CN212279276U - Multifunctional plant lamp flowerpot - Google Patents

Abstract

A multifunctional plant lamp flowerpot comprises a fixing assembly, a lamp holder assembly, a planting assembly, a watering assembly and a control assembly, wherein the fixing assembly comprises a bottom plate and a support piece, the lamp holder assembly comprises a lamp holder shell, a PCB and a plurality of light-emitting lamp strings, the lamp holder shell is slidably arranged on the support piece, the light-emitting lamp strings are electrically connected with the PCB, and the light-emitting lamp strings have different color light effects; the field planting assembly comprises a water planting box and a field planting plate, the water planting box is used for containing liquid, and the field planting plate is movably connected to the water planting box; the irrigation assembly comprises a water level sensing part, a liquid storage part and an irrigation power element, the water level sensing part is arranged in the water culture box, and the irrigation power element is used for conveying liquid in the liquid storage part to the water culture box; the control assembly comprises a control chip and a controller, the PCB, the water level sensing part and the irrigation power element are respectively in signal connection with the control chip, and the controller is used for controlling the operation of the light-emitting lamp string and the irrigation power element. This multifunctional plant lamp flowerpot can adjust luminance automatically and watering, realizes intelligent planting.

Description

Multifunctional plant lamp flowerpot

Technical Field

The utility model relates to a planting device technical field especially relates to a multi-functional plant lamp flowerpot.

Background

With the continuous increase of national economy and the continuous improvement of the living standard of people in China, a large number of buildings made of reinforced concrete are pulled out of the ground, and people gradually get away from the nature. However, long-term plant removability is not good for human health, and is easy to anxiety. For this reason, many people like to grow some plants at home, but a common flowerpot is only a device for containing soil, people need to water the flowerpot in three different places, and when people leave home or travel outside, the plants at home often wither or even die due to various reasons such as water shortage and insufficient light.

SUMMERY OF THE UTILITY MODEL

Therefore, a multifunctional plant lamp flowerpot with a simple structure and convenient use needs to be provided for solving the problems.

A multifunctional plant lamp flowerpot comprises a fixing assembly, a lamp holder assembly, a planting assembly, a watering assembly and a control assembly, wherein the fixing assembly comprises a bottom plate and a supporting piece connected with the bottom plate, the lamp holder assembly comprises a lamp holder shell, a PCB and a plurality of light-emitting lamp strings, the lamp holder shell is slidably arranged on the supporting piece, each light-emitting lamp string is electrically connected with the PCB, and each light-emitting lamp string has different color light effects; the field planting assembly comprises a water planting box and a field planting plate, the water planting box is arranged on the bottom plate and is used for containing liquid, and the field planting plate is movably connected to the water planting box; the irrigation assembly comprises a water level sensing part, a liquid storage part and an irrigation power element, the water level sensing part is arranged in the water culture box, the liquid storage part is used for storing liquid, and the irrigation power element is used for conveying the liquid in the liquid storage part to the water culture box; the control assembly comprises a control chip and a controller, the PCB, the water level sensing part and the irrigation power element are respectively in signal connection with the control chip, and the controller is used for controlling the operation of the light-emitting lamp string and the irrigation power element.

In one embodiment, the light-emitting lamp strings include a UV light lamp string, a red light lamp string, a blue light lamp string and a cyan light lamp string, and the light-emitting lamp strings are connected in parallel.

In one embodiment, the control assembly further comprises an illumination sensing element, a humidity sensing element and a timer, the illumination sensing element is mounted on the lamp holder shell, the humidity sensing element and the timer are both mounted on the controller, and the illumination sensing element, the humidity sensing element and the timer are respectively in signal connection with the control chip.

In one embodiment, the control assembly further comprises an alarm part, the irrigation assembly further comprises a liquid storage sensing part arranged in the liquid storage part, and the alarm part and the liquid storage sensing part are respectively in signal connection with the control chip.

