, is realized simultaneously
I 2-1 of supporting plate and II 3-1 of supporting plate are poured, when the water in collecting box 1-1 reaches constant weight, it is downward to press feedback board 1-9
It is slided, feedback board 1-9 drives the upper end of feedback slide post 1-10 to be moved downwards, feeds back the lower end band of slide post 1-10
Dynamic triangle card 4-7 changes the clamping position on W clamping block 1-6, and I 4-3 of friction pulley and II 4-4 of friction pulley exit friction and pass
Dynamic, II 4-4 of friction pulley is not being rotated, and irrigation mechanism 5 no longer works and prevents water flow from excessively flowing into.
Certainly, above description is not limitation of the present invention, and the present invention is also not limited to the example above, the art
The variations, modifications, additions or substitutions that those of ordinary skill is made within the essential scope of the present invention also belong to guarantor of the invention
Protect range.