CN213127278U - Flowerpot rotating device - Google Patents

Abstract

The utility model relates to a flowerpot rotary device, include: the flowerpot comprises a shell, a tray for placing a flowerpot, a driving device for driving the tray to rotate, two light intensity sensors, a solar cell panel, a storage battery and a controller which is electrically connected with the driving device and each light intensity sensor respectively, wherein the driving device is positioned in the shell; the two light intensity sensors are respectively fixed on two sides of the shell and used for acquiring light intensity data on the two sides of the shell; a solar cell panel is obliquely arranged on the shell, a storage battery for energy storage is arranged in the shell, and the solar cell panel, the driving device and the two light intensity sensors are respectively and electrically connected with the storage battery; the controller receives the light intensity data of the two light intensity sensors and controls the driving device to be turned on or turned off according to the ratio of the two light intensity data. Based on the utility model discloses a flowerpot rotary device can let the flower photic even, better growth, and can adjust the flowerpot as required and rotate or stall, need not manual operation completely.

Description

Flowerpot rotating device

Technical Field

The utility model belongs to the technical field of, concretely relates to flowerpot rotary device.

Background

With the continuous development of intelligent technology, intelligent vases which are beneficial to flower growing are more and more popular with the public. Among the current correlation technique, intelligent vase has the humiture that shows soil, reminds the user to water or has functions such as self-service moisturizing and broadcast music, however, because the phototropism of plant, if do not rotate the vase, the plant will be askew by long.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a flowerpot rotary device is provided, can let the flower photic even, better growth, and can adjust the flowerpot as required and rotate or stall, need not manual operation completely.

The utility model provides a flowerpot rotary device, include: the flowerpot comprises a shell, a tray for placing a flowerpot, a driving device for driving the tray to rotate, two light intensity sensors, a solar cell panel, a storage battery and a controller which is electrically connected with the driving device and each light intensity sensor respectively, wherein the driving device is positioned in the shell; the two light intensity sensors are respectively fixed on two sides of the shell and used for acquiring light intensity data on the two sides of the shell; a solar cell panel is obliquely arranged in the shell, a storage battery for energy storage is arranged in the shell, and the solar cell panel, the driving device and the two light intensity sensors are respectively and electrically connected with the storage battery; the controller receives the light intensity data of the two light intensity sensors and controls the driving device to be turned on or turned off according to the ratio of the two light intensity data.

Based on the utility model discloses a flowerpot rotary device can carry out flowerpot autogiration or stop rotatory operation according to real-time light intensity data, and is more intelligent, can let user's flower photic even, and better growth saves partly energy of growing flower for the user, and utilizes clean energy solar energy, satisfies self electric energy demand, with little costs.

On the basis of the above scheme, the utility model discloses can also carry out following improvement:

further, the controller receives light intensity data of the two light intensity sensors and calculates a ratio of a smaller value to a larger value of the two light intensity data, when the ratio is smaller than a threshold value, the controller controls the driving device to be started, and when the light ratio is larger than the threshold value, the controller controls the driving device to be stopped.

Further, the tray comprises a bottom wall and a double-layer side wall structure formed by an inner side wall and an outer layer wall, wherein the outer side wall is higher than the inner side wall, and a plurality of first water outlets are formed in the bottom wall between the inner side wall and the outer layer wall.

Therefore, the tray water overflows or is about to overflow due to too much watering or rainwater in the flowerpot, and the double-layer side wall (outer side wall higher than the inner side wall) and the first water outlet are arranged, so that the water flow can enter the shell from the first water outlet in order, and the water flow is prevented from being screwed out and splashed to cause water stain indoors, outdoors or in a user.

Furthermore, a second water outlet communicated with the first water outlet is formed in the shell, and a valve is arranged at the second water outlet.

Thereby, the excessive water can be uniformly discharged from the second water outlet.

Further, the light intensity monitoring device further comprises two position adjusting devices which are respectively used for adjusting the height of each light intensity sensor and the distance between each light intensity sensor and the shell, the two position adjusting devices are respectively arranged on two sides of the shell, and one light intensity sensor is respectively arranged on each of the two position adjusting devices 4.

