CN114041365A - Green belt and water treatment system for same - Google Patents

Abstract

The invention discloses a green belt and a water treatment system for the green belt, which comprise a green belt system, a communication system, a moving system and a water treatment system; the invention can construct green belts with different shapes at lower construction cost through the moving system and the planting system. The invention combines the water treatment system and the spraying system, not only can recycle water resources, but also the required operation cost is far less than the operation and maintenance cost of external intervention; and moreover, the device has certain water storage property, and after being built in a large scale, the device plays a role in buffering urban sponges in local areas. In the planting device, by moving or combining and assembling different partition plates and telescopic rods, planting spaces with various conditions can be established at multiple degrees of freedom of the planting groove, convenience is provided for planting a multi-subject crop system, and meanwhile, a single green belt can have functions of dedusting, denoising, water storage and the like in a proper amount, and finally the functions are enlarged through large-scale intensive construction.

Description

Green belt and water treatment system for same

Technical Field

The invention relates to the related technical field of green belts for sound insulation of municipal roads, in particular to a green belt and a water treatment system for the green belt.

Background

With the advance of modern urbanization process, the per-capita economic level is continuously increased, the per-capita living conditions are continuously improved, but the per-capita living environment is sharply reduced. In the municipal road system, road traffic pollution caused by urban vehicles becomes one of the increasingly prominent environmental problems, wherein air pollution and traffic noise pollution caused by road traffic pollution are two major problems which plague urban and urban residents. The green belt beautifies urban environment in cities, plant communities in the green belt can form a layer of green barrier to atmospheric particulate pollution and noise pollution to block the pollution transmission, partial plants in the communities can adsorb particulate matters in the air due to rough or fluffy leaves and adsorptive secretion, and the noise absorption, reflection and diffusion effects of the branches and leaves of the plants become important prevention and control measures for urban ecology. Moreover, the prevention and treatment effects of the green belts on noise pollution and particulate pollution also become a hot spot for a great number of researchers to study and pay attention to. Currently, the difficulties of the current research situation of urban green belts in China are mainly reflected in the following aspects:

(1) structural analysis of municipal greenbelts: the urban green belt mainly comprises woody plants and herbaceous plants, but comprises urban water areas, landscapes and the like which are inseparable with the woody plants and the herbaceous plants, so that the arrangement and the relation of the urban green belt plants cannot be simply researched in the aspect of researching the structure of the urban green belt, and the inseparable relation of the urban green belt plants and the landscapes of the surrounding water areas is also researched.

(2) The ecological service function of municipal green belt. The spread of the city and the strong human activities significantly affect the service functions of the ecosystem, resulting in the continuous decrease of the service functions of the natural ecosystem of the city. The method has the advantages of large-scale construction of urban green belts, capability of increasing the absorption and degradation of urban pollutants to a great extent, improvement of urban microclimates and reduction of urban heat island effect.

(3) Maintenance and management of municipal greenbelts: whether the green belt can fully exert the service function is closely related to the growth and the health condition of the green belt. Because urban green belts are greatly interfered by human beings, the maintenance and management work of the urban green belts is necessary, and the maintenance and management are more difficult especially in arid cities with fragile ecological conditions.

Aiming at the current difficulties, China provides a plurality of innovative proposals in the field, but the problems of the green belt for sound insulation of the municipal road and the water treatment device thereof are still as follows:

(1) at present, most greenbelts are designed and built in an early time, fixed modification schemes are mostly adopted, and the greenbelts are built in a great wall type or disc type shape at a fixed place, so that the building cost is not low on one hand, and on the other hand, a large amount of additional intervention is still needed for the management and maintenance of the greenbelts, for example, a delivery sprinkler is used for fixed-point and timing irrigation, and the operation and maintenance cost is very high.

(2) At present, most green belts are fixed with planting points, so that the urban beautifying function of the green belts cannot be greatly improved and at most partial decoration is carried out when a great festival or celebration is met. Meanwhile, only a wider lane has the condition for building the green belt, so natural landscaping is not carried out on the green belt at some street lanes with historical values.

(3) Because the current planting scheme of the green belt is fixed, a multi-purpose planting system is difficult to form, so that the single green belt has the functions of removing dust, removing noise, storing water and the like in a proper amount, even if part of the green belts can have the above functions, the growth condition of multi-purpose planting is complex, the crops are easy to entangle, and the management difficulty of the green belt is greatly improved.