In one embodiment, the field planting assembly further comprises a bearing piece and an incubation piece, one end of the bearing piece is arranged in the water planting box, the other end of the bearing piece is erected on the field planting plate, the incubation piece is arranged in the bearing piece, and the incubation piece is used for cultivating plants.

In one of them embodiment, the field planting subassembly still includes heat preservation lid and shielding piece, the heat preservation lid is located hold carrier and is close to the one end of field planting board, the shielding piece is connected hold carrier and is close to the one end of field planting board.

In one embodiment, the lamp holder further comprises a lifting assembly, the lifting assembly comprises a driving wheel, a driven wheel, a connecting belt, a sliding block and a lifting power element, the driving wheel and the driven wheel are respectively pivoted with two ends of the supporting piece, the connecting belt is connected with the driving wheel and the driven wheel, one end of the sliding block is connected with the lamp holder shell, the other end of the sliding block is connected with the connecting belt, and the lifting power element is used for driving the driving wheel to rotate.

In one of them embodiment, still include humidification subassembly, humidification subassembly includes atomizer, transfer line and infusion power component, the atomizer install in the one end of water planting case, the one end of transfer line is connected the atomizer, and the other end is connected infusion power component, place in the infusion power component the water planting case, infusion power component be used for with the liquid transport of water planting case extremely the atomizer.

In one embodiment, the humidifying assembly further comprises a protective cover, a fan blade and a fan blade power element, the atomizer is installed on the outer side of the protective cover, the fan blade is arranged in the protective cover, and the fan blade power element is used for driving the fan blade to rotate.

In one of them embodiment, still including supplying and supporting the subassembly, supply and support the subassembly and include out gas spare, gas-supply pipe and air feed power component, it installs to give vent to anger the spare in the water planting incasement, the one end of gas-supply pipe is connected go out gas spare, and the other end is connected air feed power component, air feed power component be used for it provides gas to give vent to anger the spare.

The multifunctional plant lamp flowerpot adjusts the height of the lamp holder shell according to the growth requirement of plants, thereby realizing the adjustment of the light intensity; according to different growth stages of plants, the controller controls the light emitting lamp strings with different colors and light effects to operate, so that the light intensity and the light spectrum are controlled, and a corresponding growth environment of the plants is provided; the water level sensing part is matched with the irrigation power element to supplement liquid in time so as to ensure the normal growth of plants; this multifunctional plant lamp flowerpot can adjust luminance automatically and watering, realizes intelligent planting.

Drawings

Fig. 1 is a schematic view of an assembly structure of a multifunctional plant lamp flowerpot according to a preferred embodiment of the present invention;

FIG. 2 is an exploded view of a lamp socket assembly in the multi-function plant light pot of FIG. 1;

FIG. 3 is a schematic view of the lifting assembly of the multipurpose plant light pot of FIG. 1;

FIG. 4 is an exploded view of the support, cultivation member, insulation cover and shielding member of the multi-functional plant light flowerpot shown in FIG. 1;

FIG. 5 is a schematic view of a feeding assembly in the multipurpose plant light pot of FIG. 1;

FIG. 6 is a schematic structural view of an infusion tube, an infusion power element and a water level sensing element in the multifunctional plant light flowerpot shown in FIG. 1;

fig. 7 is a schematic structural view of a humidifying assembly in the multifunctional plant lamp flowerpot shown in fig. 1.

Reference is made to the accompanying drawings in which:

a multifunctional plant light flowerpot 100;

the lamp holder comprises a fixing component 10, a bottom plate 11, a side plate 12, a supporting table 13, a supporting piece 14, a sliding groove 140, a lamp holder component 20, a lamp holder shell 21, a PCB 22, a light-emitting lamp string 23, a UV light string 231, a red light string 232, a blue light string 233, a cyan light string 234, a lampshade 24, a radiating fin 25 and a power generation component 26;

the lifting component 30, the driving wheel 31, the driven wheel 32, the connecting belt 33, the sliding block 34, the mounting part 341, the clamping part 342, the guide part 343, the lifting power element 35, the driving wheel mounting seat 36 and the driven wheel mounting seat 37;

