CN222235745U - A green belt structure for ecological garden landscape design - Google Patents

Abstract

The utility model provides an ecological landscape design green belt structure, which belongs to the technical field of landscape green belt equipment and comprises a reservoir, a filtering device and a watering device, wherein the filtering device is arranged on the reservoir, the watering device comprises a submersible pump, a main pipeline and a plurality of annular pipes, the submersible pump is arranged in the reservoir, the main pipeline is connected with the annular pipes in a penetrating way, and a plurality of water outlets are formed in the inner sides of the annular pipes. According to the utility model, in rainy days, rainwater is permeated and filtered by the filtering device and then stored in the reservoir, the root system of the green plant is inserted into the center of the annular ring, and then the main pipeline and the annular pipe are buried below soil through soil, so that the overall aesthetic degree is improved, and when the green plant needs to be irrigated, the water outlet holes formed in the inner side of the annular pipe can irrigate the periphery of the root system of the green plant directly, so that the root system of the green plant can be irrigated directly, the hidden irrigation has good overall aesthetic degree, and water resources are saved.

Description

Ecological landscape designs greenbelt structure

Technical Field

The utility model relates to the technical field of landscape green belt equipment, in particular to a green belt structure for ecological landscape design.

Background

The green belt refers to a strip-shaped belt for greening. Can eliminate visual fatigue, purify the environment, beautify the city, reduce effects such as traffic accident, occupy irreplaceable important position in the city, at present, gardener when watering the greenbelt, cause a large amount of water source extravagant easily, and the greenbelt is not enough to the rainwater utilization, because the urban greenbelt is more, brings great working strength for gardener. For this reason, a new solution needs to be designed to solve.

The utility model discloses a CN 211185247U's document provides a greenbelt structure for ecological garden landscape design, the device can have through being equipped with the catch basin at the inboard edge of greenbelt, can have and collect the unnecessary water of rainfall or watering in-process, effectively reduce the water source extravagant, cooperation and water collecting tank are linked together spray tube and shower nozzle, can water the greenbelt voluntarily, reduce garden operation personnel's work load, through being equipped with baffle and sliding connection's the filter that rotates the connection at the top of filter vat, can effectively filter the water source of collecting, improve the quality of water of watering, through the top fixedly connected with solar cell panel at the shower nozzle, accord with environmental protection and energy saving's policy more.

The prior art scheme can realize the beneficial effects related to the green plants through the structure of the prior art, but has the following defects that the whole aesthetic degree is relatively poor due to the fact that the device supports the water pump and the spray nozzle above the green plants, and meanwhile, in the actual irrigation process, part of water is adhered to the branches or the blades of the green plants due to the fact that the device adopts a spray mode from top to bottom, so that the water in the water collecting tank is wasted, and when part of root systems are deeper, more water is needed in the irrigation mode from top to bottom to thoroughly irrigate soil around the green plants, and water resources are wasted in the large-scale irrigation process, so that the irrigation cannot be directly carried out on the root system parts of the green plants. In view of this, we propose a green belt structure for ecological landscape design.

Disclosure of utility model

Aiming at the defects existing in the prior art, the utility model aims to provide an ecological landscape design green belt structure, which solves the technical problems in the prior art, improves the overall aesthetic degree, and can directly carry out annular irrigation on the root system part of the green plant, thereby saving the technical effect of water resources.

In order to achieve the above purpose, the utility model provides an ecological landscape design green belt structure, which comprises a reservoir, a filtering device and a watering device, wherein the filtering device is arranged on the reservoir, the watering device comprises a submersible pump, a main pipeline and a plurality of branch pipelines, the submersible pump is arranged in the reservoir, the main pipeline is connected with a plurality of annular pipes in a penetrating way, a plurality of water outlets are formed in the inner side of each annular pipe, and the main pipeline and the annular pipes are paved between a soil layer of the green belt and the filtering device.

Through adopting above-mentioned technical scheme, the immersible pump setting is in the cistern, and water supply section and trunk line through-connection, in order to supply water to a plurality of ring pipes through the trunk line, when rainy weather, the rainwater is through permeating and storing in the inside of cistern after filtering through filter equipment, and insert the root system of planting in green in the center of ring, then bury trunk line and ring pipe in the below of soil through earth, in order to improve holistic aesthetic measure, and when need planting the watering to green, the apopore of seting up in the ring pipe inboard can be directly irrigated around planting the root system to green, can be directly irrigated to the root system of planting, hidden watering is whole beautifully spent, and practice thrift the water resource more.

Furthermore, a plurality of water discharge holes are formed in two sides of the reservoir.

