CN114897635A - Ecological simulation method and system for green garden of high-rise building - Google Patents

Abstract

The invention discloses a method and a system for ecological simulation of a green garden of a high-rise building, wherein the method comprises the following steps: standing an information integration rod at a simulation point A, and mounting a holographic fan and an audio module on the information integration rod; a field control unit is arranged to be interconnected with all the holographic fans, and a preselected cloud platform is used for binding a plurality of remote terminals; the cloud platform is configured to: receiving geographic information and plant population information of a target site, and recording the geographic information and the plant population information as garden data; searching matched inhabiting animal population information on the network according to garden data; calling animal images and sound effect audios in an audio database according to the inhabiting animal population information; the field control device set is configured as follows: and receiving the matched inhabiting animal population information, the animal images and the sound effect audio from the cloud platform, and controlling the holographic fan and the sound module to respectively display the animal images and the sound effect audio according to a pre-recorded playing mechanism. This application has the effect to the green garden ecological mode improvement of high-rise building.

Description

Ecological simulation method and system for green garden of high-rise building

Technical Field

The application relates to the technical field of intelligent gardens, in particular to a green garden ecological simulation method and system for high-rise buildings.

Background

With the progress of urbanization, vegetation coverage and the like are greatly reduced in each administrative area. In order to improve urban environment, the urban greening requirements are put forward and paid attention to; urban landscaping, in addition to road greening, setting up parks, green streets, etc., is currently also integrated into buildings, such as: greening roof gardens, galleries and balconies of high-rise buildings and the like; the means can enrich the pitching landscape of the city and compensate the greening area occupied by the building.

The green garden (namely, the green garden) of the high-rise building is limited in site area and area position, is limited in ecological population form, can not achieve self ecological balance like a naturally formed forest land, meets growth requirements, gives visitors experience a little of 'death', and is insufficient in interactive experience, so that the novel technical scheme is provided.

Disclosure of Invention

In order to improve the green garden ecological mode of the high-rise building, the application provides a green garden ecological simulation method and system of the high-rise building.

In a first aspect, the application provides a high-rise building green garden ecological simulation method, which adopts the following technical scheme:

a green garden ecological simulation method for high-rise buildings comprises the following steps:

sq I, planning points, which comprises the following steps:

selecting a plurality of coordinate points as simulation points A on a target site;

standing an information integration rod at a simulation point A, and mounting a holographic fan and an audio module on the information integration rod;

sq two, build green garden intelligent control network, it includes: laying a field control unit, interconnecting with all holographic fans, and binding a plurality of remote terminals by a preselected cloud platform;

and Sq III, ecological simulation configuration, which comprises the following steps:

the cloud platform is configured to: the system is used for receiving geographic information of a target site and transplanted plant population information and recording the geographic information and the transplanted plant population information as garden data;

searching matched inhabiting animal population information on the network according to garden data; and the number of the first and second groups,

calling animal images and sound effect audios in a pre-established audio database according to the inhabiting animal population information;

the field control device set is configured as follows: the system is used for receiving matched inhabitation animal population information, animal images and sound effect audios from the cloud platform, and controlling the holographic fan and the sound module to display the animal images and the sound effect audios respectively according to a pre-recorded playing mechanism.

Optionally, the play mechanism pre-entered by the field control unit includes: biological habit simulation logic; the biological habit simulation logic comprises:

identifying the population information of the inhabiting animals to obtain habit information of various animals; wherein, the habit information comprises an active time and an active season;

obtaining current-date, judging whether the current-date belongs to the search.

Acquiring real-time current-time, judging whether the current-time belongs to time or not, and playing the animal image and the audio at preset frequency if the current-time belongs to time.

Optionally, the layout of the simulation points includes: laying simulation points A according to the plant population distribution of the target field;

the play mechanism that the field control unit was typeeed in advance, it still includes:

and acquiring the plant population of the area corresponding to each simulation point A from the cloud platform, and matching the corresponding animal image and the sound effect audio according to the plant population.

Optionally, the play mechanism pre-entered by the field control unit further includes: green mimicry logic; the green mimicry logic comprises:

obtaining the opening time exposing-hours of a target site;

and judging whether the current-time belongs to the exposing-hours or not, and if not, stopping executing the biological habit simulation logic.

