CN216532805U

CN216532805U - Automatic sun-proof outdoor irrigation flowerpot of keeping out wind based on photovoltaic solar energy power supply

Info

Publication number: CN216532805U
Application number: CN202123440452.6U
Authority: CN
Inventors: 张开生; 索浩博
Original assignee: Shaanxi University of Science and Technology
Current assignee: Nanjing Shangyin Technology Co.,Ltd.
Priority date: 2021-12-31
Filing date: 2021-12-31
Publication date: 2022-05-17
Anticipated expiration: 2031-12-31

Abstract

The utility model discloses an automatic wind-shielding sun-screening outdoor irrigation flowerpot based on photovoltaic solar power supply, which comprises a flowerpot body, wherein the flowerpot body comprises an inner pot and an outer pot, a movable slide rail device is fixed above the edge of the inner pot, a semi-cylindrical baffle is fixed on the movable slide rail device, a support rod and an automatic telescopic rod are fixed at the top of the semi-cylindrical baffle, a solar photovoltaic panel is supported and fixed by the support rod and the automatic telescopic rod, a wind direction sensor, a wind speed sensor and a first illumination sensor are installed at the edge of the solar panel, the inner pot is provided with an illumination sensor and a soil humidity sensor located in soil, the outer pot is divided into an upper layer and a lower layer, the upper part of the outer pot is used for collecting rainwater, a water storage tank is installed below the outer pot, and the water storage tank controls a spray head connected to the water storage tank through a microcontroller. The utility model does not need manual operation, thus greatly reducing the use of manpower.

Description

Automatic sun-proof outdoor irrigation flowerpot of keeping out wind based on photovoltaic solar energy power supply

Technical Field

The utility model relates to the technical field of flowerpots, in particular to an automatic wind-shielding and sun-shielding outdoor irrigation flowerpot based on photovoltaic solar power supply.

Background

With the improvement of living standard of people, various flowers also begin to advance the lives of people. The flower cultivation becomes the living hobbies of some people, the cultivated flowers not only enrich and regulate the cultural life of people, but also cultivate the temperament of people, but also have the following problems for the outdoor cultivated flowers at present:

1. in some high temperature weather, the sun can cause the death of flowers to the insolation of flowers, and the staff can be equipped with some baffles outside the planting basin of flowers, nevertheless will take off the baffle again under the not strong condition of sun, has improved staff's working strength greatly.

2. Some anti-solarization devices are powered by batteries, which must be replaced for a period of time, consuming energy and increasing the workload of the workers.

3. In windy weather, the flowers are likely to be blown out by strong wind.

4. In the weather with higher temperature, the stronger the transpiration of the plant, and less water in the plant, at this time, the plant needs to be watered, and the working strength of the staff is greatly improved.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model aims to provide the automatic wind shielding and sun blocking outdoor irrigation flowerpot based on photovoltaic solar power supply, which can be used for conveniently and automatically shielding wind, shielding rain, shading sun and irrigating outdoor flowers under the unattended condition of the outdoor flowers, so that the flowers can survive well, the whole process does not need manual operation, and the use of manpower is greatly reduced.

In order to achieve the purpose, the utility model adopts the technical scheme that:

an automatic wind-shielding sun-screening outdoor irrigation flowerpot based on photovoltaic solar power supply comprises a flowerpot body, the flowerpot body comprises an inner pot 1 and an outer pot 2, a movable slide rail device 3 is fixed above the edge of the inner pot 1, a semi-cylindrical baffle 4 is fixed on the movable slide rail device 3, a support rod 7 and an automatic telescopic rod 5 are fixed on the top of the semi-cylindrical baffle 4, a solar photovoltaic panel 6 is supported and fixed by the support rod 7 and the automatic telescopic rod 5, a wind direction sensor 9, a wind speed sensor 8 and a first illumination sensor 111 are arranged at the edge of the solar panel 6, the inner pot 1 is provided with a light sensor 11 and a soil humidity sensor 17 positioned in soil, the outer basin 2 is divided into an upper layer and a lower layer, rainwater is collected above the outer basin 2, a water storage tank 16 is installed below the outer basin 2, and the water storage tank 16 controls the spray head 12 connected to the water storage tank 16 to spray water through the microcontroller 19.