Therefore, based on the above defects, in the technical field of green belts for sound insulation of municipal roads, research and improvement needs still exist for novel green belts and water treatment systems for green belts, which are a research focus and a focus in the field at present and are the starting point and the driving force of the invention.

Disclosure of Invention

In view of the problems in the prior art, the invention aims to provide a green belt and a water treatment system for the green belt.

In order to achieve the purpose, the invention provides the following technical scheme:

a green belt and a water treatment system for the green belt comprise a green belt system, a communication system, a moving system and a water treatment system; the water treatment systems are more than two and are arranged on the mobile system, and the green belt system is positioned above the water treatment systems and is communicated with the water treatment systems through a communication system; the green belt system comprises a planting mechanism, a display mechanism, a water collecting and filtering mechanism and a spraying mechanism;

plant the mechanism including planting the groove, plant the inslot both sides on the lower extreme all be provided with track frame one, the level is provided with a plurality of travelling beam to sliding on the track frame one that the symmetry set up, it is vertical to be provided with baffle one to sliding on the travelling beam that the symmetry set up, it is protruding to be provided with a plurality of on the travelling beam, the level is provided with a plurality of flexible pole one to between the travelling beam that the symmetry set up, flexible pole one both ends are passed through the buckle block in the arch, a planting groove lateral wall is provided with a plurality of spout, it is provided with the sliding seal door to slide on the spout, a plurality of hole has been seted up on the planting groove lateral wall that the spout corresponds the position. A plurality of round holes are formed in the first partition plate, and a plurality of square holes are formed in the first track frame.

Preferably, the display mechanism comprises a first vertical guide rail, a first sliding block, a first plate, a rotating chain, a fluorescent panel, a second sliding block, a second plate, a reflecting panel and a hook; perpendicular to the guide rail setting in planting groove upper end both sides, a panel both ends slide through slider one and set up perpendicularly to guide rail one on, be provided with a plurality of fluorescence panel through the rotating chain respectively on the panel one, two both ends of panel slide through slider two and set up perpendicularly to guide rail one on, be provided with a plurality of reflection panel and couple on the panel two.

Preferably, the water collecting and filtering mechanism comprises a first collecting funnel, a transmission pipeline, a transmission elbow, a valve and a second collecting funnel; the first collecting funnel is arranged at the outer side of one end of the planting groove, two second partition plates are symmetrically arranged in the middle of the first collecting funnel, a plurality of first drawing filter screens are arranged above the second partition plates, a first sealing frame is arranged on one side wall of the first collecting funnel at a position corresponding to each first drawing filter screen, a second drawing filter screen is arranged below each second partition plate, a second sealing frame is arranged on one side wall of the first collecting funnel at a position corresponding to each second drawing filter screen, two lower sides of the first collecting funnel are connected with a transmission pipeline, the transmission pipeline is communicated with the second collecting funnel through a transmission elbow and a valve in sequence, the second collecting funnel is positioned at two outer sides of the planting groove, a plurality of fourth drawing filter screens are arranged at the inner bottom of the second collecting funnel near the valve, a fourth sealing frame is arranged on two side walls of the fourth drawing filter screens, a third partition plate is arranged above the fourth drawing filter screens, and a plurality of third drawing filter screens are arranged in the second collecting funnel above the third partition plates, and a third sealing frame is arranged on the two side walls of the collection funnel at the position corresponding to the third drawing filter screen.

Preferably, the spraying mechanism comprises a first liquid sending pipe, a spray head, a second liquid sending pipe, a second track frame, a pulley and a liquid pumping pump; the first liquid sending pipe is provided with a plurality of nozzles, one end of the first liquid sending pipe is fixedly arranged on the second liquid sending pipe, two sides of the lower part of the second liquid sending pipe are arranged on the second track frame through pulleys, and two ends of the liquid pumping pump are communicated with the second liquid sending pipe.

Preferably, the communication system comprises a soft sleeve, a first vertical telescopic sleeve, a first multi-way pipe connector, a first horizontal telescopic sleeve, a second vertical telescopic sleeve, a second multi-way pipe connector and a second horizontal telescopic sleeve; the two ends of the soft sleeve are respectively connected with the liquid pumping pump and the first vertical telescopic sleeve, the first vertical telescopic sleeve is communicated with one side of the water tank through the first multi-way pipe connector and the first horizontal telescopic sleeve, one end of the second vertical telescopic sleeve is communicated with the first collecting hopper, and the second vertical telescopic sleeve is communicated with the other side of the water tank through the second multi-way pipe connector and the second horizontal telescopic sleeve.

