CN216674131U - A rainwater storage formula filters irrigation mechanism for landscape architecture - Google Patents

Abstract

The utility model aims to provide a rainwater storage type filtering irrigation mechanism for landscape architecture, which is characterized in that: the system comprises a plurality of garden buildings, a plurality of road water channels, a confluence pipe network, a sedimentation tank gap sealing cover, a sedimentation tank drainage trigger, a control cabinet, a filtering extraction pump, a filtering device, a purification output pipe group, a water storage tank irrigation trigger, an irrigation extraction pump, an irrigation pipe network, a plurality of irrigation units and an equipment room, wherein each garden building is provided with a plurality of building water receiving tanks, and each irrigation unit is provided with an irrigation branch and an irrigation delivery pump; the whole collection that is arranged in carrying out the rainwater to each building in the scenery garden, road ditch, introduces the underground conflux pipeline through collecting the branch road and unifies the collection, carries out preliminary sedimentation filtration and purification filtration, realizes the water level supervision and irrigates the function of drawing water, carries out the water delivery to each regional branch in the scenery garden and irrigates, moves systematization more, and the water economy resource reaches environmental protection and energy saving purpose.

Description

A rainwater storage formula filters irrigation mechanism for landscape architecture

Technical Field

The utility model relates to the field of energy conservation and environmental protection of landscape gardens, in particular to a rainwater storage type filtering irrigation mechanism for landscape gardens.

Background

The demand of modern urbanization on green land is higher and higher, the greening rate and the greening area of the city are gradually improved in the planning process, the rural city is strived to be realized, a beautiful living environment is created for urban residents, the labor pressure and the cost of landscape irrigation are undoubtedly increased, and the landscape irrigation needs to be developed. In the prior art, irrigation operation of landscape is basically performed by manually connecting a water pipe for irrigation, a large amount of garden personnel are required to perform a large amount of irrigation maintenance work, the operation mode without management control can invisibly cause the loss of water resources, along with the change of cities in developing faces and the advocated energy-saving and environment-friendly concept, some efficient and energy-saving irrigation appliances are also put into the use of landscape irrigation, although irrigation water can be saved, the natural weather environment is not fully utilized for collecting water resources, so that natural rainwater cannot be fully collected and reused; in conclusion, the existing irrigation system for landscape architecture needs to be redesigned and reformed to have the functions of rainwater collection and reuse, and meanwhile, a whole set of systematic automatic control mode is formed, so that the workload of personnel is reduced, the water resource is saved, the irrigation system is more environment-friendly, efficient and complete, and the problems and disadvantages in practical use are solved.

Disclosure of Invention

The utility model aims to provide a method for collecting rainwater in buildings and road channels in landscape gardens, which comprises the steps of leading rainwater into underground converging pipelines through collecting branches for uniform collection, converging the collected rainwater into a deposition container for preliminary precipitation and filtration, monitoring the water level in the deposition container by using a float induction triggering mechanism, enabling the deposition container to have the function of automatic water pumping, extracting the rainwater subjected to preliminary precipitation, finely purifying and filtering, avoiding the backflow influence of full load of the rainwater in the deposition container, storing the rainwater subjected to purification and filtration, monitoring the water level by using the float induction triggering mechanism in a water storage container, automatically starting an irrigation water pumping function, carrying out water delivery irrigation on each regional branch in the landscape gardens, operating the whole system more and further reducing the workload of personnel, the rainwater storage type filtering irrigation mechanism saves water resources and achieves the purposes of environmental protection and energy saving.