The upper part and the lower part of the outer basin 2 are isolated by a water-proof material, and a microcontroller 19 and a storage battery 18 are fixedly arranged below the outer basin 2.

The water storage tank 16 is connected with a hole above the outer basin 2, the water storage tank 16 is connected with one end of a water delivery pipe 14 through a water pump 15, the other end of the water delivery pipe 14 is connected with an electromagnetic valve 13, and the electromagnetic valve 13 is connected with the spray head 12.

The storage battery 18 is connected with the solar photovoltaic panel 6 and used for storing electric energy and supplying power to equipment.

The movable slide rail device comprises a circular slide rail 22, a bearing slide block 20 and a motor 21 fixed on the bearing slide block 20, wherein the motor 21 operates to drive the bearing slide block 20 to rotate around the circular slide rail 22, the bearing slide block 20 is divided into a first bearing slide block 201 and a second bearing slide block 202, and the motor 21 is divided into a first motor 211 arranged on the first bearing slide block 201 and a second motor 212 arranged on the second bearing slide block 202.

The automatic telescopic rod 5 comprises a third motor 213, the third motor 213 is connected with a brake 24 through a gear 23, the brake 24 is connected with a telescopic rod 27 through a screw 25, a nut 26 is arranged between the brake 24 and the telescopic rod 27, and an automatic telescopic rod housing 28 is arranged outside the automatic telescopic rod 5.

The support rod 7 is divided into a first support rod 71 and a second support rod 72 which are respectively positioned at two ends of the semi-cylindrical baffle 4 and fixedly support the solar photovoltaic panel 6, and the automatic telescopic rod 5 is positioned in the middle of the semi-cylindrical baffle 4 and fixedly supports the solar photovoltaic panel 6.

The illumination sensor 11 in the inner basin 1 comprises a second illumination sensor 112, a third illumination sensor 113, a fourth illumination sensor 114 and a fifth illumination sensor 115 which are respectively positioned above the soil and supported by the supporting column 10, and the illumination sensors 11 are all of waterproof models.

The microcontroller 19 selects a PLC (programmable logic controller), the data output ends of the first illumination sensor 111, the second illumination sensor 112, the third illumination sensor 113, the fourth illumination sensor 114, the fifth illumination sensor 115, the soil humidity sensor 17, the wind speed sensor 8 and the wind direction sensor 9 are connected with the data input end of the microcontroller 19, collected data are transmitted to the microcontroller 19, and the output end of the microcontroller (19) is connected with the first motor 211, the second motor 212, the third motor 213 and the water pump 15.

The utility model has the beneficial effects that:

1) the utility model can prevent the flowers planted in the flowerpot from being exposed to the sun when the sun is too strong.

2) The utility model can keep out the wind through the baffle plate in the windy weather, thereby avoiding the situation that the flowers planted in the flowerpot are blown out by the strong wind.

3) The utility model can collect rainwater, and can automatically irrigate when the soil humidity in the flowerpot is lower than a certain standard, thereby providing enough soil humidity for flowers in the flowerpot

4) The solar photovoltaic panel is used for supplying power, so that the effects of environmental protection and energy saving are achieved.

Drawings

FIG. 1 is a front view of the whole structure of the flowerpot of the present invention when sunlight is not shielded.

FIG. 2 is a front view of the whole structure of the flowerpot of the present invention when the flowerpot blocks sunlight.

Fig. 3 is a partial structural plan view of the flowerpot of the utility model.

Fig. 4 is a structural diagram of the movable rail device of the present invention.

Fig. 5 is a top view of the movable rail device of the present invention.

Fig. 6 is a structural view of the automatic telescopic rod of the present invention.