Optionally, the layout of the simulation points further includes: distributing motion perception units corresponding to the simulation points A one by one on a plurality of passing paths of the target field;

the field control device set is configured as follows: the simulation point A is used for establishing a one-to-one corresponding relation between the motion sensing unit and the simulation point A; and the number of the first and second electrodes,

the green mimicry logic further comprises:

the feedback of the motion sensing unit when the motion sensing unit does not sense the movement of the object is marked as Null;

judging whether current-time = null for the appointed motion perception unit, if so, stopping playing the animal image and/or sound effect audio of the corresponding simulation point A; if not, the duration T is maintained.

Optionally, the layout of the simulation points further includes:

building a node pipeline for connecting adjacent simulation points A; the node pipeline is arranged in an attaching mode to the surface layer of the planting soil, at least one wiring channel used for wiring of the holographic fan and the sound module is arranged, and a water flowing channel communicated with the infusion pump is arranged; and the number of the first and second groups,

constructing drip irrigation sub-networks spread from node pipelines at a simulation point A, and installing valve groups on liquid inlets of the drip irrigation sub-networks;

build green garden intelligence and control network, it includes: and establishing a control link between the field control unit and the valve bank and between the field control unit and the infusion pump.

Optionally, the ecological simulation configuration further includes:

the field control device set is configured as follows: the system is used for calling a matched water and fertilizer supplement scheme from a database according to the acquired plant population information of the area corresponding to each simulation point A; and the number of the first and second groups,

and controlling the matched valve group according to the water and fertilizer supplement scheme.

In a second aspect, the present application provides a system applied to the ecological simulation method for a green garden of a high-rise building, which adopts the following technical solutions:

a system applied to the ecological simulation method of the green garden of the high-rise building comprises the following steps:

the cloud platform is used for receiving geographic information of a target site and transplanted plant population information and recording the geographic information and the transplanted plant population information as garden data; searching matched inhabiting animal population information on the network according to garden data; calling animal images and sound effect audios in a pre-established audio database according to the inhabiting animal population information;

the sound-light simulation module comprises a motion perception unit corresponding to each simulation point A, and a holographic fan and an audio module which are arranged on each information integration rod;

and the field control unit is used for receiving the matched inhabited animal population information, the animal images and the sound effect audios from the cloud platform, and controlling the holographic fan and the sound module to respectively display the animal images and the sound effect audios according to a pre-recorded playing mechanism.

Optionally, an object carrying plate is fixed at the upper end of the information integration rod, and the holographic fan is arranged on the object carrying plate and covered with a transparent spherical shell; the carrying plate is provided with a plurality of through holes, and adaptive light-transmitting plates are fixed in the through holes;

the mosquito catching and killing assembly is installed below the carrying plate, and insect attracting light of the mosquito catching and killing assembly is light penetrating through the through hole.

Optionally, a ring groove is formed around the side wall of the carrying plate;

the mosquito killing assembly comprises an insect killing power grid and a safety ring, the insect killing power grid is fixed at the lower part of the carrying plate, and the start-stop control unit of the insect killing power grid is connected to the field control unit;

the safe ring is arranged around the side wall of the carrying plate, the upper edge of the safe ring extends inwards to form a clamping plate with an adaptive ring groove, and the lower edge of the safe ring extends inwards to form a backflow preventing plate; the safety ring comprises a left ring and a right ring which are matched and detachably connected with each other;

the insecticidal electric net is located above the backflow preventing plate.

In summary, the present application includes at least one of the following beneficial technical effects: on one hand, the method constructs an acousto-optic response mechanism in a green garden, analyzes plant species, simulates matched animal activities by acousto-optic shadow, improves activity loss caused by simple ecological population of a high-rise building garden, and enhances attraction and interaction effect on tourists; on the other hand, the basis of realizing an acousto-optic response mechanism can be utilized to supply nutrients to different plant groups in the garden in a targeted manner by matching with fertilizer application equipment; meanwhile, the invasion of mosquitoes introduced by plants to tourists in summer can be reduced by utilizing the basis of an optical response mechanism.

Drawings

Fig. 1 is a schematic view of an embodiment of the present application in a garden;

FIG. 2 is a schematic view of the structure of the information integration rod and its attachment of the present application;

FIG. 3 is a schematic structural view of FIG. 2 after the spherical shell is covered;

fig. 4 is a partial structural schematic view of fig. 2.

