CN213907660U - Intelligent vase device based on Internet of things home - Google Patents

Abstract

The utility model discloses an intelligent vase device based on Internet of things home furnishing, which can guarantee plant growth in an all-round manner, has various functions, simple and convenient operation, simple structure and lower cost, comprises a vase, and an irrigation module, a sensor module and a fluorescent lamp module which are arranged on the vase, wherein the irrigation module is used for replenishing water to vegetation, the sensor module is used for monitoring the environmental information of the vase, and the fluorescent lamp module is used for replenishing light to vegetation and increasing temperature; the vase is also connected with a rotating module, and the rotating module is used for driving the vase to rotate; the solar irrigation system is characterized by further comprising a server and an electric storage module, wherein the electric storage module is electrically connected with the server, the irrigation module, the sensor module, the fluorescent lamp module and the rotation module, and the irrigation module, the sensor module, the fluorescent lamp module and the rotation module are all in communication connection with the server.

Description

Intelligent vase device based on Internet of things home

Technical Field

The utility model relates to a thing networking house field, concretely relates to intelligence vase device based on thing networking house.

Background

As the living pressure of people is continuously increased, people pay more attention to interesting small objects capable of relieving the pressure. The intelligent vase gradually enters places such as ordinary families, office places, tourist exhibition halls and the like according to the market and social requirements. However, the existing intelligent vase on the market is generally expensive, complex in operation, not suitable for a series of problems of the public, single in function and incapable of guaranteeing plant growth in all directions.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem in the prior art, the utility model provides an intelligent vase device based on thing networking house can omnidirectional guarantee vegetation, and the function is various, and easy and simple to handle, simple structure, the cost is lower.

In order to realize the above purpose, the utility model discloses the technical scheme who adopts does: the flower pot comprises a flower pot, and an irrigation module, a sensor module and a fluorescent lamp module which are arranged on the flower pot, wherein the irrigation module is used for replenishing water to vegetation, the sensor module is used for monitoring the environmental information of the flower pot, and the fluorescent lamp module is used for replenishing light to the vegetation and heating the vegetation; the vase is also connected with a rotating module, and the rotating module is used for driving the vase to rotate; the solar flower vase monitoring system is characterized by further comprising a server and an electric storage module, wherein the electric storage module is electrically connected with the server, the irrigation module, the sensor module, the fluorescent lamp module and the rotation module are all in communication connection with the server, the sensor module feeds monitored environment information of the vase back to the server, the server receives the fed environment information and then analyzes and judges the environment information, and if the environment information is lower than a set threshold value, a control instruction is sent to control the irrigation module, the fluorescent lamp module or the rotation module to be started.

Further, the sensor module includes illumination intensity sensor, carbon dioxide concentration sensor, humidity transducer and temperature sensor, illumination intensity sensor carbon dioxide concentration sensor humidity transducer with temperature sensor all communication connection to the server.

Furthermore, the rotating module comprises a micro stepping motor and a square gear, the micro stepping motor and the square gear are located below the vase, the micro stepping motor is in transmission connection with the square gear, and the square gear is in transmission connection with the vase.

Furthermore, a receptacle counterweight block and a receptacle counterweight block connecting rod are arranged below the vase, the lower end of the receptacle counterweight block connecting rod is fixed on the receptacle counterweight block, and the micro stepping motor is fixed on the upper end of the receptacle counterweight block connecting rod.

Furthermore, a tumbler module is arranged below the vase and comprises a hemispherical base, and the miniature stepping motor is fixed in the base.

Further, the wireless charging device further comprises a wireless charging module, wherein the wireless charging module comprises a transmitting coil module and a receiving coil module which are in wireless connection, the transmitting coil module is connected with a direct-current power supply, and the receiving coil module is connected with the power storage module through a voltage stabilizing module.

Furthermore, the daylight lamp module comprises a daylight lamp post fixed on the vase, the top of the daylight lamp post is positioned right above the vase, and a daylight lamp is arranged on the top of the daylight lamp post.

Further, the outer wall of vase is provided with light module, light module electricity is connected to power storage module, and communication connection is to the server, light module is used for the illumination at night, light module includes a plurality of serial-type lamp pearls, and a plurality of serial-type lamp pearls are the annular setting and are in the outer wall of vase.

Further, the irrigation module comprises a micro pump and a nozzle which are connected, the micro pump and the nozzle are arranged on the inner wall of the vase, and the micro pump is connected with a water source.

Further, the server is provided with an interaction module, and the interaction module is in interactive connection with a mobile terminal mobile phone APP.

