A kind of municipal administration gardens environmental protection watering system
Technical field
The present invention relates to municipal field of garden technology, in particular to a kind of municipal gardens environmental protection watering system.
Background technique
In municipal gardens, ornamental plant plantation is in vital status.
In order to improve the utilization rate of rainwater, upper plant flowerpot, when rainwater falls, rainwater can be placed on the bracket of gardens
It can fall directly into plant flowerpot, to promote the overall utilization rate of rainwater.
But it is planted in actual use also, it can be seen that plant in flowerpot is acted on by the direct beating of rainwater
The pistil of object either blade will receive relatively large impact force, produce serious influence to plant life.
Summary of the invention
In view of the deficiencies of the prior art, the present invention intends to provide a kind of municipal gardens environmental protection watering system,
It is under rainy day environment, while capable of being irrigated using rainwater the plant in flowerpot, moreover it is possible to be greatly reduced in flowerpot
The probability that plant is damaged.
Above-mentioned technical purpose of the invention has the technical scheme that a kind of municipal gardens environmental protection is poured
Water system, the bracket including being installed on ground, the bracket are equipped with water storage tank, the flowerpot installation for installing plant flowerpot
Position, the water storage tank is located at the upper end of bracket, and water storage tank is blocked in the surface of flowerpot installation position;
The slot bottom of the water storage tank, which runs through, is equipped with apopore;
It further include having watering device, the watering device includes watering frame, driving portion, watering portion, and the watering frame slides vertically
It is connected to bracket and is used to catch the water flowed out in apopore, the driving portion is for driving watering frame to carry out vertically up and down reciprocatingly
Mobile, the watering portion is located in watering frame, and the watering portion is used to the water sprinkled water in frame being spilled into flowerpot installation position.
Through the above technical solutions, rainwater can drop into water storage tank, rainwater can be flowed into watering frame from apopore and work as
In, driving portion can drive watering frame to move up and down, and the water sprinkled water in frame can be then spilled into flowerpot by watering portion;It is above-mentioned
In action process, on the one hand, since water storage tank is located at the surface of flowerpot installation position, rainwater can fall directly into water storage tank and work as
In, without generating direct effect of impact with the plant on flowerpot installation position;On the other hand, rainwater can be carried out first by water storage tank
Secondary collection, the rainwater after collecting enter back into watering frame, and rainwater is finally spilled into flowerpot installation position by watering portion again
On, water flow is relatively soft, and more uniform, and flowerpot installation position can relatively evenly be moistened, and plant growing way is preferable.
Preferably, the flowerpot installation position is equipped with several, and several flowerpot installation positions are divided into two column, two column flowerpot installation positions
It is located at the two sides of watering frame or more slip locations.
Through the above technical solutions, space utilization rate is high firstly, taking full advantage of the vertical structure of bracket;Secondly, spilling
During water frame moves up and down, uniform sprinkling can be carried out to the plant on two column flowerpot installation positions, sprinkled water high-efficient and uniform.
Preferably, the watering portion includes watering motor, sprinkling disk, interlocking bar, and watering motor is installed on the outer of watering frame
Side wall, sprinkling disk are located in watering circle and are connected on the motor shaft of watering motor, vertical on the inside casing wall of the watering frame
Sliding is connected with slipping block, and described interlocking bar one end is articulated with slipping block, and other end bias is articulated in the disk of sprinkling disk,
The slipping block is equipped with inclined plate, and the water energy sprinkled water in frame is flowed at flowerpot installation position by inclined plate.
Through the above technical solutions, watering motor operates and then drives sprinkling disk during frame of sprinkling water moves up and down
It is circumferentially rotated, sprinkling disk circumferentially rotates, and sprinkling disk drives interlocking bar movement, and interlocking bar upper end will push slipping block progress
It moves up and down, when, there are when water, slipping block is mobile toward watering circle bottom direction together with inclined plate, and inclined plate, which is immersed in, to be spilt in watering frame
In water in water frame, when slipping block moves upwards, inclined plate can take part water out of from watering frame, which will be along oblique
Plate is slided toward side and is dropped on flowerpot installation position;It and so on moves, on the one hand, can be by water phase to being mildly spilled into flower
On basin installation position, on the other hand, also two column flowerpot installation positions can uniformly be poured.
Preferably, it is connected on slipping block in the middle part of the inclined plate, the outside edges of boards of inclined plate tilt down.
Through the above technical solutions, the inclined plate that outer panel tilts down can make water smoothly fall, sprinkle water more efficient.
Preferably, the inclined plate is equipped with one-way water outlet valve, and the water that the one-way water outlet valve can allow to sprinkle water in frame enters
To the upper face of inclined plate, the water that the one-way water outlet valve can limit inclined plate upper face is entered in watering frame.
Through the above technical solutions, the water sprinkled water in frame can pass through one-way water outlet valve after inclined plate enters watering frame
The upper face side for entering inclined plate, when inclined plate is detached from the watering frame water surface, the water of inclined plate upper face just will not be by unidirectionally going out
Water valve is leaked back into again in watering frame, and watering efficiency is further promoted.
Preferably, the outside edges of boards of the inclined plate are equipped with rubber bound edge, and rubber bound edge can be with the inside casing wall phase of watering frame
It supports.
Through the above technical solutions, reducing water on inclined plate upper face from inclined plate when inclined plate is detached from the watering frame water surface
Gap between outer edges of boards and watering frame inside casing wall is flowed back to again in watering frame;Further promote watering efficiency.
Preferably, the driving portion includes cylinder and gas source, and the vertical telescopic end of the cylinder is installed on watering frame, institute
Source gas supply cylinder is stated, to drive the telescopic end of cylinder to generate reciprocal telescopic movement.