Therefore, when the plants grow too well and are too luxuriant, sunlight blocking can be caused to the two light intensity sensors (no matter the light intensity sensors are positioned at the side of the light measurement or the backlight side) respectively, and the light intensity difference cannot be measured, a user can adjust the height of each light intensity sensor and the distance between each light intensity sensor and the shell according to needs, and the problem of sunlight blocking caused by the fact that the two sensors are too luxuriant is solved.

Further, each of the position adjusting devices 4 includes a horizontal telescopic rod and a vertical telescopic rod, one end of the horizontal telescopic rod is fixedly connected with one end of the vertical telescopic rod, the other end of the horizontal telescopic rod is fixed on the housing, and the other end of the vertical telescopic rod is provided with one of the light intensity sensors.

Further, the transverse telescopic rod comprises a first cross rod fixedly connected with the shell 1, a second cross rod sleeved in the first cross rod and a first fastening bolt arranged on the first cross rod, and the lower end of the first fastening bolt penetrates through a through hole in the first cross rod and is abutted to the second cross rod.

Further, the vertical telescopic rod comprises a first vertical rod fixedly connected with the shell, a second vertical rod sleeved in the first vertical rod and a second fastening bolt arranged on the first vertical rod, and the lower end of the second fastening bolt penetrates through a through hole in the first vertical rod and is abutted to the second vertical rod.

From this, can adjust the length of horizontal telescopic link and vertical telescopic link respectively through first fastening bolt and second fastening bolt, solve the problem that sunshine blockked.

Further, drive arrangement includes the pivot and drives pivot pivoted motor, the motor is fixed in the casing, the tray is fixed in the pivot.

Therefore, the rotating shaft is driven to rotate through the driving device, so that the tray is driven to rotate.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present invention.

Fig. 2 is a schematic top view of another embodiment of the present invention.

Fig. 3 is a schematic top view of an embodiment of the present invention.

In the accompanying fig. 1-3, the components represented by the respective reference numerals are as follows:

a housing 1;

a tray 2; an inner side wall 21; an outer side wall 22; a bottom wall 23; a first water outlet 231;

a light intensity sensor 3;

a position adjusting device 4; the first cross bar 41; the first fastening bolt 411; a second cross bar 42; a first vertical rod 43; the second fastening bolt 431; a second vertical rod 44.

A solar panel 5.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

The invention is described below with reference to specific embodiments in conjunction with fig. 1-3.

As shown in fig. 1 and 2, the flowerpot rotating device according to the present invention comprises a housing 1, a tray 2 for placing a flowerpot, a driving device for driving the tray to rotate, two light intensity sensors 3, a solar panel, a storage battery, and a controller electrically connected to the driving device and each of the light intensity sensors, wherein the driving device is located in the housing 1; the two light intensity sensors 3 are respectively fixed on two sides of the shell 1 and used for acquiring light intensity data of the two sides of the shell 1; a solar cell panel 5 is obliquely arranged on the shell 1, a storage battery for energy storage is arranged in the shell, and the solar cell panel, the driving device and the two light intensity sensors are respectively and electrically connected with the storage battery; the controller receives the light intensity data of the two light intensity sensors 3 and controls the driving device to be turned on or turned off according to the ratio of the two light intensity data.

Based on the utility model discloses flowerpot rotary device, the controller receives two light intensity sensor 3's light intensity data calculates two the ratio of less value and great value among the light intensity data works as the ratio is less than the threshold value, controller control drive arrangement opens, the light ratio value is greater than the threshold value, controller control drive arrangement closes.