Compared with the prior art, the utility model discloses set up irrigation module, sensor module, fluorescent lamp module and rotation module at the vase, utilize the power storage module to supply power for each part, utilize the server as the master controller, utilize sensor module to gather the inside flowers and plants regional environmental information of planting of vase, for example: temperature, humidity, illumination intensity etc, the environmental information feedback that the sensor module will monitor is to the server, the server receives the environmental information back analysis judgement of feedback, if be less than the settlement threshold value, then send control instruction control irrigation module to carry out the moisturizing to vegetation soil, perhaps control the fluorescent lamp module and carry out light filling and heat to the quilt, compensate the not enough of vegetation growth illumination intensity and temperature, in addition, can also drive the vase through server control rotation module and rotate, so that the vegetation can all-round photic, compensate because long-term fixed placing leads to the unable all-round photic of plant, thereby lead to the problem of the one-way growth of plant, the utility model discloses can the omnidirectional guarantee vegetation, the function is various, and easy and simple to handle, simple structure, the cost is lower.

Furthermore, the temperature sensor and the humidity sensor are used for measuring humidity and temperature parameters of vegetation in soil or in a vase, and the carbon dioxide concentration sensor is used for measuring carbon dioxide content parameters of vegetation soil periphery, so that the phenomenon of vegetation death caused by vegetation root decay is avoided; the illumination intensity sensor is used for measuring the illumination intensity around the vegetation in the vase, so that the phenomenon of poor photosynthesis of vegetation growth is avoided.

Furthermore, the flower support balancing weight is used for balancing weight, and the flower support balancing weight connecting rod is connected with and fixes the miniature stepping motor and the flower vase, so that the stability of the whole device is improved; or the bottom of the vase is provided with the tumbler module, the tumbler module comprises a hemispherical base, the balance is carried out by utilizing the principle of the physical gravity center, and the problem that the vase is toppled and broken due to the collision influence of human or natural factors is avoided.

Furthermore, the power storage module adopts the wireless charging module to charge, the problem of complex traditional charging interfaces is avoided, electric energy can be regularly provided for the power storage module at regular intervals, and the power supply stability of the power storage module is guaranteed.

Further, utilize the light module as night illumination, have the same function with little night-light, solved the oppression nature problem of night environment, promoted the elegance, the travelling comfort of living environment.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic block diagram of an embodiment of the present invention;

fig. 3 is a functional block diagram of a sensor module according to an embodiment of the present invention;

fig. 4 is a functional block diagram of a rotation module of an embodiment of the present invention;

the intelligent solar energy greenhouse comprises a vase 1, a fluorescent lamp 2, a fluorescent lamp pole 3, a receiving coil module 4, a transmitting coil module 5, a receptacle counterweight 6, a receptacle counterweight connecting rod 7, a square gear 8, a miniature stepping motor 9, a server 10, a tumbler module 11, an irrigation module 12, a mobile phone APP13, a sensor module 14, a rotating module 15, a light module 16, a fluorescent lamp module 17, an electric storage module 18, a voltage stabilizing module 19, a direct current power supply 20, a wireless charging module 21, an illumination intensity sensor 22, a carbon dioxide concentration sensor 23, a humidity sensor 24 and a temperature sensor 25.

Detailed Description

The present invention will be further explained with reference to the drawings and specific examples, which are illustrated in the attached drawings, and it is to be understood that the described examples are only a part of the present application and not all of the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The embodiment of the utility model provides an intelligent vase device based on thing networking house is applicable to and carries out intelligent management to the small-size flowers and plants of family, also can be applicable to various green plants and flowers and plants seed, the growing environment of small-size plants such as succulent plant and carry out intelligent management, specifically refer to fig. 1 to fig. 4, and it includes: the irrigation system comprises a flower vase 1, an irrigation module 12, a sensor module 14 and a fluorescent lamp module 17, wherein the irrigation module 12, the sensor module 14 and the fluorescent lamp module 17 are arranged on the flower vase 1, the irrigation module 12 is used for replenishing water to vegetation, the sensor module 14 is used for monitoring environmental information of the flower vase 1, and the fluorescent lamp module 17 is used for replenishing light to the vegetation and increasing temperature; the vase 1 is also connected with a rotating module 15, and the rotating module 15 is used for driving the vase 1 to rotate; the flower vase monitoring system is characterized by further comprising a server 10 and an electric storage module 18, the electric storage module 18 is electrically connected with the server 10, the irrigation module 12, the sensor module 14, the fluorescent lamp module 17 and the rotation module 15 are all in communication connection with the server 10, the sensor module 14 feeds monitored environment information of the vase 1 back to the server 10, the server 10 receives the fed-back environment information and then analyzes and judges the environment information, and if the environment information is lower than a set threshold value, a control instruction is sent to control the irrigation module 12, the fluorescent lamp module 17 or the rotation module.