The technical scheme of the utility model is as follows: the utility model provides a rainwater storage formula that is used for landscape architecture filters irrigation mechanism which characterized in that: the garden irrigation system comprises a plurality of garden buildings, a plurality of road water channels, a confluence pipe network, a sedimentation tank gap sealing cover, a sedimentation tank drainage trigger, a control cabinet, a filtering extraction pump, a filtering device, a purifying output pipe group, a water storage tank irrigation trigger, an irrigation extraction pump, an irrigation pipe network, a plurality of irrigation units and an equipment room, wherein a plurality of building water receiving tanks are also arranged on the garden buildings randomly, the plurality of building water receiving tanks are all distributed at the edge position of the eave of the garden buildings, one end of each building water receiving tank is fixedly connected with the garden buildings, one end of each building water receiving tank is inserted into the ground of the garden and is connected with the confluence pipe network, the plurality of road water channels are distributed underground at the two sides of all roads of the garden, the plurality of road water channels are fixedly connected with the ground of the garden, a plurality of water channel drainage pipes are also arranged on the road channels randomly, and the plurality of water channel drainage pipes are uniformly distributed at the lower parts of the road water channels at the same intervals, one end of any water channel drain pipe is fixedly connected with the road water channel, the other end of the water channel drain pipe is fixedly connected with the confluence pipe network, the confluence pipe network and the sedimentation tank are all located under the garden, the confluence pipe network and the sedimentation tank are fixedly connected with the garden ground, the sedimentation tank notch sealing cover is located on the garden ground on the upper portion of the sedimentation tank, the sedimentation tank notch sealing cover is detachably connected with the garden ground, the sedimentation tank drainage trigger is located at a position close to the garden ground in the sedimentation tank, the sedimentation tank drainage trigger is fixedly connected with the sedimentation tank, the sedimentation tank drainage trigger is connected with the control cabinet by a circuit, the control cabinet is located on the upper portion of the garden ground, the control cabinet is fixedly connected with the garden ground, and the filtering and extracting pump is located at a position close to the sedimentation tank on the upper portion of the garden ground, the filtration extraction pump is fixedly connected with the garden ground, the filtering device is positioned on one side of the filtration extraction pump, the filtering device is connected with the filtration extraction pump, the purification output pipe group is positioned on one side of the filtering device, one end of the purification output pipe group is fixedly connected with the filtering device, the other end of the purification output pipe group is inserted into the garden ground and is connected with the water storage tank, the water storage tank is positioned under the garden, the water storage tank is positioned on one side of the purification output pipe group, the water storage tank is fixedly connected with the garden ground, the water storage tank irrigation trigger is positioned inside the water storage tank and is close to the garden ground, the water storage tank irrigation trigger is fixedly connected with the water storage tank, the water storage tank irrigation trigger utilizes a circuit and is connected with the control cabinet, the irrigation extraction pump is positioned on the upper part of the garden ground and is close to the water storage tank, irrigate the extraction pump and be fixed connection with gardens ground, irrigate the pipe network and distribute in the underground in gardens, irrigate the pipe network and be fixed connection with gardens underground, a plurality of irrigation units distribute on the ground in gardens, a plurality of irrigation units all are fixed connection with gardens ground, the equipment is arranged in the ground in gardens, and the equipment is arranged in the outside of switch board, filtration extraction pump, filter equipment, purification output nest of tubes, irrigation extraction pump between the equipment, be fixed connection with gardens ground between the equipment.

Further, the deposition pool is a stainless steel pool with a stainless steel net layer at the bottom.

Furthermore, the sedimentation tank drainage trigger and the water storage tank irrigation trigger are both floating induction trigger devices.

Furthermore, the control cabinet is a PLC control device.

Furthermore, the filtration extraction pump and the irrigation extraction pump are centrifugal liquid pressurization pumps.

Further, the filter device is a multi-layer fiber net filter purifier.

Further, the water storage tank is a stainless steel tank.

Further, arbitrary still be equipped with on the irrigation unit and irrigate branch road and irrigation delivery pump, irrigate the branch road and be located the inside of irrigation unit, it is fixed connection with the irrigation pipe network to irrigate the branch road, irrigation delivery pump is located the hookup location department that is close to irrigation branch road and irrigation pipe network, irrigation delivery pump is fixed connection with irrigation branch road.

Still further, the irrigation delivery pumps are all impeller type liquid pressure pumps.

The utility model has the beneficial effects that: the rainwater storage type filtering irrigation mechanism is clear in structural thought and simple and convenient to use and maintain, rainwater is collected in buildings and road water channels in a landscape garden, rainwater is led into an underground converging pipeline through a collecting branch to be collected uniformly, the collected rainwater is converged in a deposition container in a concentrated mode to be subjected to preliminary deposition and filtration, the water level in the deposition container is supervised by using a buoy induction trigger mechanism, so that the rainwater storage type filtering irrigation mechanism has an automatic water pumping function, the rainwater after preliminary deposition is extracted and subjected to careful purification and filtration, the rainwater full-load backflow influence in the deposition container is avoided, the rainwater after purification and filtration is stored, the water level is monitored by using a buoy induction trigger mechanism in a water storage container, the irrigation water pumping function is automatically started, and the rainwater storage type filtering irrigation mechanism is used for water delivery and irrigation of each regional branch in the landscape garden, the whole operation is more systematic, so that the workload of personnel is reduced, water resources are saved, and the aims of environmental protection and energy conservation are fulfilled.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a schematic view showing the internal structure of a settling tank and a storage tank according to the present invention.