In the figure, 1, an inner basin, 2, an outer basin, 3, a movable sliding rail device, 4, a semi-cylindrical baffle, 5, an automatic telescopic rod, 6, a solar photovoltaic panel, 7, a support rod, 8, an air speed sensor, 9, a wind direction sensor, 10, a support, 11, a light sensor, 12, a spray head, 13, an electromagnetic valve, 14, a water pipe, 15, a water pump, 16, a water storage tank, 17, a soil humidity sensor, 18, a storage battery, 19, a microcontroller, 20, a bearing slide block, 21, a motor, 22, a circular sliding rail, 23, a gear, 24, a brake, 25, a screw, 26, a nut, 27, a telescopic pipe and 28, an automatic telescopic rod shell.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

With reference to fig. 1 to 6, the present invention provides a technical solution: an automatic wind-shielding sun-screening outdoor irrigation flowerpot based on photovoltaic solar power supply comprises an inner pot body 1 and an outer pot body 2, wherein a movable slide rail device 3 is fixed above the edge of the inner pot body 1, a semi-cylindrical baffle 4 is fixed on the movable slide rail device 3, a support rod 7 and an automatic telescopic rod 5 are fixed on the semi-cylindrical baffle 4, the support rod 7 and the automatic telescopic rod 5 support and fix a solar photovoltaic panel 6, a wind direction sensor 9, a wind speed sensor 8 and a light sensor 111 are installed at the edge of the solar panel, four support columns 10 are arranged inside the inner pot body 1 and respectively support four light sensors 11, a soil humidity sensor 17 is installed in soil of the inner pot body 1, the outer pot body 2 is divided into an upper layer and a lower layer, the upper part and the lower part of the outer pot body 2 are isolated through a water-insulating material, the upper part of the outer pot body 2 is used for collecting rainwater, a water storage tank 16 is arranged below the outer basin 2, the water storage tank 16 is connected with a hole channel above the outer basin, the input end of the spray head 12 is connected with the output end of the electromagnetic valve 13, the input end of the electromagnetic valve 13 is connected with the output end of a water pump 15 through a water conveying pipe 14, and the input end of the water pump 15 is connected with the water storage tank 16. A microcontroller 19 and a storage battery 18 are also fixedly arranged below the outer basin 2.

The movable slide rail device 3 is composed of a circular slide rail 22, a bearing slide block 20 and a motor 21 fixed on the bearing slide block 20, and the motor 21 operates to drive the bearing slide block 20 to rotate around the circular slide rail 22. The bearing slide block 20 is divided into a first bearing slide block 201 and a second bearing slide block 202, and the motor 21 is divided into a first motor 211 arranged on the first bearing slide block 201 and a second motor 212 arranged on the second bearing slide block 202.

The automatic telescopic rod 5 consists of a motor III 213, a gear 23, a brake 24, screws 25, nuts 26, a telescopic rod 27 and an automatic telescopic rod shell 28.

The number of the illumination sensors 11 is 5, wherein the first illumination sensor 111 is located at the top end, the second illumination sensor 112, the third illumination sensor 113, the fourth illumination sensor 114 and the fifth illumination sensor 115 are respectively located above soil and supported by support columns, and the illumination sensors 11 are all waterproof models.

The storage battery 18 is connected with the solar photovoltaic panel 6 and used for storing electric energy and supplying power to the first motor 211, the second motor 212, the third motor 213, the water pump 15, the first illumination sensor 111, the second illumination sensor 112, the third illumination sensor 113, the fourth illumination sensor 114, the fifth illumination sensor 115, the soil humidity sensor 17, the wind direction sensor 9 and other devices.

The microcontroller 19 is a PLC programmable logic controller.

The data output ends of the first illumination sensor 111, the second illumination sensor 112, the third illumination sensor 113, the fourth illumination sensor 114, the fifth illumination sensor 115, the humidity sensor, the wind direction sensor 9 and the like are connected with the data input end of the microcontroller 19, and the collected data can be transmitted to the microcontroller 19.

The first motor 211, the second motor 212, the third motor 213 and the water pump 15 are controlled by the microcontroller 19.

The automatic telescopic rod 5 can be controlled by the microcontroller 19 to automatically extend and retract so as to adjust the facing direction of the solar photovoltaic panel 6, so that the solar photovoltaic panel 6 can better face sunlight.