In this embodiment, the irrigation module 12, the sensor module 14, the fluorescent lamp module 17 and the rotating module 15 are arranged on the vase 1, the power storage module 18 is used for supplying power to each component, stable power resources are provided for the power consumption module, it is ensured that the whole system has sufficient energy input, the server 10 is used as a master controller, and the sensor module 14 is used for collecting environmental information of the flower and grass planting area inside the vase 1, for example: temperature, humidity, illumination intensity etc, sensor module 14 feeds back the environmental information who monitors to server 10, server 10 receives the environmental information back analysis judgement of feedback, if be less than the settlement threshold value, then send control instruction control irrigation module 12 to carry out the moisturizing to the quilt soil, perhaps control fluorescent lamp module 17 to carry out the moisturizing and heat the quilt, compensate vegetation growth illumination intensity and the not enough of temperature, in addition, can also drive vase 1 through server 10 control rotation module 15 and rotate, so that the vegetation can all-round photic, compensate because long-term fixed placing leads to the unable all-round photic of plant, thereby lead to the problem of plant one-way growth, the utility model discloses can the omnidirectional guarantee vegetation, the function is various, and easy and simple to handle, simple structure, the cost is lower.

Specifically, the sensor module 14 includes an illumination intensity sensor 22, a carbon dioxide concentration sensor 23, a humidity sensor 24, and a temperature sensor 25, and the illumination intensity sensor 22, the carbon dioxide concentration sensor 23, the humidity sensor 24, and the temperature sensor 25 are all communicatively connected to the server 10. The temperature sensor 25 and the humidity sensor 24 are used for measuring humidity and temperature parameters of vegetation in soil or in a vase, and the carbon dioxide concentration sensor 23 is used for measuring carbon dioxide content parameters of vegetation soil periphery, so that the phenomenon of vegetation death caused by vegetation root decay is avoided; the illumination intensity sensor 22 is used for measuring the illumination intensity around the vegetation in the vase, so as to avoid the phenomenon of poor photosynthesis of vegetation growth.

Specifically, rotation module 15 includes miniature step motor 9 and square gear 8, and miniature step motor 9 and square gear 8 are located the below of vase 1, and miniature step motor 9 is connected with the transmission of square gear 8, and square gear 8 is connected with vase 1 transmission, regularly carries out the regular rotation of fixed angle to vase 1, remedies the vegetation because long-term fixed placing leads to unable all-round photic to lead to the problem of plant unidirectional growth.

Preferably, the below of vase 1 is provided with receptacle balancing weight 6 and receptacle balancing weight connecting rod 7, and the lower extreme of receptacle balancing weight connecting rod 7 is fixed in receptacle balancing weight 6, and miniature step motor 9 is fixed in the upper end of receptacle balancing weight connecting rod 7, utilizes receptacle balancing weight 6 to carry out the counter weight, and receptacle balancing weight connecting rod 7 connects fixed miniature step motor 9 and vase 1, has improved the steadiness of whole device, is difficult for empting.

Preferably, or be provided with tumbler module 11 in the below of vase 1, tumbler module 11 is including being hemispherical base, and miniature step motor 9 is fixed in the base, utilizes the focus principle of physics to balance, has avoided leading to the vase to topple over the problem of breaking into pieces because artificial or natural factor collision influence.

Specifically, the present embodiment further includes a wireless charging module 21, where the wireless charging module 21 includes a transmitting coil module 5 and a receiving coil module 4 that are wirelessly connected, the transmitting coil module 5 is connected to the dc power supply 20, and the receiving coil module 4 is connected to the power storage module 18 through the voltage stabilizing module 19. The electric power storage module 18 adopts the wireless charging module 21 to charge, the problem of complex traditional charging interface is avoided, electric energy can be regularly provided for the electric power storage module 18, and the power supply stability of the electric power storage module 18 is ensured. The diameter of the transmitting coil module 5 and the receiving coil module 4 is 40mm, and a hole of 2 mm is arranged in the middle, wherein the transmitting coil module 5 is provided with a suitable voltage by the direct current power supply 20, such as 5V to 9V, the direct current power supply 20 is a miniature adjustable direct current voltage source, and variable direct current voltage can be more conveniently provided for the transmitting coil module 5. The receiving coil module 4 and the transmitting coil module 5 can work normally under the environment of 40 degrees below zero to 80 degrees above zero.