Through the above technical solutions, gas is filled with or is extracted out cylinder by gas source, and then make the telescopic end of cylinder constantly
Expanding-contracting action occurs, final that watering frame progress reciprocal vertical is pushed to slide up and down, kinetic stability is high.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of embodiment;
Fig. 2 is the portion the A enlarged drawing of Fig. 1;
Fig. 3 is the top view of watering device, for the matching relationship between emphasis displaying inclined plate, rubber bound edge, water storage tank three.
Appended drawing reference: 1, bracket;2, water storage tank;3, flowerpot installation position;4, apopore;5, watering device;6, watering frame;7,
Driving portion;8, watering portion;9, watering motor;10, sprinkling disk;11, interlocking bar;12, slipping block;13, inclined plate;14, unidirectional water outlet
Valve;15, rubber bound edge.
Specific embodiment
Below in conjunction with attached drawing 1- attached drawing 3, invention is further described in detail.
A kind of municipal administration gardens environmental protection watering system, the bracket 1 including being installed on ground, bracket 1 is whole to place shape in vertical
State, the upper end of bracket 1 be equipped with water storage tank 2,2 interior groove shape of water storage tank be it is trapezoidal, water storage tank 2 be in flared, water storage tank 2
Flared end upward, the slot bottom of water storage tank 2, which runs through, is equipped with apopore 4.
A vertical slideway is equipped on bracket 1, which is located at the underface of apopore 4, if being equipped on bracket 1
Dried flower basin installation position 3, can be used for placing flowers and plants plant on flowerpot installation position 3, and several flowerpot installation positions 3 are divided to for two column, two column flowers
Basin position installation position is located at the two sides of watering about 6 slip locations of frame.Water storage tank 2 is blocked in all flowerpot installation positions 3 just
Top.
It is being provided with watering device 5, watering device 5 includes watering frame 6, driving portion 7, watering portion 8, and watering frame 6 is sliding vertically
It moves on vertical slideway, upward, the rainwater to fall from apopore 4 can directly be fallen in watering frame 6 the frame mouth for frame 6 of sprinkling water.
For driving watering frame 6 to be moved back and forth up and down vertically, watering portion 8 is located in watering frame 6 driving portion 7, and watering portion 8 is used for will
Water in watering frame 6 is spilled on flowerpot installation position 3.
Wherein, watering portion 8 includes watering motor 9, sprinkling disk 10, interlocking bar 11, and watering motor 9 is installed on watering frame 6
Lateral wall, sprinkling disk 10 are located in watering 6 frame of frame and are connected on the motor shaft of watering motor 9, erect on the inside casing wall of frame 6 of sprinkling water
Straight sliding is connected with slipping block 12, and 11 one end of interlocking bar is articulated with slipping block 12, and other end bias is articulated with sprinkling disk 10
In disk, the rotation of sprinkling disk 10 will drive the movement of interlocking bar 11, and 11 upper end of interlocking bar will drive slipping block 12 and slide up and down,
Slipping block 12 is equipped with inclined plate 13, and the water energy sprinkled water in frame 6 is flowed at flowerpot installation position 3 by inclined plate 13.
Referring to Fig. 3, the whole size of inclined plate 13 is less than the frame mouth size of watering frame 6, and the water fallen in apopore 4 can be never
It is entered in watering frame 6 by the 6 frame mouth of watering frame that inclined plate 13 blocks.
Inclined plate 13 is whole plate-like, is connected on slipping block 12 in the middle part of inclined plate 13, the outside edges of boards of inclined plate 13 tilt down.
Inclined plate 13 is equipped with one-way water outlet valve 14, and one-way water outlet valve 14 can allow the water sprinkled water in frame 6 to enter the upper face of inclined plate 13,
The water that one-way water outlet valve 14 can limit 13 upper face of inclined plate enters in watering frame 6.
The outside edges of boards of inclined plate 13 are equipped with rubber bound edge 15, when inclined plate 13 enters in watering frame 6, rubber bound edge 15
Compressional deformation can be generated with watering 6 inside casing of frame.
The driving portion 7 includes cylinder and gas source, and the vertical telescopic end of cylinder is installed on watering frame 6, source gas supply
Cylinder, to drive the telescopic end of cylinder to generate reciprocal telescopic movement.
In actual use, on flowerpot installation position 3, rainwater can first drop into water storage tank 2 and work as flowers and plants planting
In, it is then flowed out from apopore 4, and sprinkle water in frame 6 along not entered by the 6 frame mouth of watering frame that inclined plate 13 blocks, gas source meeting
Air-breathing blowing action is carried out to cylinder incessantly, the telescopic end of cylinder will push watering frame 6 and move up and down, same with this
When, watering motor 9 starts, and watering motor 9 will drive sprinkling disk 10 and be circumferentially rotated, and sprinkling disk 10 drives interlocking bar 11 to carry out
It moves up and down, the end of interlocking bar 11 will drive slipping block 12 and slide up and down, and slipping block 12 drives inclined plate 13 toward watering frame 6
Frame bottom is moved, on the one hand the water in frame 6 of sprinkling water never can enter inclined plate 13 by the 6 frame mouth of watering frame that inclined plate 13 blocks
On the other hand upper face can also enter the upper face of inclined plate 13 from one-way water outlet valve 14, slipping block 12 drives inclined plate 13 toward back
When moving upwards from watering 6 frame bottom of frame, the water positioned at 13 upper face of inclined plate can be flowed and be flowed to along the inclined direction of inclined plate 13
On flowerpot installation position 3.
The above is only exemplary embodiment of the invention, protection scope and is not intended to limit the present invention, this hair
Bright protection scope is determined by the attached claims.