The working principle of the utility model is as follows:

1. when the first illumination sensor 111 detects that the illumination intensity is lower than a set value, the illumination intensity is suitable for plant growth at present, at this time, the microcontroller 19 controls the first motor 211 and the second motor 212 to drive the first bearing slider 201 and the second bearing slider 202 to move on the circular ring-shaped slide rail, so as to drive the semi-cylindrical baffle 4 fixed on the first bearing slider 201 and the second bearing slider 202 to rotate, when the microcontroller 19 detects that the data measured by the second illumination sensor 112, the third illumination sensor 113, the fourth illumination sensor 114 and the fifth illumination sensor 115 are the same as the data measured by the first illumination sensor 111 or when the semi-cylindrical baffle 4 rotates around the inner pot for a circle, the data measured by the most illumination sensors in the pot is the same as the data measured by the first illumination sensor 111, the semi-cylindrical baffle 4 deviates from the sun, and sunlight can irradiate plants, at this time, the electric telescopic rod 27 is extended to adjust the position of the solar photovoltaic panel 6 to face the sun, as shown in fig. 1.

2. When the first illumination sensor 111 detects that the illumination intensity is higher than a set value, the illumination intensity is not suitable for plant growth at present, at this time, the microcontroller 19 controls the first motor 211 and the second motor 212 to drive the first bearing slider 201 and the second bearing slider 202 to move on the circular sliding rail, so as to drive the semi-cylindrical baffle 4 fixed on the first bearing slider 201 and the second bearing slider 202 to rotate, when the microcontroller 19 detects that data measured by the second illumination sensor 112, the third illumination sensor 113, the fourth illumination sensor 114 and the fifth illumination sensor 115 are the same as data measured by the first illumination sensor 111 or when the semi-cylindrical baffle 4 rotates around the inner pot for a circle, data measured by the least number of illumination sensors in the pot is the same as data measured by the first illumination sensor 111, the semi-cylindrical baffle 4 faces the sun, so as to achieve the effect of shielding the sun, at this time, the automatic telescopic rod 5 retracts to adjust the position of the solar photovoltaic panel 6 to face the sun, as shown in fig. 2.

3. When the wind speed sensor 8 detects that the wind speed exceeds a set value, and the wind direction sensor 9 detects the current wind direction, the microcontroller 19 controls the first motor 211 and the second motor 212 to drive the first bearing slider 201 and the second bearing slider 202 to move on the circular sliding rail, so as to drive the semi-cylindrical baffle 4 fixed on the first bearing slider 201 and the second bearing slider 202 to rotate until the semi-cylindrical baffle 4 faces the wind direction of the incoming wind, and perform wind shielding treatment.

4. When the data detected by the wind speed sensor 8 and the light sensor 11 exceed the set value at the same time, the microcontroller 19 firstly controls the semi-cylindrical baffle 4 to perform the wind shielding treatment.

5. When the soil humidity sensor 17 monitors that the soil humidity is lower than a set value, the microcontroller 19 controls the electromagnetic valve 13 to be opened, controls the water pump 15 to start working, pumps water from the water storage tank 16, and sprays the water from the spray head 12 after the water flows through the water conveying pipe 14 to irrigate the plants in the flowerpot.

6. The illumination sensor 11 detects the illumination intensity between 8 am and 6 pm, and is in a sleep state for the rest of time.

Claims

1. The utility model provides an automatic sunscreen outdoor irrigation flowerpot keeps out wind based on photovoltaic solar energy power supply, which is characterized in that, includes the flowerpot body, the flowerpot body includes that interior basin (1) and outer basin (2) are two-layer, interior basin (1) edge top be fixed with removal slide rail device (3), be fixed with semi-cylindrical shape of face baffle (4) on the removal slide rail device (3), semi-cylindrical shape of face baffle (4) top is fixed with bracing piece (7) and automatic telescopic link (5), bracing piece (7) and automatic telescopic link (5) support and are fixed solar photovoltaic board (6), install wind direction sensor (9), air velocity transducer (8) and illumination sensor (111) at the edge of solar photovoltaic board (6), interior basin (1) sets up illumination sensor (11) and is located soil moisture sensor (17) in the soil, outer basin (2) divide into two-layer from top to bottom, the upper part of the outer basin (2) is used for collecting rainwater, the lower part of the outer basin (2) is provided with a water storage tank (16), and the water storage tank (16) controls a spray head (12) connected to the water storage tank (16) to spray water through a microcontroller (19).