Specifically, the fluorescent lamp module 17 comprises a fluorescent lamp post 3 fixed on the vase 1, the top of the fluorescent lamp post 3 is located right above the vase 1, a fluorescent lamp 2 is arranged at the top of the fluorescent lamp post 3, and the fluorescent lamp module 17 is used for supplementing the problem that the illumination and heat intensity needed by vegetation in a cloudy environment are insufficient, wherein the fluorescent lamp 2 is a miniature low-power-consumption fluorescent lamp with adjustable illumination and heat intensity.

Specifically, the outer wall of vase 1 is provided with light module 16, and light module 16 electricity is connected to power storage module 18, and communication connection to server 10, and light module 16 is used for the illumination at night, and light module 16 includes a plurality of serial-type lamp pearls, and a plurality of serial-type lamp pearls are the annular and set up the outer wall at vase 1. Utilize light module 16 as night illumination, have the same function with little night-light, solved the oppression nature problem of night environment, promoted the elegance, the travelling comfort of living environment.

Specifically, irrigation module 12 includes micropump and the nozzle of connection, and micropump and nozzle set up in the inner wall of vase 1, and the micropump is connected the water source for supply the inside water content of soil, and the nozzle adopts miniature vaporific nozzle, can be even to the peripheral moisturizing of the inside vegetation of vase.

Specifically, server 10 is provided with interactive module, interactive module and removal end cell-phone APP13 interactive connection, remove end cell-phone APP13 can both show parameters such as the inside humiture of vase 1, carbon dioxide concentration, illumination intensity, also can store data to the improvement in later stage also can be directly through removing end cell-phone APP13 send instruction, through the action of server 10 control each part.

The following description of the specific working principle of the present embodiment is provided:

the transmitting coil module 5 of the wireless charging module 21 can obtain electric energy through the direct current power supply 20, the receiving coil module 4 transmits the electric energy to the voltage stabilizing module 19 by receiving the electric energy of the transmitting coil module 5, the voltage stabilizing module 19 transmits the stable electric energy to the electric storage module 18, and the electric storage module 18 supplies power to the fluorescent lamp module 17, the light module 16, the rotating module 15, the sensor module 14, the server 10 and the irrigation module 12 simultaneously. The sensor module 14 monitors various kinds of parameter information inside the vase 1 in real time, the temperature sensor 25 monitors the temperature parameter in the air around the vegetation in the vase 1 in real time, the humidity sensor 24 monitors the humidity parameter in the air around the vegetation in the vase 1 and the humidity parameter in the soil layer at the root of the vegetation in the vase 1 in real time, the carbon dioxide concentration sensor 23 monitors the carbon dioxide concentration parameter in the air around the vegetation in the vase 1 in real time and the carbon dioxide concentration parameter in the soil layer at the root of the vegetation, the illumination intensity sensor 22 monitors the illumination intensity parameter around the vegetation in the vase 1 in real time, and various kinds of parameter information of the sensor module 14 can be fed back to the server 10 to be stored and analyzed. When the server 10 judges that the temperature parameter or the illumination intensity parameter value is lower than the set threshold value, the server 10 sends a control instruction to the fluorescent lamp 2, and the fluorescent lamp 2 is turned on to make up for the defect of insufficient temperature and illumination intensity; when the server 10 judges that the humidity parameter value is lower than the set threshold value, the server 10 sends a control instruction to the irrigation module 12, the micro pump is started, and water is uniformly supplied to the periphery of vegetation in the vase; when the server 10 determines that the illumination intensity parameter value reaches a certain threshold, the server 10 will send a control command to the light module 16, and the light module 16 will start the night mode to create a comfortable living environment. The rotating module 15 consists of a square gear 8 and a miniature stepping motor 9, the rotating frequency of the rotating module is normally one circle every day, and different frequencies can be set according to different vegetation. The mobile terminal mobile phone APP13 can display data transmitted by the server 10 in real time, the tumbler module 11 is installed at the bottom of the vase, one function of the tumbler module 11 is selected to be used with the receptacle counterweight 6 and the receptacle counterweight connecting rod 7, the bottom of the tumbler module 11 is hemispherical, electric energy is not needed, and the balance is achieved by using the principle of the physical center of gravity.