Preferably, the moving system comprises a first layer plate, an outer frame, a lifting column and a second layer plate; a plurality of lifting columns are connected to two sides of the first layer plate through the outer frame, the lower ends of the lifting columns are connected with the second layer plate, a plurality of telescopic rods are connected to four side faces of the second layer plate, one ends of the telescopic rods are connected with a second guide rail perpendicularly, hooks are arranged on the second guide rail perpendicularly in a sliding mode, a plurality of rotating seats are arranged at the bottoms of the second layer plate, and wheels are arranged on the rotating seats. Two devices of the invention can be assembled by aligning the hooks and fixing them with the bolts, and a plurality of devices of the invention can be assembled as required to achieve the effect of forming a certain scale of green belt.

Preferably, the water treatment system comprises a water tank, a first medicine cabin and a second medicine cabin; the water tank is more than two, and the water tank top is provided with a plurality of and connects the foot rest, and the water tank bottom is provided with the nested foot rest of a plurality of, top-down interval is provided with baffle four, filter screen respectively in the water tank, is provided with a plurality of medicine cabin two and medicine cabin one on the baffle four, and medicine cabin one is located two upper ends in the medicine cabin, and medicine cabin one end is equipped with the flip door, is provided with a plurality of flip sealing door on the baffle four.

Preferably, a sliding sealing door is arranged on one side of the water tank, a plurality of sealing door plates are arranged on the other side of the water tank, two ends of each sealing door plate are arranged on a door rail in a sliding mode, and the door rails are arranged on the side wall of the water tank.

Preferably, the connecting foot seats and the nesting foot seats are mutually nested and matched.

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

(1) the movable type green belt planting system adopts a movable type design, wherein green belts with different shapes can be constructed at lower construction cost through the moving system and the planting system. Meanwhile, the invention is combined with a water treatment system and a spraying system, on one hand, water resources can be recycled, and the required operation cost is far less than the operation and maintenance cost of external intervention; on the other hand, the device has certain water storage performance, and after being built in a large scale, the device plays a role in buffering urban sponges in local areas.

(2) The device can construct a multi-axis expanded large-scale greening area, such as a greening wall with stacked ranks or a greening strip-shaped belt with adjustable bending, and the like through the lifting column, the hook, the plug pin and other components in the mobile device, thereby greatly improving the urban beautification service effect of the greening belt. Meanwhile, the device disclosed by the invention is small in size, free of the problems of fixed occupied area or large-area occupied area and the like, and can be used for small streets with historical values to improve the cultural brand effect.

(3) In the planting device, by moving or combining and assembling different partition plates and telescopic rods, planting spaces with various conditions can be established in multiple degrees of freedom of the planting groove, a multi-subject crop system is convenient to plant, plants are prevented from being entangled in the growth process, the management difficulty of a green belt is reduced, and meanwhile, a single green belt has the functions of removing dust, removing noise, storing water and the like in a proper amount, and the functions are finally amplified through large-scale intensive construction.

Drawings

FIG. 1 is a schematic view of the assembled two bodies of the present invention;

FIG. 2 is a schematic structural view of a single body of the present invention;

FIG. 3 is a first schematic structural diagram of a green belt system according to the present invention;

FIG. 4 is a second schematic structural view of a green belt system according to the present invention;

FIG. 5 is a partial schematic view of the water collecting and filtering mechanism of the present invention;

FIG. 6 is a partial cross-sectional view of the water collection filter mechanism of the present invention;

FIG. 7 is a cross-sectional view of the green belt system of the present invention;

FIG. 8 is a schematic diagram of a mobile system according to the present invention;

FIG. 9 is a first schematic view of the water treatment system according to the present invention;

FIG. 10 is a schematic view of a second embodiment of the water treatment system of the present invention;

