CN215957340U - Intelligent building three-dimensional green decorative wall maintenance system that plants - Google Patents

Abstract

The utility model discloses an intelligent building three-dimensional green planting decorative wall maintenance system which comprises a rack, a spraying structure and an irrigation structure, wherein the rack comprises stand columns and a cross rod, the two stand columns are arranged in parallel, the cross rod is arranged between the two stand columns through a bearing support, plant pots are arranged on the cross rod at intervals through binding belts, and the tail end of the cross rod is driven by a motor; the spraying structure comprises a top plate arranged at the top of the upright post, an electric motor, a twisting rod and a winch, wherein the electric motor is arranged on the top plate, and the twisting rod is arranged at the output end of the electric motor. The utility model is provided with the rack combined spraying structure with automatic up-down lifting, and can carry out relatively independent remote angle control and adjustment on the growth angle of the plant flowerpot on the wall; the illumination requirement is set remotely, and the singlechip controls the spherical LED lamp bank to supplement light according to the set information. Compare in traditional manual regulation mode, it is more convenient, intelligent to use, and the precision is higher, is applicable to indoor to specific illumination's demand.

Description

Intelligent building three-dimensional green decorative wall maintenance system that plants

Technical Field

The utility model relates to the field of building intellectualization, in particular to a system for maintaining a three-dimensional green plant decorative wall of an intelligent building.

Background

At present, in many public shop buildings, green plants are usually planted, and three-dimensional green plant walls are arranged to beautify the use environment of the buildings, and the growth of the plants needs specific illumination and moisture spraying systems, and indoor green plant walls, for example, need specific illumination intensity and specific illumination angle, and whether the standard of illumination conditions can have certain influence on the growth environment and the result of the plants, and whether moisture supply is timely or not can also influence the growth quality of the plants, thereby influencing the use environment of the internal environment of the buildings. Therefore, an intelligent and convenient illumination adjusting system is needed to improve the test accuracy.

SUMMERY OF THE UTILITY MODEL

The utility model provides an intelligent building three-dimensional green plant decorative wall maintenance system which is simple in structure, convenient and quick to use and maintain and aims to solve the high technical problem.

According to one aspect of the utility model, the intelligent building three-dimensional green planting decorative wall maintenance system comprises a rack, a spraying structure and a pouring structure, wherein the rack comprises stand columns and a cross rod, the two stand columns are arranged in parallel, the cross rod is arranged between the two stand columns through a bearing support, plant pots are arranged on the cross rod at intervals through a binding belt, and the tail end of the cross rod is driven by a motor; the spraying structure comprises a top plate, an electric motor, a twisting rod and winches, wherein the top plate is arranged at the top of the stand column, the electric motor is arranged on the top plate, the twisting rod is arranged at the output end of the electric motor, the two winches are arranged on the twisting rod at intervals, each winch is provided with a stranded wire, and a spraying stabilizing pipe is arranged on each stranded wire; watering structure include the booster pump, with stand parallel arrangement's standpipe and water knockout drum, the external water pipe of booster pump and with the standpipe links to each other, the standpipe pass through the connecting rod with the frame links to each other, the interval is provided with a plurality of watering mouths on the standpipe, the water knockout drum with the watering mouth links to each other, the external a plurality of water hoses that divide of water knockout drum.

On the basis of the scheme, the number of the spraying stabilizing pipes is preferably two, and the two spraying pipes are arranged in parallel at intervals and are connected through a connecting vertical rod.

On the basis of the scheme, preferably, a watering water-saving pipe is arranged in each plant pot, and a hole with the diameter of 3mm is formed in the watering water-saving pipe.

Preferably on the basis of the scheme, the LED lamp further comprises a power supply, a spherical LED lamp bank, an illumination intensity sensor and an illumination angle sensor, wherein the power supply is externally connected with the illumination intensity sensor and the illumination angle sensor through a controller, and the spherical LED lamp bank is connected with the power supply through a relay group.

On the basis of the scheme, the spherical LED lamp bank comprises a rotary base and a bulb, the bulb is arranged on the rotary base, and the rotary base is arranged on the cross rod and driven by a rotary motor.

On the basis of the scheme, preferably, the number of the cross rods is multiple, and the cross rods are arranged in the vertical direction of the upright posts at intervals in parallel.

The utility model discloses an intelligent building three-dimensional green plant decorative wall maintenance system which has the following beneficial effects:

1. the wall body externally hung shaft with the rotatable support is arranged, and relatively independent remote angle control and adjustment can be carried out on the growth angle of the plant flowerpot on the wall body.

2. The illumination requirement is set remotely, and the singlechip controls the spherical LED lamp bank to supplement light according to the set information. Compare in traditional manual regulation mode, it is more convenient, intelligent to use, and the precision is higher, is applicable to indoor to specific illumination's demand.