Description of reference numerals: 1. an information integration rod; 2. a loading plate; 21. a through hole; 3. a holographic fan; 31. a spherical shell; 4. an insecticidal power grid; 5. a safety ring; 51. clamping a plate; 52. an anti-backflow plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a green garden ecological simulation method for a high-rise building.

The ecological simulation method for the green garden of the high-rise building comprises the following steps: sq I, laying simulation points; sq II, building a green garden intelligent control network; and Sq III, ecological simulation configuration.

On one hand, the method constructs an acousto-optic response mechanism in a green garden, analyzes plant species, simulates matched animal activities by acousto-optic shadow, improves activity loss caused by simple ecological population of a high-rise building garden, and enhances attraction and interaction effect on tourists; on the other hand, the basis of realizing an acousto-optic response mechanism can be utilized to be matched with fertilizing equipment to supply nutrients to different plant groups in the garden in a targeted manner.

It can be understood that the interaction effect of the method with the tourists is better at night.

Referring to fig. 1 and 2, in an embodiment of the present method, the first Sq includes:

1) selecting a plurality of coordinate points as a simulation point A on a target site;

2) and standing an information integration rod 1 at a simulation point A, and installing a holographic fan 3 and an audio module on the information integration rod 1.

The target site is a selected garden site; the coordinate point is a three-dimensional coordinate position point, the origin of the three-dimensional system can be established according to a two-dimensional construction drawing of the garden, and the coordinate point is not only used for guiding the layout of the simulation point A in the construction stage, but also used as a mark position in an electronic map established by the cloud platform, so that the monitoring and application of related facilities are facilitated.

The information integration rod 1 is a carrier for integrating and installing various devices corresponding to the simulation point a, and is specifically described in another embodiment of the system, and thus, the description thereof is omitted. The holographic fan 3 and the sound module are in the same way.

It should be noted that the height of the information-integrating rod 1 should be close to the height of the nearby plant, so as to make the image displayed by the holographic fan 3 more effective.

The above Sq II comprises: and a field control unit is arranged, is interconnected with each holographic fan 3, and is bound with a plurality of remote terminals by a preselected cloud platform.

The field control unit can select an intelligent control gateway; it can be used as a simple control for data interchange and other facilities of the subsequent simulation point a. And the cloud platform is an internet of things cloud platform. The remote terminal machine, such as a computer, is arranged in a management room of a green garden of a high-rise building, so that the on-site supervision of workers is facilitated.

The above Sq three, it includes:

1) the cloud platform is configured to: the system is used for receiving geographic information of a target site and transplanted plant population information and recording the geographic information and the transplanted plant population information as garden data;

searching matched inhabiting animal population information on the network according to garden data; and the number of the first and second groups,

and calling animal images and sound effect audios in a pre-established audio database according to the inhabiting animal population information.

It can be understood that garden data is uploaded by the staff through the terminal; the transplanted plant population information at least comprises the plant category and the distribution information of the relative target field.

And searching the population information of the inhabiting animals on the network, namely searching animals possibly inhabiting by taking the plant species name and the like as key words, screening according to the preset screening standard of a worker, and then searching the associated data of the animals by the name of the animals to obtain the population information. Among these, screening criteria are such as: and establishing animal body type and risk degree (eliminating animals such as snakes) screening tables.

Regarding animal images and sound effect audio in the audio database: the animal image, which in this embodiment is pre-modulated, is used as the corresponding control data displayed by the holographic fan 3, that is, the animal image is formed dynamically by combining the LED lamps on the fan blades of the rotating holographic fan 3; popular understanding, namely a higher-level singlechip marquee instruction. And sound effect audio, such as a chirping sound of the animal captured at the net. The animal image and the sound effect audio are bound with the animal name and are prestored in the database to be called.

2) The field control device is configured as follows: the system is used for receiving matched inhabitation animal population information, animal images and sound effect audios from the cloud platform, and controlling the holographic fan 3 and the sound module to respectively display the animal images and the sound effect audios according to a pre-recorded playing mechanism.

It can be understood that the field control units corresponding to the target sites perform data interaction with the cloud platform through written communication protocols; and the cloud platform obtains the animal image and the sound effect audio according to the trigger program and then sends the animal image and the sound effect audio to the matched field control unit.