FIG. 11 is a cross-sectional view of a water treatment system of the present invention;

wherein: the cultivation device comprises a cultivation groove 1, a track frame I2, a movable cross beam 201, a partition plate I202, a protrusion 203, a buckle 204, a telescopic rod I205, a hole 3, a sliding groove 301, a sliding sealing door 302, a vertical guide rail I4, a slide block I5, a plate I501, a rotating chain 502, a fluorescent panel 503, a slide block II 6, a plate II 601, a reflecting panel 602, a hook 603, a collection funnel I7, a sealing frame I701, a drawing filter screen I702, a partition plate II 703, a sealing frame II 704, a drawing filter screen II 705, a transmission pipeline 8, a transmission elbow 801, a valve 802, a collection funnel II 9, a sealing frame III 901, a drawing filter screen III 902, a partition plate III 903, a sealing frame IV 904, a drawing filter screen IV 905, a liquid feeding pipe I10, a spray head 1001, a liquid feeding pipe II 1002, a track frame II 11, a pulley 1101, a liquid pumping pump machine 12, a soft sleeve 13, a vertical telescopic sleeve I14, a multi-way pipe joint I1401, a horizontal telescopic sleeve I1402, a vertical telescopic sleeve II 15, a vertical telescopic sleeve II, The device comprises a multi-way pipe joint II 1501, a horizontal telescopic pipe II 1502, a layer I16, an outer frame 1601, a lifting column 1602, a layer II 1603, a telescopic rod II 17, a vertical guide rail II 1701, a hook 1702, a bolt 1703, a rotating seat 18, a wheel 1801, a water tank 19, a connecting foot seat 1901, a nesting foot seat 1902, a medicine cabin I20, a flip door 2001, a medicine cabin II 2002, a door rail 21, a sealing door panel 2101, a partition plate IV 22, a sliding sealing door 23 and a filter screen 24.

Detailed Description

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

Referring to fig. 1-11, a green belt and a water treatment system for the green belt includes a green belt system, a communication system, a moving system, and a water treatment system; the water treatment systems are more than two and are arranged on the mobile system, and the green belt system is positioned above the water treatment systems and is communicated with the water treatment systems through a communication system;

the green belt system comprises a planting mechanism, a display mechanism, a water collecting and filtering mechanism and a spraying mechanism;

plant the mechanism including planting groove 1, it all is provided with one 2 of track frame to plant the lower extreme on the both sides in 1 of groove, the level slides on one 2 of track frame that the symmetry set up and is provided with a plurality of travelling beam 201, it is vertical to slide on the travelling beam 201 that the symmetry set up and be provided with baffle 202, be provided with the arch 203 of a plurality of on the travelling beam 201, the level is provided with a plurality of telescopic rod 205 to between the travelling beam 201 that the symmetry set up, buckle 204 block is passed through at telescopic rod 205 both ends on arch 203, 1 lateral wall of planting groove is provided with a plurality of spout 301, it is provided with sliding seal door 302 to slide on the spout 301, a plurality of hole 3 has been seted up on the 1 lateral wall of planting groove that spout 301 corresponds the position. A plurality of round holes are formed in the first partition plate 202, and a plurality of square holes are formed in the first track frame 2.

The display mechanism comprises a first vertical guide rail 4, a first sliding block 5, a first plate 501, a rotating chain 502, a fluorescent panel 503, a second sliding block 6, a second plate 601, a reflecting panel 602 and a hook 603; the vertical guide rail I4 is arranged on two sides of the upper end of the planting groove 1, two ends of the first plate 501 are arranged on the vertical guide rail I4 in a sliding mode through the first sliding blocks 5, the first plate 501 is provided with a plurality of fluorescent panels 503 through rotating chains 502, two ends of the second plate 601 are arranged on the vertical guide rail I4 in a sliding mode through the second sliding blocks 6, and the second plate 601 is provided with a plurality of reflecting panels 602 and hooks 603.

The water collecting and filtering mechanism comprises a first collecting funnel 7, a transmission pipeline 8, a transmission elbow 801, a valve 802 and a second collecting funnel 9; the collecting funnel I7 is arranged at the outer side of one end of the planting groove 1, two partition plates II 703 are symmetrically arranged at the middle part in the collecting funnel I7, a plurality of drawing filter screens I702 are arranged above the partition plates II 703, a sealing frame I701 is arranged on the side wall of the collecting funnel I7 corresponding to the drawing filter screens I702, a drawing filter screen II 705 is arranged below the partition plates II 703, a sealing frame II 704 is arranged on the side wall of the collecting funnel I7 corresponding to the drawing filter screen II 705, two sides of the lower part of the collecting funnel I7 are connected with the transmission pipeline 8, the transmission pipeline 8 is communicated with the collecting funnel II 9 through the transmission elbow 801 and the valve 802 in sequence, the collecting funnel II 9 is arranged at two sides outside the planting groove 1, a plurality of drawing filter screens IV 905 are arranged at the inner bottom part of the collecting funnel II 9 close to the valve 802, a sealing frame IV 904 is arranged on the side wall of the collecting funnel II 9 corresponding to the drawing filter screen IV 905, a partition plate III 903 is arranged above the drawing filter screen IV, a plurality of drawing filter screens III 902 are arranged in the collecting funnel II 9 above the partition plate III 903, and a sealing frame III 901 is arranged on the side wall of the collecting funnel II 9 at the position corresponding to the drawing filter screens III 902.