Wherein: 1. garden building 2, building water receiving tank 3, road ditch

4. Ditch drain pipe 5, confluence pipe network 6, sedimentation tank

7. A gap sealing cover 8 of the sedimentation tank, a drainage trigger 9 of the sedimentation tank and a control cabinet

10. Filtration extraction pump 11, filter device 12, purification output pipe group

13. Reservoir 14, reservoir irrigation trigger 15, irrigate extraction pump

16. Irrigation pipe network 17, irrigation unit 18 and irrigation branch

19. Irrigation delivery pump 20, equipment room.

Detailed Description

The following provides a brief description of embodiments of the present invention with reference to the accompanying drawings.

As shown in fig. 1 and 2, the rainwater storage type filtering irrigation mechanism for landscape architecture is characterized in that: the garden building comprises a plurality of garden buildings 1, a plurality of road water channels 3, a confluence pipe network 5, a sedimentation tank 6, a sedimentation tank gap sealing cover 7, a sedimentation tank drainage trigger 8, a control cabinet 9, a filtering extraction pump 10, a filtering device 11, a purifying output pipe group 12, a water storage tank 13, a water storage tank irrigation trigger 14, an irrigation extraction pump 15, an irrigation pipe network 16, a plurality of irrigation units 17 and an equipment room 20, wherein a plurality of building water receiving tanks 2 are further arranged on any garden building 1, the building water receiving tanks 2 are distributed at the edge positions of the eaves of the garden building 1, one ends of the building water receiving tanks 2 are fixedly connected with the garden buildings 1, one ends of the building water receiving tanks 2 are inserted into the ground of the garden and connected with the confluence pipe network 5, the road water channels 3 are distributed under the ground of the two sides of all garden roads, and the road water channels 3 are fixedly connected with the ground, a plurality of canal drain pipes 4 are further arranged on any road canal 3, the distances among the canal drain pipes 4 which are the same are uniformly distributed at the lower part of the road canal 3, any one end of the canal drain pipe 4 is fixedly connected with the road canal 3, the other end of the canal drain pipe 4 is fixedly connected with a confluence pipe network 5, the confluence pipe network 5 and a sedimentation tank 6 are all located under the garden, the confluence pipe network 5 and the sedimentation tank 6 are fixedly connected with the garden under, a sedimentation tank notch sealing cover 7 is located on the garden ground at the upper part of the sedimentation tank 6, the sedimentation tank notch sealing cover 7 is detachably connected with the garden ground, a sedimentation tank drainage trigger 8 is located at a position close to the garden ground inside the sedimentation tank 6, the sedimentation tank drainage trigger 8 is fixedly connected with the sedimentation tank 6, and the sedimentation tank drainage trigger 8 is connected with a control cabinet 9 by a circuit, the switch board 9 is located on the upper portion of garden ground, the switch board 9 is fixedly connected with garden ground, the filtration extraction pump 10 is located on the position of the upper portion of garden ground close to the sedimentation tank 6, the filtration extraction pump 10 is fixedly connected with garden ground, the filter device 11 is located on one side of the filtration extraction pump 10, the filter device 11 is connected with the filtration extraction pump 10, the purification output pipe group 12 is located on one side of the filter device 11, one end of the purification output pipe group 12 is fixedly connected with the filter device 11, the other end of the purification output pipe group 12 is inserted into garden ground and connected with the water storage tank 13, the water storage tank 13 is located under garden, the water storage tank 13 is located on one side of the purification output pipe group 12, the water storage tank 13 is fixedly connected with garden ground, the water storage tank irrigation trigger 14 is located inside the water storage tank 13 and close to the position of garden ground, trigger 14 is irrigated to the tank and is fixed connection with tank 13, and trigger 14 is irrigated to the tank utilizes the circuit and is connected with switch board 9, irrigate extraction pump 15 and be located the position department that gardens ground upper portion is close to tank 13, irrigate extraction pump 15 and gardens ground and be fixed connection, irrigate pipe network 16 and distribute in the underground in gardens, irrigate pipe network 16 and gardens underground and be fixed connection, a plurality of irrigation units 17 distribute in the ground in gardens, a plurality of irrigation units 17 all are fixed connection with gardens ground, arbitrary irrigation branch 18 and irrigation delivery pump 19 still are equipped with on irrigation unit 17, irrigation branch 18 is located irrigation unit 17's inside, irrigation branch 18 is fixed connection with irrigation pipe network 16, irrigation delivery pump 19 is located the hookup location department that is close to irrigation branch 18 and irrigation pipe network 16, the irrigation delivery pump 19 is fixedly connected with the irrigation branch 18, the equipment room 20 is located on the ground of the garden, the equipment room 20 is located outside the control cabinet 9, the filtering extraction pump 10, the filtering device 11, the purifying output pipe group 12 and the irrigation extraction pump 15, and the equipment room 20 is fixedly connected with the ground of the garden. The sedimentation tank 6 is a stainless steel tank with a stainless steel net layer at the bottom. The sedimentation tank drainage trigger 8 and the water storage tank irrigation trigger 14 are both floating induction trigger devices. The control cabinet 9 is a PLC control device. The filtration extraction pump 10 and the irrigation extraction pump 15 are centrifugal liquid pressurizing pumps. The filtering device 11 is a multi-layer fiber net filtering purifier. The water storage tank 13 is a stainless steel tank. The irrigation delivery pump 19 is a vane type liquid pressure pump.