Through adopting above-mentioned technical scheme, a plurality of water discharge holes have been seted up in the both sides of cistern, after the water level in the cistern reached the position of water discharge hole, the water discharge hole made the outside overflow of the water in the cistern, avoided the rainwater to pile up the root system that causes green planting to soak the rotten root that causes in water for a long time.

Furthermore, the irrigation device further comprises a plurality of branch pipelines, the main pipeline and the annular pipe are in through connection through the branch pipelines, and two ends of the branch pipelines are respectively in threaded connection with the main pipeline and the annular pipe.

Through adopting above-mentioned technical scheme, link up through the branch pipe between trunk line and the ring pipe to the both ends and the ring pipe and trunk line threaded connection of branch pipe, and then can adjust the distance of the ring pipe of trunk line both sides through changing the branch pipe, in order to satisfy the planting interval that different green plants.

Further, the filter device comprises a filter plate and a filter layer, wherein the filter plate is arranged in the reservoir, at least one group of filter layers are arranged, and the filter layer is arranged at the top of the filter plate.

Further, the filter layer comprises quartz sand, porcelain sand and granite stone, and the quartz sand, the porcelain sand and the granite stone are sequentially overlapped from bottom to top.

Through adopting above-mentioned technical scheme, carry out the filtration of macroparticle through granite stone, rethread porcelain sand is to the granule filtration, filters the debris of macroparticle through quartz sand at last, and the mesh infiltration through the filter is in the cistern at last.

Furthermore, the main pipeline and the branch pipeline and the annular pipe are made of hard PVC materials.

Through adopting above-mentioned technical scheme, trunk line and branch pipe and ring pipe are all made for the PVC material of stereoplasm to avoid the hose to be flattened the back and lead to the rivers unsmooth.

The one or more technical schemes provided by the utility model have at least the following technical effects or advantages:

1. According to the utility model, in rainy days, rainwater is permeated and filtered by the filtering device and then stored in the reservoir, the root system of the green plant is inserted into the center of the annular ring, then the main pipeline and the annular pipe are buried below soil through soil, so that the overall aesthetic degree is improved, and when the green plant needs to be irrigated, the periphery of the root system of the green plant can be irrigated directly through the water outlet holes formed in the inner side of the annular pipe, so that the root system of the green plant can be irrigated directly, the hidden irrigation has good overall aesthetic degree, and water resources are saved;

2. According to the utility model, the two sides of the reservoir are provided with the plurality of water discharge holes, when the water level in the reservoir reaches the position of the water discharge holes, the water in the reservoir overflows outwards through the water discharge holes, so that root rot caused by long-term soaking of the green plant root system in water due to rainwater accumulation is avoided;

3. according to the utility model, the main pipeline and the annular pipe are connected in a penetrating manner through the branch pipeline, and the two ends of the branch pipeline are in threaded connection with the annular pipe and the main pipeline, so that the distance between the annular pipes at the two sides of the main pipeline can be adjusted by replacing the branch pipeline, and the planting distance between different green plants can be met.

Drawings

Fig. 1 is a schematic structural view of a green belt structure designed for ecological landscape architecture in an embodiment of the present utility model;

fig. 2 is a cross-sectional view of a green belt structure for ecological landscape design in an embodiment of the present utility model;

Fig. 3 is a sectional view showing a part of the structure of a green belt for ecological landscape design in accordance with the embodiment of the present utility model;

FIG. 4 is a schematic view of a watering device according to an embodiment of the present utility model;

Fig. 5 is a schematic structural view of a filter plate according to an embodiment of the present utility model.

The reference numerals in the figure are 1, a reservoir, 101, a water drain hole, 2, a watering device, 201, a submersible pump, 202, a main pipeline, 203, a branch pipeline, 204, an annular pipe, 2041, a water outlet hole, 3, a filtering device, 301, a filter plate, 302, quartz sand, 303, porcelain sand, 304 and granite stone.

Detailed Description

The utility model is described in further detail below with reference to the drawings.

Embodiment 1, combine the fig. 1-5 to show, this embodiment provides an ecological landscape design greenbelt structure, including cistern 1, filter equipment 3 and watering device 2, filter equipment 3 sets up on cistern 1, watering device 2 includes immersible pump 201 and trunk line 202 and a plurality of ring pipe 204, immersible pump 201 sets up in cistern 1, the last through-connection of trunk line 202 has a plurality of ring pipe 204, a plurality of apopores 2041 have been seted up to ring pipe 204 inboard, the soil horizon of greenbelt and filter equipment 3 are laid to trunk line 202 and ring pipe 204.