The embodiment of the utility model provides an utilize sensor module 14 to gather the environmental information of vase 1 inside flowers and plants planting area and detect, the server receives 10 analysis and judgement behind the environmental information of feedback, control irrigation module 12 moisturizing vegetation soil, perhaps control fluorescent lamp module 17 to carry out the light filling and heat the vegetation, use rotation module 15 can compensate the vegetation because long-term fixed placing leads to unable all-round photic, thereby leads to the problem of plant unidirectional growth; the design of the tumbler module 11 avoids the problem of vase toppling caused by careless collision of human factors; the fluorescent lamp module 17 can make up for the problem of insufficient illumination intensity in cloudy days; the light module 16 adopts a design concept similar to that of a small night lamp, so that the problem of depression of the night environment is solved, and elegance and comfort of the living environment are improved; the wireless charging module 21 avoids the problem of complicated conventional charging interfaces. The utility model has the advantages of it is multi-functional, guarantee vegetation that can be omnidirectional, the function is various, and easy and simple to handle, simple structure, the cost is lower.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the embodiments of the present invention.

Claims (10)

1. The intelligent vase device based on Internet of things home furnishing is characterized by comprising a vase (1), an irrigation module (12), a sensor module (14) and a fluorescent lamp module (17), wherein the irrigation module (12), the sensor module (14) and the fluorescent lamp module (17) are arranged on the vase (1), the irrigation module (12) is used for replenishing water to vegetation, the sensor module (14) is used for monitoring environmental information of the vase (1), and the fluorescent lamp module (17) is used for replenishing light to vegetation and increasing temperature; the vase (1) is also connected with a rotating module (15), and the rotating module (15) is used for driving the vase (1) to rotate; the solar irrigation system is characterized by further comprising a server (10) and an electric storage module (18), wherein the electric storage module (18) is electrically connected with the server (10), the irrigation module (12), the sensor module (14), the daylight lamp module (17) and the rotation module (15), and the irrigation module (12), the sensor module (14), the daylight lamp module (17) and the rotation module (15) are all in communication connection with the server (10).

2. The smart vase device based on Internet of things home as claimed in claim 1, wherein the sensor module (14) comprises an illumination intensity sensor (22), a carbon dioxide concentration sensor (23), a humidity sensor (24) and a temperature sensor (25), and the illumination intensity sensor (22), the carbon dioxide concentration sensor (23), the humidity sensor (24) and the temperature sensor (25) are all in communication connection with the server (10).

3. The smart vase device based on Internet of things home furnishing according to claim 1, wherein the rotating module (15) comprises a micro stepping motor (9) and a square gear (8), the micro stepping motor (9) and the square gear (8) are located below the vase (1), the micro stepping motor (9) is in transmission connection with the square gear (8), and the square gear (8) is in transmission connection with the vase (1).

4. The smart vase device based on Internet of things home furnishing according to claim 3, wherein a receptacle counterweight (6) and a receptacle counterweight connecting rod (7) are arranged below the vase (1), the lower end of the receptacle counterweight connecting rod (7) is fixed to the receptacle counterweight (6), and the micro stepping motor (9) is fixed to the upper end of the receptacle counterweight connecting rod (7).

5. The smart vase device based on Internet of things home furnishing according to claim 3, wherein a tumbler module (11) is arranged below the vase (1), the tumbler module (11) comprises a hemispherical base, and the micro stepping motor (9) is fixed in the base.

6. The smart vase device based on Internet of things home furnishing according to claim 1, further comprising a wireless charging module (21), wherein the wireless charging module (21) comprises a transmitting coil module (5) and a receiving coil module (4) which are in wireless connection, the transmitting coil module (5) is connected with a direct current power supply (20), and the receiving coil module (4) is connected with the power storage module (18) through a voltage stabilizing module (19).

7. The smart vase device based on Internet of things home furnishing according to claim 1, wherein the daylight lamp module (17) comprises a daylight lamp post (3) fixed on the vase (1), the top of the daylight lamp post (3) is located right above the vase (1), and a daylight lamp (2) is arranged on the top of the daylight lamp post (3).

8. The smart vase device based on Internet of things home furnishing according to claim 1, wherein a light module (16) is arranged on the outer wall of the vase (1), the light module (16) is electrically connected to the power storage module (18) and is communicatively connected to the server (10), the light module (16) is used for night illumination, the light module (16) comprises a plurality of series-connected lamp beads, and the plurality of series-connected lamp beads are annularly arranged on the outer wall of the vase (1).

9. The smart vase device based on Internet of things home furnishing according to claim 1, wherein the irrigation module (12) comprises a micro pump and a nozzle which are connected, the micro pump and the nozzle are arranged on the inner wall of the vase (1), and the micro pump is connected with a water source.

10. The smart vase device based on Internet of things home furnishing according to claim 1, wherein the server (10) is provided with an interaction module, and the interaction module is in interactive connection with a mobile terminal mobile phone APP (13).

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