The working mode is as follows: the rainwater storage type filtering irrigation mechanism mainly comprises a plurality of garden buildings 1, a plurality of road water channels 3, a confluence pipe network 5, a sedimentation tank 6, a sedimentation tank gap cover 7, a sedimentation tank drainage trigger 8, a control cabinet 9, a filtering extraction pump 10, a filtering device 11, a purifying output pipe group 12, a water storage tank 13, a water storage tank irrigation trigger 14, an irrigation extraction pump 15, an irrigation pipe network 16, a plurality of irrigation units 17 and an equipment room 20, wherein the garden buildings 1 are distributed in garden areas of gardens, building water receiving grooves 2 are further arranged at edge positions of eaves of each garden building 1, the building grooves 2 are U-shaped structural grooves and can be convenient for bearing and leading out rainwater, the U-shaped structures can also avoid the accumulation of rainwater, the bottom end of each water receiving groove 2 is inserted into the ground and connected with the confluence pipe network 5, the road water channels 3 are respectively arranged at two sides of roads in the garden areas, also for rainwater collection, and a plurality of canal drains 4 are installed at the lower part of each road canal 3, the canal drains 4 are uniformly distributed at the lower part of the road canal 3 with the same distance, one end of each canal drain 4 is connected with the road canal 3, and the other end is connected with the underground collecting pipe network 5 of the garden, when it is rainy, the building water receiving tank 2 of each garden building 1 will collect rainwater and enter the underground collecting pipe network 5 of the garden along the pipeline, similarly, each road canal 3 is also used for rainwater collection, and the rainwater is introduced into the underground collecting pipe network 5 of the garden along each canal drain 4, and is collected by the collecting pipe network 5, and is introduced into the underground settling basin 6 of the garden for rainwater preliminary precipitation, the settling basin 6 is a stainless steel basin with a stainless steel mesh layer at the bottom, the device has the characteristics of corrosion resistance and difficult rusting, is convenient for storing rainwater, the stainless steel mesh layer at the bottom of the device is used for filtering and blocking large-particle impurities in rainwater introduced into the sedimentation tank 6 to play a role of sedimentation and adsorption, the sedimentation tank drainage trigger 8 is also arranged at a position close to the garden ground inside the sedimentation tank 6, the sedimentation tank drainage trigger 8 adopts a floating induction trigger device and is connected with a control cabinet 9 on the garden ground by using a circuit, the floating of the sedimentation tank drainage trigger 8 is lifted along with the lifting of the rainwater storage water level in the sedimentation tank 6, when the floating of the sedimentation tank drainage trigger 8 is triggered along with the water level, the water level in the sedimentation tank 6 reaches a limited extreme value, a signal is sent to the control cabinet 9, the control cabinet 9 adopts a PLC (programmable logic controller) control device, and two modes of numerical value setting automatic control and manual control of an operator can be realized, at this moment, the control cabinet 9 starts the filtration extraction pump 10, the filtration extraction pump 10 adopts a centrifugal liquid pressure pump, and has a powerful suction force, so as to pressurize and extract the rainwater, so as to pump and deliver the rainwater in the sedimentation tank 6, and deliver the rainwater to the filter device 11, the filter device 11 adopts a multi-layer fiber net filtration purifier, so as to refine and filter the rainwater primarily precipitated in the sedimentation tank 6, the multi-layer fiber net in the filter device 11 can effectively filter out impurities and micro-particles in the rainwater, so as to purify the rainwater, the rainwater filtered and purified by the filter device 11 is delivered to the