3. An environment-friendly and energy-saving plant root maintenance and blade spraying dust removal system is arranged.

Drawings

FIG. 1 is a frame structure diagram of an intelligent building three-dimensional green plant decorative wall maintenance system of the present invention;

FIG. 2 is a partial installation block diagram of the rack and spray structure of the present invention;

FIG. 3 is a block diagram of the mounting of the frame and spray structure of the present invention;

FIG. 4 is a front view of the spray configuration of the present invention;

FIG. 5 is a side view of the spray configuration of the present invention;

FIG. 6 is an enlarged view of the structure of the plant pot of the present invention;

fig. 7 is a connection diagram of a light control part of the intelligent building three-dimensional green plant decorative wall maintenance system.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the utility model but are not intended to limit the scope of the utility model.

Referring to fig. 1 and fig. 2, 3, 4 and 5, the system for maintaining an intelligent building three-dimensional green plant decorative wall according to the present invention includes a rack, a spraying structure and a watering structure, wherein the rack includes two columns 11 and a cross bar 12, the two columns 11 are arranged in parallel, the cross bar 12 is erected between the two columns 11 through a bearing support 13, plant pots 15 are installed on the cross bar 12 at intervals through a binding belt 14, and the end of the cross bar 12 is driven by a motor 16; the spraying structure comprises a top plate 21 arranged on the top of the upright post 11, an electric motor 22, a twisting rod 23 and a winch 24, wherein the electric motor 22 is arranged on the top plate 21, the twisting rod 23 is arranged at the output end of the electric motor 22, two winches 24 are arranged on the twisting rod 23 at intervals, the winch 24 is provided with a twisted wire 25, and a spraying stabilizing pipe 26 is arranged on the twisted wire 25; the irrigation structure comprises a booster pump 31, a vertical pipe 32 and a water distributor 33, wherein the vertical pipe 32 and the water distributor 33 are arranged in parallel with the upright column 11, the booster pump 31 is externally connected with a water pipe and is connected with the vertical pipe 32, the vertical pipe 32 is connected with the rack through a connecting rod 34, a plurality of irrigation openings 35 are formed in the vertical pipe 32 at intervals, the water distributor 33 is connected with the irrigation openings 35, and the water distributor 33 is externally connected with a plurality of water distribution hoses 36.

During the use, roof 21 erects at the top of stand 11 as the supporter, is located entire system's the aforesaid, and encorbelments and stretches out a certain distance, and electric motor 22 drives the capstan winch 24 rotation on hank pole 23 and the hank pole 23 to stranded conductor 25 moves, drives spray stabilization pipe 26 and moves from top to bottom.

The water is pumped into the vertical pipe 32 by the booster pump 31, passes through the irrigation opening 35 on the vertical pipe 32 and then is conveyed into each flowerpot by the water separator 33 through the water separating hose 36, and the irrigation water-saving pipe 17 is arranged in each plant pot 15, and the irrigation water-saving pipe 17 is provided with a hole with the diameter of 3mm, so that the water can be atomized and sprayed onto each plant through the hole.

When the spraying stabilizing pipe is used, the electric motor 22 can drive the twisting rod 23 and the winch 24 on the twisting rod 23 to rotate to realize the up-and-down movement of the spraying stabilizing pipe 26, and the spraying can be realized through the rubber pipe structure, so that the spraying function is realized for green plants from top to bottom in a three-dimensional mode.

Preferably, the number of the spray stabilizing pipes 26 is two, the two spray pipes are arranged in parallel at intervals and connected through a connecting vertical rod 27, and the spray stabilizing pipe 26 is provided with an atomizing nozzle 28, as shown in fig. 5.

In order to improve the utilization rate of the whole space, four cross bars 12 are arranged on a vertical column 11, the cross bars 12 are arranged in the vertical direction of the vertical column 11 at intervals in parallel, and each cross bar 12 is provided with a plurality of plant pots 15, so that the planting of a plurality of layers of plant pots 15 can be realized, the whole space utilization rate is fully improved, and the specific structure is shown in fig. 1, 3 and 4.

As shown in fig. 7, the present invention further includes a power supply 1, a spherical LED lamp set 6, an illumination intensity sensor 5 and an illumination angle sensor 4, wherein the power supply 1 is externally connected to the illumination intensity sensor 5 and the illumination angle sensor 4 through a controller 3, the spherical LED lamp set 6 is connected to the power supply 1 through a relay set 7, the spherical LED lamp set 6 includes a rotating base and a bulb, the bulb is mounted on the rotating base, the rotating base is mounted on the cross bar 12 and is driven by a rotating motor, and the controller 3 is the controller 3 with a built-in wireless transceiver.