According to the content, after the application is applied to the green garden of the high-rise building, the garden data of the green garden are uploaded to the corresponding cloud platform by the staff, the cloud platform can call the animal images and the sound effect audio according to the garden data and send the animal images and the sound effect audio to the matched field control unit, so that the field control unit controls the holographic fan 3 and the sound module according to the preset playing mechanism to generate the light, shadow and sound effects of animal activities, a more vivid and lively garden environment is simulated, the defect caused by the simplicity of the ecological population of the green garden of the high-rise building is overcome, and the attraction and interaction effects of tourists are improved.

It will be appreciated that to some extent the holographic fan 3 can be substituted for a conventional garden light fixture, i.e. to improve the functionality of the fixture in the garden.

In an embodiment of the method, the play mechanism pre-recorded by the field control unit includes: biological habit simulation logic.

Biological habit simulation logic, in particular:

s101, identifying population information of the inhabiting animals to obtain habit information of various animals;

wherein, the habit information comprises an active time and an active season.

It should be noted that, when the above information cannot be obtained by the on-line search; means for manually supplementing the information are provided, such as sending a list of information to the terminal for supplementation.

S102, obtaining current-date, judging whether the current-date belongs to the search.

S103, acquiring real-time current-time, judging whether the current-time belongs to time or not, and playing the animal image and the audio at preset frequency if the current-time belongs to time.

According to the above, the method can firstly judge whether various animals are in the active season and time relative to the current time according to the existing data, and can simulate the sound-light-shadow information of the corresponding animals only after the judgment is passed, so that the ecological environment built by the method in cooperation with the garden is more real, namely the ecological simulation (simulation) effect is better.

In another embodiment of the method, in order to enhance the ecological simulation effect, the following settings are made:

1. the above Sq1 further includes: and laying simulation points A according to the plant population distribution of the target field.

Such as: a point A is arranged in the shrub area; a point A is arranged in the near water plant area; and in the flower area, arranging a point A and the like.

2. The play mechanism that the field control unit was typeeed in advance, it still includes:

and acquiring the plant population of the area corresponding to each simulation point A from the cloud platform (namely, matching garden data and simulation point coordinate data), and matching the corresponding animal image and sound effect audio according to the plant population.

According to the method, the animal shadow is displayed not randomly, but is matched according to the plant population of each simulation point, so that the simulation effect is better.

For the above matching scheme, for example: and taking the plant with the largest area of the simulation point A as the matching basis.

In another embodiment of the method, the play mechanism pre-recorded by the field control unit of the method further includes: green mimicry logic.

It should be noted that the green color mentioned above refers to green color in terms of noise pollution and energy consumption; not the actual color. The arrangement is made because although the method can create a good environment by matching the sound and light images with the original plant groups of the garden, the method inevitably causes the increase of energy consumption and the noise pollution; to mitigate the above-described effects of the method, the method configures green mimicry logic.

Green mimicry logic, specifically:

s201, obtaining the opening time exposing-hours of a target site;

s202, judging whether current-time belongs to the exposing-hours or not, and if not, stopping executing the biological habit simulation logic.

According to the arrangement, only the working personnel need to record the opening time of the garden in advance, and the acousto-optic influence mechanism of the method can automatically sleep in the time of closing the garden, so that the monitoring of the working personnel is facilitated, and the energy conservation is facilitated.

Further, the first Sq further includes: and arranging motion sensing units corresponding to the simulation points A one by one on a plurality of passing paths of the target field.

Correspondingly, the field control computer set is configured as follows: the simulation point A is used for establishing a one-to-one corresponding relation between the motion sensing unit and the simulation point A; and, green mimicry logic for execution, further comprising:

s203, recording the feedback of the motion sensing unit when the motion sensing unit does not sense the movement of the object as Null;

s204, judging whether current-time = null is true for the appointed (different sound-light-image display modes and different selections of the user) motion perception unit, and if yes, stopping playing the animal image and/or sound effect audio of the corresponding simulation point A; if not, maintaining the time length T.

The motion sensing unit is, for example, a pressure sensor embedded in the floor tile. For the response duration T when the motion sensing unit feeds back non-Null, it is a selected value, such as: for 10 min.