2. The automatic wind and sun blocking outdoor irrigation flowerpot based on photovoltaic solar power supply is characterized in that the upper part and the lower part of the outer pot (2) are isolated by water insulation materials, a microcontroller (19) and a storage battery (18) are fixedly arranged below the outer pot (2), and the storage battery (18) is connected with a solar photovoltaic panel (6) and used for storing electric energy and supplying power to equipment.

3. The automatic wind-shielding and sun-shielding outdoor irrigation flowerpot based on photovoltaic solar power supply as claimed in claim 1, wherein the water storage tank (16) is connected with the upper part of the outer pot (2) through a pipeline, the water storage tank (16) is connected with one end of a water pipe (14) through a water pump (15), the other end of the water pipe (14) is connected with the electromagnetic valve (13), and the electromagnetic valve (13) is connected with the spray head (12).

4. The automatic wind-shielding and sun-shielding outdoor irrigation flowerpot based on photovoltaic solar power supply according to claim 1, wherein the movable sliding rail device comprises a circular sliding rail (22), a bearing sliding block (20) and a motor (21) fixed on the bearing sliding block 20, the motor (21) operates to drive the bearing sliding block (20) to rotate around the circular sliding rail (22), the bearing sliding block (20) is divided into a first bearing sliding block (201) and a second bearing sliding block (202), and the motor (21) is divided into a first motor (211) installed on the first bearing sliding block (201) and a second motor (212) installed on the second bearing sliding block (202).

5. The automatic wind-shielding and sun-shielding outdoor irrigation flowerpot based on photovoltaic solar power supply as claimed in claim 1, wherein the automatic telescopic rod (5) comprises a third motor (213), the third motor (213) is connected with a brake (24) through a gear (23), the brake (24) is connected with the telescopic rod (27) through a screw (25), a nut (26) is arranged between the brake (24) and the telescopic rod (27), and an automatic telescopic rod housing (28) is arranged on the outer side of the automatic telescopic rod (5).

6. The automatic wind-shielding and sun-shielding outdoor irrigation flowerpot based on photovoltaic solar power supply according to claim 1, wherein the supporting rod (7) is divided into a first supporting rod (71) and a second supporting rod (72) which are respectively arranged at two ends of the semi-cylindrical baffle (4) and fixedly support the solar photovoltaic panel (6), and the automatic telescopic rod (5) is arranged in the middle of the semi-cylindrical baffle (4) and fixedly supports the solar photovoltaic panel (6).

7. The automatic wind and sun blocking outdoor irrigation flowerpot based on photovoltaic solar power supply is characterized in that the illumination sensors (11) in the inner pot (1) comprise a second illumination sensor (112), a third illumination sensor (113), a fourth illumination sensor (114) and a fifth illumination sensor (115), which are respectively positioned above soil and supported by a supporting column (10), and the illumination sensors (11) are all of waterproof type.

8. The automatic wind-shielding and sun-shielding outdoor irrigation flowerpot based on photovoltaic solar power supply according to claim 1, wherein a PLC (programmable logic controller) is selected for the microcontroller (19), data output ends of the first illumination sensor (111), the second illumination sensor (112), the third illumination sensor (113), the fourth illumination sensor (114), the fifth illumination sensor (115), the soil humidity sensor (17), the wind speed sensor (8) and the wind direction sensor (9) are connected with a data input end of the microcontroller (19), collected data are transmitted to the microcontroller (19), and an output end of the microcontroller (19) is connected with the first motor (211), the second motor (212), the third motor (213) and the water pump (15).