Referring to fig. 1 to 4, the submersible pump 201 is disposed in the reservoir 1, and the water supply section is connected with the main pipe 202 in a penetrating manner, so that water is supplied to the plurality of annular pipes 204 through the main pipe 202, in rainy days, rainwater is permeated and filtered by the filtering device 3 and stored in the reservoir 1, and the root system of the green plant is inserted into the center of the annular ring 204, then the main pipe 202 and the annular pipe 204 are buried under the soil through soil, so that the overall aesthetic degree is improved, and when the green plant is required to be irrigated, the water outlet 2041 formed in the inner side of the annular pipe 204 can irrigate the periphery of the root system of the green plant directly, the root system of the green plant can be irrigated directly, the hidden irrigation is good in overall aesthetic degree, and water resources are saved.

Both sides of the reservoir 1 are provided with a plurality of water discharge holes 101.

Referring to fig. 1, a plurality of water drainage holes 101 are formed in two sides of a reservoir 1, when the water level in the reservoir 1 reaches the position of the water drainage holes 101, the water in the reservoir 1 overflows outwards through the water drainage holes 101, and root rot caused by long-term soaking of green plant roots in water due to accumulation of rainwater is avoided.

The irrigation device 2 further comprises a plurality of branch pipelines 203, the main pipeline 202 and the annular pipe 204 are connected through the branch pipelines 203, and two ends of the branch pipelines 203 are respectively connected with the main pipeline 202 and the annular pipe 204 in a threaded mode.

Referring to fig. 4, the main pipe 202 and the annular pipe 204 are connected through the branch pipe 203, and two ends of the branch pipe 203 are connected with the annular pipe 204 and the main pipe 202 through threads, so that the distance between the annular pipes 204 on two sides of the main pipe 202 can be adjusted by replacing the branch pipe 203, so as to meet the planting intervals of different green plants.

The filter device 3 comprises a filter plate 301 and a filter layer, the filter plate 301 is arranged in the reservoir 1, the filter layer is at least provided with a group, and the filter layer is arranged at the top of the filter plate 301. In the above structure, the filter layer comprises quartz sand 302, porcelain sand 303 and granite stone 304, and the quartz sand 302, porcelain sand 303 and granite stone 304 are sequentially overlapped from bottom to top.

Referring to fig. 2 and 3, large particles are filtered through granite stones 304, then the medium particles are filtered through porcelain sand 303, finally the small particles of impurities are filtered through quartz sand 302, and finally the impurities permeate into the reservoir 1 through meshes of the filter plate 301.

The main pipe 202, the branch pipes 203 and the annular pipe 204 are made of hard PVC materials so as to avoid unsmooth water flow caused by flattened hoses.

The utility model has the working principle that in rainy days, rainwater is filtered by large particles through granite stones 304, then is filtered by porcelain sand 303, finally is filtered by small particles through quartz sand 302, finally is permeated into a reservoir 1 through meshes of a filter plate 301 and is stored, when green plants are required to be irrigated, a submersible pump 201 is started, water is supplied to an annular pipe 204 through a main pipe 202 and a branch pipe 203, water outlet holes 2041 formed in the inner side of the annular pipe 204 can irrigate the periphery of the root system of the green plants directly, the root system of the green plants can be irrigated directly, the hidden irrigation is good in overall attractiveness, and water resources are saved.

Claims (6)

1. A green belt structure for ecological garden landscape design, characterized in that it includes a water reservoir, a filtering device and an irrigation device, the filtering device is arranged on the water reservoir, the irrigation device includes a submersible pump, a main pipeline and a plurality of annular pipes, the submersible pump is arranged in the water reservoir, the main pipeline is connected with a plurality of annular pipes, the inner side of the annular pipes is provided with a plurality of water outlet holes, and the main pipeline and the annular pipes are laid between the soil layer of the green belt and the filtering device. 2. The green belt structure of an ecological garden landscape design according to claim 1 is characterized in that a plurality of drainage holes are provided on both sides of the water reservoir. 3. An ecological garden landscape design green belt structure according to claim 1, characterized in that: the irrigation device also includes a plurality of branch pipes, the main pipe and the annular pipe are connected through the branch pipes, and the two ends of the branch pipes are respectively threadedly connected to the main pipe and the annular pipe. 4. An ecological garden landscape design green belt structure according to claim 1, characterized in that: the filtering device includes a filter plate and a filter layer, the filter plate is arranged in the water reservoir, at least one filter layer is arranged, and the filter layer is arranged on the top of the filter plate. 5. The green belt structure of ecological garden landscape design according to claim 4 is characterized in that the filter layer includes quartz sand, porcelain sand and granite pebbles, and the quartz sand, porcelain sand and granite pebbles are stacked in sequence from bottom to top. 6. The green belt structure of ecological garden landscape design according to claim 1 is characterized in that the main pipe, branch pipes and annular pipe are all made of hard PVC material.