The spraying mechanism comprises a first liquid sending pipe 10, a spray head 1001, a second liquid sending pipe 1002, a second track frame 11, a pulley 1101 and a liquid pumping pump 12; the first liquid sending pipes 10 are arranged on the two sides of the upper end of the planting groove 1, the plurality of spray heads 1001 are arranged on the first liquid sending pipes 10, one ends of the first liquid sending pipes 10 are fixedly arranged on the second liquid sending pipes 1002, the two sides of the lower portions of the second liquid sending pipes 1002 are arranged on the second track frame 11 through pulleys 1101, and the two ends of the liquid pumping pump 12 are communicated with the second liquid sending pipes 1002.

The communicating system comprises a soft sleeve 13, a first vertical telescopic sleeve 14, a first multi-way pipe joint 1401, a first horizontal telescopic sleeve 1402, a second vertical telescopic sleeve 15, a second multi-way pipe joint 1501 and a second horizontal telescopic sleeve 1502; two ends of the soft sleeve 13 are respectively connected with the liquid pumping pump 12 and the first vertical telescopic sleeve 14, the first vertical telescopic sleeve 14 is communicated with one side of the water tank 19 through the first multi-way pipe connector 1401 and the first horizontal telescopic sleeve 1402, one end of the second vertical telescopic sleeve 15 is communicated with the first collecting funnel 7, and the second vertical telescopic sleeve 15 is communicated with the other side of the water tank 19 through the second multi-way pipe connector 1501 and the second horizontal telescopic sleeve 1502.

The moving system comprises a first layer plate 16, an outer frame 1601, a lifting column 1602 and a second layer plate 1603; the two sides of the first layer plate 16 are connected with a plurality of lifting columns 1602 through an outer frame 1601, the lower ends of the lifting columns 1602 are connected with a second layer plate 1603, four side faces of the second layer plate 1603 are connected with a plurality of telescopic rods 17, one end of each telescopic rod 17 is connected with a vertical guide rail 1701, a hook 1702 is arranged on the vertical guide rail 1701 in a sliding mode, a plurality of rotary seats 18 are arranged at the bottoms of the second layer plate 1603, and wheels 1801 are arranged on the rotary seats 18.

Two devices of the present invention can be assembled by aligning the hooks 1702 and securing them with the latches 1703, and multiple devices of the present invention can be assembled as needed to achieve the effect of forming a green belt of a certain scale.

The water treatment system comprises a water tank 19, a first medicine cabin 20 and a second medicine cabin 2002; the number of the water tanks 19 is more than two, the top of each water tank 19 is provided with a plurality of connecting foot seats 1901, the bottom of each water tank 19 is provided with a plurality of nested foot seats 1902, and the connecting foot seats 1901 and the nested foot seats 1902 are nested and matched with each other. A partition plate four 22 and a filter screen 24 are arranged in the water tank 19 from top to bottom at intervals respectively, a plurality of medicine cabins two 2002 and a plurality of medicine cabins one 20 are arranged on the partition plate four 22, the medicine cabins one 20 are located at the upper ends of the medicine cabins two 2002, a flip door 2001 is arranged at one end of the medicine cabins one 20, and a plurality of flip sealing doors 2201 are arranged on the partition plate four 22. A sliding sealing door 23 is arranged on one side of the water tank 19, a plurality of sealing door panels 2101 are arranged on the other side of the water tank 19, two ends of each sealing door panel 2101 are slidably arranged on a door rail 21, and the door rail 21 is arranged on the side wall of the water tank 19.