The specific working process is that at night and the like, under the condition that the flowerpot does not need to be rotated to enable the flower to be uniformly illuminated, the light intensity values of the two light intensity sensors are close to each other, and the ratio is close to 1, so that the flowerpot is automatically controlled by the controller not to rotate, and the electric energy is saved; when the difference value of the two illumination intensities is larger, for example, the rotating device of the present application is placed, so that one of the two light intensity sensors is located at the south side (namely the south light intensity sensor) of the shell, and the other is located at the north side (namely the north light intensity sensor), and the controller can control the flowerpot to rotate by the oblique irradiation of sunlight, so that the light intensity value of the south light intensity sensor is obviously higher than that of the north light intensity sensor at the position of the backlight shadow, at the morning time (7: 00-11:00) or afternoon time (13: 00-18: 00), and the light intensity of the user can be uniformly received, so that the user can grow better; at noon, the sun is close to direct incidence, the flowers and the light are uniform, the numerical values of the light intensity sensors on the two sides are close to each other, and the ratio is close to 1, so that the flowerpot is automatically controlled by the controller not to rotate, and the electric energy is saved; in cloudy days and rainy days, the south side light intensity sensor and the north side light intensity sensor have no obvious illumination intensity difference, and the ratio is close to 1, so the flowerpot is automatically controlled by the controller to not rotate, the electric energy is saved, the loss of the device is reduced, the electric energy is saved, and the loss of the device is reduced. Can adjust flowerpot rotary device as required and rotate or not, solve indoor outer potted plant unilateral irradiant problem, need not artificial operation completely.

Based on the utility model discloses a flowerpot rotary device can carry out flowerpot autogiration or stop rotatory operation according to real-time light intensity data, and is more intelligent, can let user's flower photic even, and better growth saves partly energy of growing flower for the user, and utilizes clean energy solar energy, satisfies self electric energy demand, with little costs.

As shown in fig. 1-3, according to the flowerpot rotating device of the embodiment of the present invention, the tray 2 includes a bottom wall 23 and a double-layer side wall structure formed by an inner side wall 21 and an outer side wall 22, the outer side wall 22 is higher than the inner side wall 21, and a plurality of first water outlets 231 are provided on the bottom wall 23 between the inner side wall 21 and the outer side wall 22.

Therefore, when the flowerpot is watered too much or rainwater causes the water on the tray 2 to overflow or to overflow, due to the arrangement of the double-layer side wall (the outer side wall 22 is higher than the inner side wall 21) and the first water outlet, the water flow can enter the shell from the first water outlet in order, and the water flow is prevented from being screwed out and splashed to cause indoor and outdoor water stains or water stains on users in the rotating process of the flowerpot rotating device.

According to the utility model discloses flowerpot rotary device, be provided with on the casing 1 with the second delivery port of first delivery port 231 intercommunication, 11 departments of second delivery port are provided with the valve.

Thereby, the excessive water can be uniformly discharged from the second water outlet 11.

As shown in fig. 2, according to the utility model discloses flowerpot rotary device still includes two position control device 4, be used for adjusting respectively each light intensity sensor's height and each light intensity sensor with the distance of casing, two position control device set up respectively in casing 1 both sides, two be provided with one on the position control device 4 respectively light intensity sensor 3.

Therefore, when the plants grow too well and are too luxuriant, sunlight blocking can be caused to the two light intensity sensors 3 (no matter the light intensity sensors are positioned at the side of the light measurement or the backlight side), and the light intensity difference cannot be measured, a user can adjust the height of each light intensity sensor 3 and the distance between each light intensity sensor and the shell 1 according to needs, so that the problem of sunlight blocking caused by the fact that the two sensors are too luxuriant is solved.

According to the utility model discloses flowerpot rotary device, each position control device 4 includes horizontal telescopic link and vertical telescopic link respectively, horizontal telescopic link one end with vertical telescopic link one end fixed connection, the horizontal telescopic link other end is fixed in on the casing 1, the other end of vertical telescopic link is provided with one light intensity sensor 3.

According to the utility model discloses flowerpot rotary device, horizontal telescopic link include with casing 1 fixed connection's first horizontal pole 41, cover are located second horizontal pole 42 in first horizontal pole 41 and set up in first fastening bolt 411 on first horizontal pole 41, first fastening bolt 411 lower extreme is passed through-hole on the first horizontal pole 41 with second horizontal pole 42 butt.

According to the utility model discloses flowerpot rotary device, vertical telescopic link include with 1 fixed connection's of casing first vertical pole 43, cover are located second vertical pole 44 in the first vertical pole 43 and set up in second fastening bolt 431 on the first vertical pole, second fastening bolt 431 lower extreme pass through the through-hole on the first vertical pole with second vertical pole 44 butt.

From this, can adjust the length of horizontal telescopic link and vertical telescopic link respectively through first fastening screw 411 bolt and second fastening bolt 431 respectively, solve the problem that sunshine blocks.