According to the above, the designated motion sensing unit takes the garden entering channel as an example, and the corresponding sound/light effect is displayed only when the visitor enters the garden and is detected by the motion sensing unit, otherwise, the sound/light effect is turned off, so that the energy consumption of the garden when no one is in the garden and few people are in the garden can be reduced.

The method for improving the garden ecology is not only limited to the utilization of the acousto-optic shadow information of animals, but also comprises the maintenance of plants, and specifically comprises the following steps:

planning point layout, which further comprises:

building a node pipeline for connecting adjacent simulation points A; the node pipeline is arranged in a manner of being attached to the surface layer of the planting soil, at least one routing channel (power line and data transmission line) used for routing the holographic fan 3 and the sound module is arranged, and a water routing channel communicated with the infusion pump is arranged, for example, a pipe structure is obtained by parallelly connecting double pipes; and the number of the first and second groups,

and (2) constructing a drip irrigation sub-network (formed by a plurality of drip irrigation pipes which are interconnected) spread from the node pipeline at the simulation point A, and installing a valve group on a liquid inlet of each drip irrigation sub-network.

Correspondingly, build green garden intelligence and control the network, it includes: and establishing a control link between the field control unit and the valve bank and between the field control unit and the infusion pump.

For the holographic fan 3 and the sound module of each simulation point A, wiring power supply and data interaction are required to be laid originally; according to the method, the other path can be expanded along the routing to form the infusion network, and the routing of the valve group can be just returned into the routing channel together without being additionally arranged; due to the arrangement requirement of the simulation point A, the infusion net arranged along the routing line can relatively completely cover the garden and has high adaptability.

It can be understood that the lines of the holographic fans 3, the sound modules, the valve banks and the like are complicated after going out of the plant range along the node pipelines, so that an integration box can be arranged at the outlet of the pipelines and used for integrating a power supply wiring structure, a signal adapter and the like.

In addition, the infusion pump is not only communicated with a water source, but also provides a water source for the plants; the device can also be an infusion pump and water and fertilizer integrated device for conveying water and fertilizer.

In another embodiment of the method, the Sq three, ecological simulation configuration of the method further comprises:

the field control device set is configured as follows: the system is used for calling a matched water and fertilizer supplement scheme (pre-input by workers) from a database according to the acquired plant population information of the area corresponding to each simulation point A; and controlling the matched valve group according to the water and fertilizer supplement scheme.

According to the method, the water and fertilizer supplement scheme of each simulation point A can be determined by means of the process data of the animal sound-light-shadow playing mechanism; meanwhile, each drip irrigation sub-network is spread by taking the simulation point A as the starting point, so that the implementation condition of water and fertilizer supplement is met. Therefore, the method can also make up the problem of nutrient supply imbalance caused by insufficient soil layer structure for the garden of the high-rise building, and improve the ecological structure of the garden.

The embodiment of the application discloses ecological simulation system for green garden of high-rise building.

Referring to fig. 1 and 2, the high-rise building green garden ecological simulation system includes:

the cloud platform is used for receiving geographic information of a target site and transplanted plant population information and recording the geographic information and the transplanted plant population information as garden data; searching matched inhabiting animal population information on the network according to garden data; calling animal images and sound effect audios in a pre-established audio database according to the inhabiting animal population information;

the sound-light simulation module comprises a motion perception unit corresponding to each simulation point A, a holographic fan 3 and an audio module, wherein the holographic fan 3 and the audio module are arranged on each information integration rod 1;

and the field control unit is used for receiving the matched inhabited animal population information, the animal images and the sound effect audios from the cloud platform, and controlling the holographic fan 3 and the sound module to respectively display the animal images and the sound effect audios according to a pre-recorded playing mechanism.

In another embodiment of the system, the infusion pump and the valve bank are also used as the components of the system and are connected to the field control unit to realize a targeted water and fertilizer supplement scheme in the method. The implementation steps and effects have already been explained above and are therefore not described in detail.

In one embodiment of the system, the information integration rod 1 is provided with the following settings:

referring to fig. 2 and 3, the lower end of the information integration rod 1 is fixed with a bottom plate, and four mounting holes are uniformly formed in the bottom plate; when the installation is carried out, the anchor rod and the bolt penetrate through the installation hole to fix the bottom plate at the designated position.