The working process of the invention is as follows:

the planting groove 1 of the planting mechanism is mainly used for planting greening crops. Wherein the movable beam 201 moves along the first rail frame 2, and further drives the first partition plate 202 to move, so that the planting partition space in the Y-axis direction can be adjusted. The buckle 204 is nested on the bulge 203, the planting partition space in the X-axis direction can be adjusted by adjusting different nesting positions, and the length of the first telescopic rod 205 can be adjusted to adapt to the adjustment of the planting partition space in the Y-axis direction. When the water content of the planting environment medium in the planting groove 1 is too high, for example, in high rainfall weather, the sliding position of the sliding sealing door 302 on the sliding groove 301 can be adjusted, and then the exposed number of the holes 3 can be adjusted, so that the effect of changing the water seepage flux is achieved. The first slide block 5 is inserted into the first vertical guide 4, and the first plate 501 is fixed between the different first vertical guide 4. The angle of the rotating chain 502 is properly adjusted, so that the fluorescent panel 503 can receive sunshine as much as possible in the daytime and store light energy, and the fluorescent panel 503 can emit fluorescence by itself at night, thereby achieving the purpose of marking the position and the size of the whole green belt device system. On the one hand, the landscape degree is increased, and on the other hand, the pedestrian driving at night is ensured not to collide the green belt due to visual errors. The second sliding block 6 is inserted into the first vertical guide rail 4, and the second plate 601 is fixed between the first vertical guide rails 4. In the daytime, the reflecting panel 602 can reflect sunlight to form appropriate warning illumination lines, so as to play a safety role. Hook 603 may be used as a hang job progress card.

In order to realize the better self-circulation ecological function of the device, the device is provided with a component with a rainwater collecting function, a subsequent system with a purifying function and the like. Wherein the second collecting funnel 9 can collect rainwater. The rainwater collected firstly can be filtered through the three drawn filter screens 902, and if the three drawn filter screens 902 are saturated in filtering capacity, the three drawn filter screens 902 are drawn out of the three sealing frames 901 for replacement. And the later rainwater further flows through the four drawn filter screens 905 for filtering, and if the filtering capacity of the four drawn filter screens 905 is saturated, the rainwater is drawn out of the sealing frame 904 for replacement. The arrangement of the third partition plate 903 can ensure that water flows orderly and directionally, and the possibility of generating vortex is reduced. The purified rainwater sequentially passes through the valve 802, the transmission elbow 801 and the transmission pipeline 8 to reach the first collection funnel 7, wherein the valve 802 can control the flow. The first collecting funnel 7 can also collect rainwater. The collected rainwater passes through the first pull-out filter 702 to generate a filtering effect, and if the service life of the first pull-out filter 702 reaches the upper limit, the first pull-out filter 702 can be pulled out of the first sealing frame 701 to replace consumables. On the other hand, the rainwater flowing from the transmission pipeline 8 into the first collecting funnel 7 is further filtered by the second drawn filter screen 705, and the filter screen can be replaced by the second sealing frame 704. The purpose of the second partition 703 is to reduce the possibility of eddy current generation. The rainwater collected so far is integrally subjected to coarse screening, such as large-particle impurities are extracted. Then flows out along the second vertical telescopic tube 15 to other systems.

The communicating system of the invention mainly conveys the rainwater collected by the planting system to the water treatment system, and then reversely conveys the water treated by the water treatment system to the planting system for reuse. The rainwater which is subjected to coarse screening flows into the water tank 19 sequentially through the second vertical telescopic pipe 15, the second multi-way pipe joint 1501 and the second horizontal telescopic pipe 1502. Because the water tanks 19 can be stacked, the length of the second vertical telescopic tube 15 and the length of the second horizontal telescopic tube 1502 can be adjusted according to the change of the spatial position. The purified water is sequentially transmitted back to the planting system from the first horizontal telescopic tube 1402, the first multi-way pipe joint 1401 and the first vertical telescopic tube 14, and the lengths of the telescopic tubes can be adjusted.

The water treatment system is mainly used for removing further fine filtration rainwater through pharmaceutical reaction and filtration screening. The water fed into the water tank 19 is first subjected to a pharmacological reaction in the upper half of the tank. Wherein the reactive medication is placed in the first chamber 20 and the second chamber 2002, respectively. The rainwater permeates the pores to react with the medicines in the cabin, and then small particle impurities in the rainwater react to form precipitates which are intercepted in the cabin. By sliding the position of the seal door panel 2101 on the door rail 21 and opening and closing the flip door 2001, drug exchange and sediment clean-up can be performed. After the pharmaceutical reaction is completed, the flip sealing door 2201 on the partition plate four 22 is opened, water flows into the lower half part of the tank body of the water tank 19 and flows through the filter screen 24 for filtration, and a very small amount of sediment carried in the water is removed. The screen 24 can be cleaned by opening the sliding sealing door 23. The connecting foot 1901 and the nesting foot 1902 can be engaged with each other to allow different water tanks 19 to be stacked smoothly. The water after the fine filtration flows to a spraying mechanism of the planting system through the communication system.