underground water storage tank 13 of the garden along the purification output pipe group 12 for storage, the water storage tank 13 also adopts a stainless steel tank, so as to facilitate the storage of the filtered and purified rainwater, and a water storage tank irrigation trigger 14 is arranged at the position of the water storage tank 13 close to the garden ground, the water storage pool irrigation trigger 14 also adopts a floating induction trigger device and is connected with the control cabinet 9 by a line, the working principle of the water storage pool irrigation trigger is the same as that of a sedimentation pool drainage trigger 8 in a sedimentation pool 6, when the floating of the water storage pool irrigation trigger 14 is triggered along with the water level, the water level in the water storage pool 13 reaches a limited extreme value, a signal is sent to the control cabinet 9, the control cabinet 9 starts an irrigation extraction pump 15 at the moment, the irrigation extraction pump 15 also adopts a centrifugal liquid pressure pump to extract purified rainwater in the water storage pool 13 and convey the rainwater to an irrigation pipe network 16, the sedimentation pool drainage trigger 8 and the water storage pool irrigation trigger 14 are respectively used for monitoring the water levels in the sedimentation pool 6 and the water storage pool 13 to prevent backflow and blockage caused by over-full water level, the irrigation pipe network 16 is distributed and underground in a garden and leads to each irrigation unit 17, each irrigation unit 17 is further provided with an irrigation branch 18 and an irrigation delivery pump 19, the irrigation branch 18 is responsible for the circulation of irrigation rainwater in the area of the irrigation unit 17, the irrigation delivery pump 19 is installed at a position close to the connection position of the irrigation branch 18 and the irrigation pipe network 16, each irrigation delivery pump 19 adopts a vane type liquid pressurization pump, and the impeller type liquid pressurization pump can extract and pressurize the irrigation rainwater in the irrigation pipe network 16 and output the irrigation rainwater along the irrigation branch 18 so as to be used for irrigation supply; in addition, a sedimentation tank gap sealing cover 7 is arranged on the ground position at the upper part of the sedimentation tank 6, when the sedimentation tank 6 has little rain, a garden worker can open the sedimentation tank gap sealing cover 7 and put into the sedimentation tank 6 so as to clean and maintain impurities in the stainless steel net layer at the bottom of the sedimentation tank 6; the equipment room 20 is used for protecting the garden ground, and the control cabinet 9, the filtering extraction pump 10, the filtering device 11, the purifying output pipe group 12 and the irrigation extraction pump 15 are all installed inside the equipment room 20 in a centralized manner; the whole set of irrigation mechanism has clear structural thought and simple and convenient use and maintenance, collects rainwater in each building and road ditch in a landscape garden, leads the rainwater into an underground converging pipeline through a collecting branch for uniform collection, concentrates and converges the collected rainwater in a deposition container for preliminary precipitation and filtration, monitors the water level in the deposition container by using a float induction trigger mechanism, has the function of automatic water pumping, extracts the rainwater after preliminary precipitation and finely purifies and filters the rainwater, avoids the backflow influence of full load of the rainwater in the deposition container, stores the rainwater after purification and filtration, monitors the water level by using a float induction trigger mechanism in a water storage container, automatically starts an irrigation water pumping function, is used for water delivery irrigation of each regional branch in the garden, and is more systematic in overall operation, thereby reducing the workload of personnel, saving water resources and achieving the aims of environmental protection and energy saving.