During the use, the user sets up illumination intensity and irradiation angle through little program or controller 3, because controller 3 automatic operation is corresponding program of leading-in, illumination intensity inductor 5 and irradiation angle sensor 4 transmit current illumination intensity and irradiation angle for controller 3 to compare with the setting value, make following logical judgement:

when the illumination intensity is lower than a set value, the number of the closed output ends of the switching value of the controller 3 is increased, the number of the closed relays is increased, the number of the lighted LED lamp arrays is increased, the power is increased, the illumination intensity is increased, and the number of the closed output ends is stopped to be increased until the obtained illumination intensity reaches the set value, so that the illumination intensity is kept to be close to the set value;

when the irradiation angle of the lamp group is above the set position, the output end of the controller 3 outputs a certain number of pulse signals to the driver of the rotating motor to control the rotating motor to rotate forward for a certain angle, so that the irradiation angle of the lamp group is reduced; when the lamp is below the set position, the pulse output end of the controller 3 outputs a certain number of pulse signals to the driver of the rotating motor to control the rotating motor to rotate reversely by a certain angle, so that the irradiation angle of the lamp group is adjusted upwards;

when the irradiation angle of the lamp group is at the left side of the set position, the pulse output end of the controller 3 outputs a certain number of pulse signals to the driver of the rotating motor to control the rotating motor to rotate forward for a certain angle, so that the irradiation angle of the lamp group is adjusted to the right side; when the lamp group irradiation angle is on the right side of the set position, the pulse output end of the single chip microcomputer outputs a certain number of pulse signals to the rotating motor driver, the rotating motor is controlled to rotate reversely by a certain angle, and the lamp group irradiation angle is adjusted to the left;

the controller 3 feeds back the current illumination information to the user through the RS485 communication module, and the user can remotely monitor the current illumination parameter through the small program and can correspondingly adjust the parameters of the controller 3 at any time according to the requirements.

The utility model discloses an intelligent building three-dimensional green plant decorative wall maintenance system which has the following beneficial effects:

1. the wall body externally hung shaft with the rotatable support is arranged, and relatively independent remote angle control and adjustment can be carried out on the growth angle of the plant flowerpot on the wall body.

2. The illumination requirement is set remotely, and the singlechip controls the spherical LED lamp bank to supplement light according to the set information. Compare in traditional manual regulation mode, it is more convenient, intelligent to use, and the precision is higher, is applicable to indoor to specific illumination's demand.

3. An environment-friendly and energy-saving plant root maintenance and blade spraying dust removal system is arranged.

Finally, the method of the present application is only a preferred embodiment and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The intelligent building three-dimensional green planting decorative wall maintenance system is characterized by comprising a rack, a spraying structure and an irrigation structure, wherein the rack comprises stand columns and cross rods, the two stand columns are arranged in parallel, the cross rods are arranged between the two stand columns through bearing supports, plant pots are arranged on the cross rods at intervals through binding belts, and the tail ends of the cross rods are driven by motors; the spraying structure comprises a top plate, an electric motor, a twisting rod and winches, wherein the top plate is arranged at the top of the stand column, the electric motor is arranged on the top plate, the twisting rod is arranged at the output end of the electric motor, the two winches are arranged on the twisting rod at intervals, each winch is provided with a stranded wire, and a spraying stabilizing pipe is arranged on each stranded wire; watering structure include the booster pump, with stand parallel arrangement's standpipe and water knockout drum, the external water pipe of booster pump and with the standpipe links to each other, the standpipe pass through the connecting rod with the frame links to each other, the interval is provided with a plurality of watering mouths on the standpipe, the water knockout drum with the watering mouth links to each other, the external a plurality of water hoses that divide of water knockout drum.

2. The system for maintaining the stereoscopic green plant decorative wall of the intelligent building as claimed in claim 1, wherein the number of the spraying stabilizing pipes is two, and the two spraying stabilizing pipes are arranged in parallel at intervals and connected through a connecting vertical rod.

3. The system as claimed in claim 2, wherein each of the plant pots contains a water-saving irrigation pipe with a 3mm hole.

4. The system as claimed in claim 1, further comprising a power source, a spherical LED light set, an illumination intensity sensor and an illumination angle sensor, wherein the power source is externally connected to the illumination intensity sensor and the illumination angle sensor through a controller, and the spherical LED light set is connected to the power source through a relay set.

5. The system as claimed in claim 4, wherein the spherical LED light group comprises a rotary base and a bulb, the bulb is mounted on the rotary base, and the rotary base is mounted on the cross bar and driven by a rotary motor.

6. The system for maintaining the stereoscopic green-plant decorative wall of the intelligent building as claimed in claim 1, wherein the number of the cross bars is plural, and the cross bars are installed in the vertical direction of the vertical columns at intervals in parallel.

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