The spraying mechanism is mainly used for spraying clean and available water on the green crops so as to achieve the purpose of watering. The water is transmitted to the spray head 1001 along the soft sleeve 13, the liquid pumping pump 12, the liquid sending pipe II 1002 and the liquid sending pipe I10 in sequence and then sprayed by the spray head 1001. The carriage 1101 moves along the second rail frame 11 to adjust the horizontal position of the spraying.

The moving system is mainly used for carrying the system or the equipment and enabling the system or the equipment to be movable, and meanwhile, the front, the back, the left and the right can be connected in series and the staggered discharge form can be formed. Ply one 16 is primarily intended to carry a green belt system. The height of the lifting column 1602 can be adjusted to change the number of the water tanks 19 and to achieve the effect of staggered discharge between different devices. Layer two 1603 functions primarily to carry the water treatment system and other components. The length of the telescopic rod two 17, the sliding position of the hook 1702 on the vertical guide rail two 1701 and the like are adjusted, so that different hooks 1702 can be overlapped with each other, and different devices can be condensed to form a serial connection through the overlapped position by the latch 1703. The wheel 1801 and the rotary seat 18 work together to realize the movement of the whole device in various directions.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. A green belt and a water treatment system for the green belt are characterized by comprising a green belt system, a communication system, a moving system and a water treatment system; the water treatment systems are more than two and are arranged on the mobile system, and the green belt system is positioned above the water treatment systems and is communicated with the water treatment systems through a communication system; the green belt system comprises a planting mechanism, a display mechanism, a water collecting and filtering mechanism and a spraying mechanism;

the planting mechanism comprises a planting groove (1), the upper and lower ends of two sides in the planting groove (1) are provided with a track frame (2), the level is provided with a plurality of movable cross beams (201) in a sliding manner on the track frame (2) which is symmetrically arranged, a first partition plate (202) is vertically arranged in a sliding manner on the movable cross beams (201) which are symmetrically arranged, a plurality of bulges (203) are arranged on the movable cross beams (201), a plurality of telescopic rods (205) are arranged between the movable cross beams (201) which are symmetrically arranged in a horizontal manner, the two ends of the telescopic rods (205) are clamped on the bulges (203) through buckles (204), a plurality of sliding grooves (301) are arranged on the outer side wall of the planting groove (1), sliding sealing doors (302) are arranged in a sliding manner on the sliding grooves (301), and a plurality of holes (3) are formed in the side wall of the planting groove (1) at the corresponding position of the sliding grooves (301).

2. A green belt and a water treatment system for a green belt as claimed in claim 1, wherein: the display mechanism comprises a first vertical guide rail (4), a first sliding block (5), a first plate (501), a rotating chain (502), a fluorescent panel (503), a second sliding block (6), a second plate (601), a reflecting panel (602) and a hook (603); perpendicular to guide rail (4) setting in planting groove (1) upper end both sides, panel (501) both ends slide through slider (5) and set up on perpendicular to guide rail (4), are provided with a plurality of fluorescent panel (503) through rotating chain (502) respectively on panel (501), and slide through slider two (6) and set up on perpendicular to guide rail (4) at panel two (601) both ends, are provided with a plurality of reflection panel (602) and couple (603) on panel two (601).

3. A green belt and a water treatment system for a green belt as claimed in claim 2, wherein: the water collecting and filtering mechanism comprises a first collecting funnel (7), a transmission pipeline (8), a transmission elbow (801), a valve (802) and a second collecting funnel (9); the collecting funnel I (7) is arranged on the outer side of one end of the planting groove (1), two partition plates II (703) are symmetrically arranged in the middle of the collecting funnel I (7), a plurality of drawing filter screens I (702) are arranged above the partition plates II (703), a sealing frame I (701) is arranged on the side wall of the collecting funnel I (7) at the position corresponding to the drawing filter screens I (702), a drawing filter screen II (705) is arranged below the partition plates II (703), a sealing frame II (704) is arranged on the side wall of the collecting funnel I (7) at the position corresponding to the drawing filter screen II (705), two sides of the lower part of the collecting funnel I (7) are connected with the conveying pipeline (8), the conveying pipeline (8) is sequentially communicated with the conveying elbow pipe (801), the valve (802) and the collecting funnel II (9), the collecting funnel II (9) is positioned on two sides outside the planting groove (1), a plurality of filter screen drawing filter screens IV (905) are arranged at the inner bottom of the collecting funnel II (9) close to the valve (802), the side wall of the second collection funnel (9) at the position corresponding to the fourth drawing filter screen (905) is provided with a fourth sealing frame (904), the fourth drawing filter screen (905) is provided with a third partition plate (903), the second collection funnel (9) above the third partition plate (903) is provided with a plurality of third drawing filter screens (902), and the side wall of the second collection funnel (9) at the position corresponding to the third drawing filter screens (902) is provided with a third sealing frame (901).