An object carrying plate 2 is fixed at the upper end of the information integration rod 1; the holographic fan 3 is mounted on the object plate 2 and is covered by a transparent spherical shell 31, such as a glass spherical shell. A plurality of through holes 21 are uniformly formed in the object carrying plate 2, and adaptive light transmitting plates such as glass plates are fixed in the through holes 21.

Referring to fig. 2 and 4, a mosquito catching and killing assembly is installed below the carrying plate 2, and includes: insecticidal net 4 and safety ring 5.

The insecticidal power grid 4 is fixed on the lower part of the carrying plate 2 by an insulated bracket matching bolt, and the start-stop control unit (namely, a power switch circuit) of the insecticidal power grid is connected to the field control unit.

The safety ring 5 is arranged around the side wall of the object carrying plate 2 and is divided into a left ring and a right ring which are symmetrical, and the left ring and the right ring are mutually fixed in an inserting mode. A clamping plate 51 is formed on the safety ring 5 and extends inwards along the upper edge, and an anti-backflow plate 52 is formed on the lower edge and extends inwards.

The side wall of the object carrying plate 2 is provided with a ring groove matched with the clamping plate 51; the insecticidal electric net 4 is positioned above the backflow prevention plate 52.

The arrangement can utilize the holographic fan 3 for creating light shadow as a trap lamp; the insect killing electric net 4 is used for killing mosquitoes attracted to the through holes 21, and the mosquito carcasses are subjected to the action of gravity and are not hindered, and can be used as biological fertilizer when directly falling to the vicinity of the chemical simulation point A; meanwhile, due to the existence of the safety ring 5, the user is generally not easy to contact the insecticidal power grid 4, and the safety is higher; in addition, the arrangement of the anti-backflow plate 52 can reduce the probability that rainwater and the like flow upwards under the action of wind in rainy and snowy weather, and prevent the insecticidal power grid 4 from being damaged due to direct contact with water.

On the basis of the information integration rod 1, the field control unit of the system is further configured to: and the method is used for judging whether current-date belongs to summer and autumn or not, and if so, controlling the starting and stopping of the insecticidal power grid 4 along with the corresponding holographic fan 3. Therefore, the application can also reduce the invasion of the tourists by the mosquitoes introduced by the plants in summer on the basis of the light response mechanism.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A green garden ecological simulation method for high-rise buildings is characterized by comprising the following steps:

sq I, planning points, which comprises the following steps:

selecting a plurality of coordinate points as simulation points A on a target site;

an information integration rod is erected at the simulation point A, and a holographic fan (3) and an audio module are arranged on the information integration rod;

sq two, build green garden intelligent control network, it includes: a field control unit is arranged, is interconnected with each holographic fan (3), and is bound with a plurality of remote terminals by a preselected cloud platform;

and Sq III, ecological simulation configuration, which comprises the following steps:

the cloud platform is configured to: the system is used for receiving geographic information of a target site and transplanted plant population information and recording the geographic information and the transplanted plant population information as garden data;

searching matched inhabiting animal population information on the network according to garden data; and the number of the first and second groups,

calling animal images and sound effect audios in a pre-established audio database according to the inhabiting animal population information;

the field control device set is configured as follows: the system is used for receiving matched inhabitation animal population information, animal images and sound effect audios from the cloud platform, and controlling the holographic fan (3) and the sound module to display the animal images and the sound effect audios respectively according to a pre-recorded playing mechanism.

2. The ecological simulation method for the green garden of the high-rise building according to claim 1, wherein: the play mechanism that the field control unit was typeeed in advance, it includes: biological habit simulation logic; the biological habit simulation logic comprises:

identifying the population information of the inhabiting animals to obtain habit information of various animals; wherein, the habit information comprises an active time and an active season;

obtaining current-date, judging whether the current-date belongs to the search.

Acquiring real-time current-time, judging whether the current-time belongs to time or not, and playing the animal image and the audio at preset frequency if the current-time belongs to time.

3. The ecological simulation method for the green garden of the high-rise building, according to claim 1, wherein the simulation points are distributed, and the method comprises the following steps: laying simulation points A according to the plant population distribution of the target field;

the play mechanism that the field control unit was typeeed in advance, it still includes:

and acquiring the plant population of the area corresponding to each simulation point A from the cloud platform, and matching the corresponding animal image and the sound effect audio according to the plant population.