According to the utility model discloses flowerpot rotary device, drive arrangement includes pivot and drive pivot pivoted motor, the motor is fixed in the casing 1, tray 2 is fixed in the pivot.

Therefore, the rotating shaft is driven to rotate by the driving device, so that the tray 2 is driven to rotate.

Specifically, the motor is detachably fixed to the bottom wall of the housing. Therefore, the shell and the motor can be conveniently detached, replaced and cleaned.

Specifically, the motor is fixed on the bottom wall of the shell through bolts and nuts.

Although embodiments of the present invention have been described in detail above, those of ordinary skill in the art will understand that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the claims and their equivalents.

Claims (9)

1. A flowerpot rotating device, comprising:

the flowerpot comprises a shell (1), a tray (2) for placing a flowerpot, a driving device for driving the tray to rotate, two light intensity sensors (3), a solar panel (5), a storage battery and a controller which is electrically connected with the driving device and each light intensity sensor respectively, wherein the driving device is positioned in the shell (1); the two light intensity sensors (3) are respectively fixed on two sides of the shell (1) and used for acquiring light intensity data on two sides of the shell (1); a solar cell panel (5) is obliquely arranged in the shell (1), a storage battery for energy storage is arranged in the shell, and the solar cell panel (5), the driving device and the two light intensity sensors are respectively and electrically connected with the storage battery; the controller receives the light intensity data of the two light intensity sensors and controls the driving device to be turned on or turned off according to the ratio of the two light intensity data.

2. A flowerpot rotating device according to claim 1, wherein the controller receives the light intensity data of the two light intensity sensors (3) and calculates the ratio of the smaller value to the larger value of the two light intensity data, when the ratio is smaller than a threshold value, the controller controls the driving device to be turned on, and when the ratio is larger than the threshold value, the controller controls the driving device to be turned off.

3. A flowerpot rotating device according to claim 1, wherein the tray (2) comprises a bottom wall (23) and a double-layer side wall structure formed by an inner side wall (21) and an outer side wall (22), the outer side wall (22) is higher than the inner side wall (21), and a plurality of first water outlets (231) are arranged on the bottom wall (23) between the inner side wall (21) and the outer side wall (22).

4. A flowerpot rotating device according to claim 3, wherein a second water outlet (11) is arranged on the housing (1) and is communicated with the first water outlet (231), and a valve is arranged at the second water outlet (11).

5. A flowerpot rotating device according to any one of claims 1-4, further comprising two position adjusting devices (4) for adjusting the height of each light intensity sensor and the distance between each light intensity sensor and the casing, wherein the two position adjusting devices are respectively arranged at two sides of the casing (1), and one light intensity sensor (3) is respectively arranged on each of the two position adjusting devices (4).

6. A flowerpot rotating device according to claim 5, wherein each position adjusting device (4) comprises a transverse telescopic rod and a vertical telescopic rod, one end of the transverse telescopic rod is fixedly connected with one end of the vertical telescopic rod, the other end of the transverse telescopic rod is fixed on the shell (1), and the other end of the vertical telescopic rod is provided with one light intensity sensor (3).

7. A flowerpot rotating device according to claim 6, wherein the transverse telescopic rod comprises a first cross rod (41) fixedly connected with the casing (1), a second cross rod (42) sleeved in the first cross rod (41), and a first fastening bolt (411) arranged on the first cross rod (41), and the lower end of the first fastening bolt (411) passes through a through hole on the first cross rod (41) and abuts against the second cross rod (42).

8. A flowerpot rotating device according to claim 6, wherein the vertical telescopic rod comprises a first vertical rod (43) fixedly connected with the housing (1), a second vertical rod (44) sleeved in the first vertical rod (43), and a second fastening bolt (431) arranged on the first vertical rod, and the lower end of the second fastening bolt (431) passes through a through hole in the first vertical rod and abuts against the second vertical rod (44).

9. A flowerpot rotating device according to claim 1, wherein the driving device comprises a rotating shaft and a motor for driving the rotating shaft to rotate, the motor is fixed in the shell (1), and the tray (2) is fixed on the rotating shaft.

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