4. A green belt and a water treatment system for a green belt as claimed in claim 3, wherein: the spraying mechanism comprises a first liquid sending pipe (10), a spray head (1001), a second liquid sending pipe (1002), a second track frame (11), a pulley (1101) and a liquid pumping pump machine (12); the first liquid sending pipe (10) is provided with a plurality of nozzles (1001) and is positioned on two sides of the upper end of the planting groove (1), one end of the first liquid sending pipe (10) is fixedly arranged on the second liquid sending pipe (1002), two sides of the lower part of the second liquid sending pipe (1002) are arranged on the second track frame (11) through pulleys (1101), and two ends of the liquid pumping pump (12) are communicated with the second liquid sending pipe (1002).

5. A green belt and a water treatment system for the green belt as claimed in claim 4, wherein: the communicating system comprises a soft sleeve (13), a first vertical telescopic sleeve (14), a first multi-way pipe joint (1401), a first horizontal telescopic sleeve (1402), a second vertical telescopic sleeve (15), a second multi-way pipe joint (1501) and a second horizontal telescopic sleeve (1502); the two ends of the soft sleeve (13) are respectively connected with the liquid pumping pump (12) and the vertical telescopic sleeve I (14), the vertical telescopic sleeve I (14) is communicated with one side of the water tank (19) through the multi-way pipe connector I (1401) and the horizontal telescopic sleeve I (1402), one end of the vertical telescopic sleeve II (15) is communicated with the collection funnel I (7), and the vertical telescopic sleeve II (15) is communicated with the other side of the water tank (19) through the multi-way pipe connector II (1501) and the horizontal telescopic sleeve II (1502).

6. A green belt and a water treatment system for the green belt as claimed in claim 5, wherein: the moving system comprises a first layer plate (16), an outer frame (1601), a lifting column (1602) and a second layer plate (1603); the plywood is characterized in that a plurality of lifting columns (1602) are connected to two sides of the first plywood (16) through an outer frame (1601), the lower ends of the lifting columns (1602) are connected with a second plywood (1603), four side faces of the second plywood (1603) are connected with a plurality of telescopic rods (17), one ends of the telescopic rods (17) are connected with a second vertical guide rail (1701), a hook (1702) is arranged on the second vertical guide rail (1701) in a sliding mode, a plurality of rotating seats (18) are arranged at the bottoms of the second plywood (1603), and wheels (1801) are arranged on the rotating seats (18).

7. A green belt and a water treatment system for the green belt as claimed in any one of claim 6, wherein: the water treatment system comprises a water tank (19), a first medicine cabin (20) and a second medicine cabin (2002); the utility model discloses a medicine cabinet, including water tank (19), top are provided with a plurality of and connect foot stool (1901), and water tank (19) bottom is provided with a plurality of nested foot stool (1902), top-down is provided with baffle four (22), filter screen (24) respectively at the interval in water tank (19), is provided with a plurality of medicine cabin two (2002) and medicine cabin one (20) on baffle four (22), and medicine cabin one (20) are located medicine cabin two (2002) upper end, and medicine cabin one (20) one end is equipped with flip door (2001), is provided with a plurality of flip sealing door (2201) on baffle four (22).

8. A green belt and a water treatment system for the green belt as claimed in any one of claims 1 to 7, wherein: a sliding sealing door (23) is arranged on one side of the water tank (19), a plurality of sealing door panels (2101) are arranged on the other side of the water tank (19), two ends of each sealing door panel (2101) are arranged on a door rail (21) in a sliding mode, and the door rail (21) is arranged on the side wall of the water tank (19).

9. A green belt and a water treatment system for the green belt as claimed in any one of claims 1 to 8, wherein: the connecting foot seat (1901) and the nesting foot seat (1902) are nested and fit with each other.

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