4. The ecological simulation method for the green garden of the high-rise building according to claim 2, wherein the play mechanism pre-recorded by the field control unit further comprises: green mimicry logic; the green mimicry logic comprises:

obtaining the opening time exposing-hours of a target site;

and judging whether the current-time belongs to the exposing-hours or not, and if not, stopping executing the biological habit simulation logic.

5. The ecological simulation method for the green garden of the high-rise building, according to claim 4, wherein the simulation points are distributed, and the method further comprises the following steps: distributing motion perception units corresponding to the simulation points A one by one on a plurality of passing paths of the target field;

the field control device set is configured as follows: the simulation point A is used for establishing a one-to-one corresponding relation between the motion sensing unit and the simulation point A; and the number of the first and second electrodes,

the green mimicry logic further comprises:

the feedback of the motion sensing unit when the motion sensing unit does not sense the movement of the object is marked as Null;

judging whether current-time = null for the appointed motion perception unit, if so, stopping playing the animal image and/or sound effect audio of the corresponding simulation point A; if not, the duration T is maintained.

6. The ecological simulation method for the green garden of the high-rise building, according to claim 3, wherein the simulation points are distributed, and the method further comprises the following steps:

building a node pipeline for connecting adjacent simulation points A; wherein, the node pipeline is arranged by being attached to the surface layer of the planting soil, at least one routing channel used for routing the holographic fan (3) and the sound module is arranged, and a water channel communicated with the infusion pump is arranged; and the number of the first and second groups,

constructing drip irrigation sub-networks spread from node pipelines at a simulation point A, and installing valve groups on liquid inlets of the drip irrigation sub-networks;

build green garden intelligence and control network, it includes: and establishing a control link between the field control unit and the valve bank and between the field control unit and the infusion pump.

7. The ecological simulation method for the green garden of the high-rise building, according to claim 6, wherein the ecological simulation configuration further comprises:

the field control device set is configured as follows: the system is used for calling a matched water and fertilizer supplement scheme from a database according to the acquired plant population information of the area corresponding to each simulation point A; and the number of the first and second groups,

and controlling the matched valve group according to the water and fertilizer supplement scheme.

8. A system for ecological simulation of a green garden of a high-rise building according to any one of claims 1 to 7, comprising:

the cloud platform is used for receiving geographic information of a target site and transplanted plant population information and recording the geographic information and the transplanted plant population information as garden data; searching matched inhabiting animal population information on the network according to garden data; calling animal images and sound effect audios in a pre-established audio database according to the inhabiting animal population information;

the sound-light simulation module comprises a motion perception unit corresponding to each simulation point A, a holographic fan (3) and an audio module, wherein the holographic fan (3) and the audio module are installed on each information integration rod;

and the field control unit is used for receiving the matched inhabitation animal population information, the animal images and the sound effect audio from the cloud platform, and controlling the holographic fan (3) and the sound module to respectively display the animal images and the sound effect audio according to a pre-recorded playing mechanism.

9. The system of claim 8, wherein: an object carrying plate (2) is fixed at the upper end of the information integration rod, and the holographic fan (3) is arranged on the object carrying plate (2) and covered with a transparent spherical shell (31); the carrying plate (2) is provided with a plurality of through holes (21), and adaptive light-transmitting plates are fixed in the through holes (21);

the mosquito catching and killing assembly is arranged below the carrying plate (2), and the insect trapping light of the mosquito catching and killing assembly is light penetrating through the through hole (21).

10. The system of claim 9, wherein: a ring groove is arranged around the side wall of the carrying plate (2);

the mosquito killing assembly comprises an insect killing electric net (4) and a safety ring (5), the insect killing electric net (4) is fixed at the lower part of the carrying plate (2), and a start-stop control unit of the insect killing electric net is connected to the field control unit;

the safety ring (5) is arranged around the side wall of the carrying plate (2), the upper edge of the safety ring extends inwards to form a clamping plate (51) with an adaptive ring groove, and the lower edge of the safety ring extends inwards to form a backflow preventing plate (52); the safety ring (5) comprises a left ring and a right ring which are matched and detachably connected with each other;

the insecticidal electric net (4) is positioned above the backflow preventing plate (52).

Images