In the description of the present invention, it should be noted that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "inner", "outer", "top", "bottom", "end", etc., indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

While one embodiment of the present invention has been described in detail, the description is only a preferred embodiment of the present invention and should not be taken as limiting the scope of the utility model. All equivalent changes and modifications made within the scope of the present invention shall fall within the scope of the present invention.

Claims (9)

1. The utility model provides a rainwater storage formula that is used for landscape architecture filters irrigation mechanism which characterized in that: the garden building water receiving device comprises a plurality of garden buildings, a plurality of road channels, a confluence pipe network, a sedimentation tank gap sealing cover, a sedimentation tank drainage trigger, a control cabinet, a filtering extraction pump, a filtering device, a purification output pipe group, a water storage tank irrigation trigger, an irrigation extraction pump, an irrigation pipe network, a plurality of irrigation units and an equipment room, wherein a plurality of building water receiving tanks are also arranged on any garden building, the plurality of building water receiving tanks are all distributed at the edge position of the eaves of the garden buildings, one end of any building water receiving tank is fixedly connected with the garden buildings, one end of the building water receiving tank is inserted into the garden underground and is connected with the confluence pipe network, the plurality of road channels are distributed underground at the two sides of all the garden roads, the plurality of road channels are all fixedly connected with the garden underground, a plurality of channel drainage pipes are also arranged on any road channel, and the plurality of channel drainage pipes are uniformly distributed at the lower part of the road channels at the same interval, one end of any water channel drain pipe is fixedly connected with the road water channel, the other end of the water channel drain pipe is fixedly connected with the confluence pipe network, the confluence pipe network and the sedimentation tank are all located under the garden, the confluence pipe network and the sedimentation tank are fixedly connected with the garden ground, the sedimentation tank notch sealing cover is located on the garden ground on the upper portion of the sedimentation tank, the sedimentation tank notch sealing cover is detachably connected with the garden ground, the sedimentation tank drainage trigger is located at a position close to the garden ground in the sedimentation tank, the sedimentation tank drainage trigger is fixedly connected with the sedimentation tank, the sedimentation tank drainage trigger is connected with the control cabinet by a circuit, the control cabinet is located on the upper portion of the garden ground, the control cabinet is fixedly connected with the garden ground, and the filtering and extracting pump is located at a position close to the sedimentation tank on the upper portion of the garden ground, the filtration extraction pump is fixedly connected with the garden ground, the filtering device is positioned on one side of the filtration extraction pump, the filtering device is connected with the filtration extraction pump, the purification output pipe group is positioned on one side of the filtering device, one end of the purification output pipe group is fixedly connected with the filtering device, the other end of the purification output pipe group is inserted into the garden ground and is connected with the water storage tank, the water storage tank is positioned under the garden, the water storage tank is positioned on one side of the purification output pipe group, the water storage tank is fixedly connected with the garden ground, the water storage tank irrigation trigger is positioned inside the water storage tank and is close to the garden ground, the water storage tank irrigation trigger is fixedly connected with the water storage tank, the water storage tank irrigation trigger utilizes a circuit and is connected with the control cabinet, the irrigation extraction pump is positioned on the upper part of the garden ground and is close to the water storage tank, irrigate the extraction pump and be fixed connection with gardens ground, irrigate the pipe network and distribute in the underground in gardens, irrigate the pipe network and be fixed connection with gardens underground, a plurality of irrigation units distribute on the ground in gardens, a plurality of irrigation units all are fixed connection with gardens ground, the equipment is arranged in the ground in gardens, and the equipment is arranged in the outside of switch board, filtration extraction pump, filter equipment, purification output nest of tubes, irrigation extraction pump between the equipment, be fixed connection with gardens ground between the equipment.

2. A stormwater storage filtration irrigation mechanism for use in landscape architecture as claimed in claim 1, wherein: the sedimentation tank is a stainless steel tank with a stainless steel net layer at the bottom.

3. A stormwater storage filtration irrigation mechanism for use in landscape architecture as claimed in claim 1, wherein: the sedimentation tank drainage trigger and the water storage tank irrigation trigger are both floating induction trigger devices.

4. A stormwater storage filtration irrigation mechanism for use in landscape architecture as claimed in claim 1, wherein: the control cabinet is a PLC control device.

5. A stormwater storage filtration irrigation mechanism for use in landscape architecture as claimed in claim 1, wherein: the filtration extraction pump and the irrigation extraction pump are centrifugal liquid pressurizing pumps.

6. A rainwater storage filtering irrigation mechanism for landscape architecture according to claim 1 and further comprising: the filtering device is a multi-layer fiber net filtering purifier.

7. A stormwater storage filtration irrigation mechanism for use in landscape architecture as claimed in claim 1, wherein: the water storage tank is a stainless steel tank.

8. A stormwater storage filtration irrigation mechanism for use in landscape architecture as claimed in claim 1, wherein: arbitrary still be equipped with on the irrigation unit and irrigate branch road and irrigate the delivery pump, irrigate the branch road and be located the inside of irrigation unit, irrigate the branch road and be fixed connection with the irrigation pipe network, irrigate the delivery pump and be located the hookup location department that is close to irrigation branch road and irrigation pipe network, irrigate the delivery pump and irrigate the branch road and be fixed connection.

9. A stormwater storage filtration irrigation mechanism for use in landscape architecture as claimed in claim 8, wherein: the irrigation delivery pumps are all impeller type liquid pressure pumps.

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