the planting assembly 40, the water culture box 41, the liquid observation window 410, the liquid level scale 411, the planting plate 42, the mounting groove 420, the bearing part 43, the bearing part 431, the clamping part 432, the reinforcing part 433, the cultivation part 44, the planting groove 440, the heat preservation cover 45, the cover body 451, the enclosing plate 452, the shielding part 46, the through hole 460 and the abdicating groove 461;

the irrigation device comprises an irrigation component 50, a liquid storage part 51, a liquid storage shell 511, a liquid storage cover plate 512, an irrigation power element 52, a water level sensing part 53, a supply component 60, an air outlet part 61, an air conveying pipe 62, an air supply power element 63, a backstop 64, an air pipe connector 65, an air conveying pipe 66, a humidification component 70, an atomizer 71, an infusion pipe 72, an infusion power element 73, a protective cover 74, fan blades 75, a fan blade power element 76, an angle adjusting part 77, a control component 80 and a controller 81.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully below. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. When the number of an element is referred to as "a plurality," it can be any number of two or more. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 to 7, a multifunctional plant lamp flowerpot 100 according to a preferred embodiment of the present invention includes a fixing assembly 10, a lamp holder assembly 20, a field planting assembly 40, a watering assembly 50, and a control assembly 80, wherein the lamp holder assembly 20 includes a lamp holder housing 21, a PCB 22, and a plurality of light emitting strings 23, and the multifunctional plant lamp flowerpot adjusts the height of the lamp holder housing 21 according to the growth requirement of plants to adjust the light intensity; according to different growth stages of plants, the control component 80 controls the light-emitting lamp strings 23 with different colors and light effects to operate, so that the light intensity and the light spectrum are controlled, and a corresponding growth environment of the plants is provided; the watering assembly 50 supplements the liquid in time to ensure the normal growth of the plants.

As shown in fig. 1, in the present embodiment, the fixing assembly 10 includes a bottom plate 11, a side plate 12 disposed along a periphery of the bottom plate 11, a supporting platform 13 connected to one side of the side plate 12, and a supporting member 14 connected to the bottom plate 11, wherein the side plate 12 is protruded from the bottom plate 11 to define a position of the field planting assembly 40, one end of the supporting member 14 is connected to the bottom plate 11, optionally, one end of the supporting member 14 is connected to the supporting platform 13, and the supporting member 14 is provided with a sliding groove 140.

Referring to fig. 2, the lamp socket assembly 20 includes a lamp socket housing 21, a PCB 22 and a plurality of light emitting strings 23, the lamp socket housing 21 is slidably disposed on the supporting member 14, so as to adjust the height of the lamp socket assembly 20, thereby adjusting the light intensity, and being suitable for different growth heights of plants. Optionally, the length of the sliding groove 140 is the moving range of the socket housing 21; in one embodiment, the PCB 22 is disposed in the socket housing 21, each light string 23 is electrically connected to the PCB 22, and each light string 23 has different color and light effects to adapt to different growth stages of plants; optionally, the light-emitting lamp strings 23 include a UV light string 231, a red light string 232, a blue light string 233, and a cyan light string 234, and the light-emitting lamp strings 23 are connected in parallel; scientific experiments prove that blue-violet light and cyan light in visible light have great effects on plant growth and formation of buds, the light can inhibit the elongation of plants to enable the plants to form short and thick shapes, and the blue-violet light is the most important light for dominating cell differentiation and can also influence the phototropism of the plants. The ultraviolet ray inhibits the formation of some growth hormone in the plant body, thereby inhibiting the elongation of the stem; ultraviolet light also causes phototropic sensitivity and promotes the formation of anthocyanins, as does blue, violet and cyan light in visible light. Red light in visible light can promote germination of seeds or spores and elongation of stems, and can also promote decomposition of carbon dioxide and formation of chlorophyll.

Further, each light-emitting lamp string 23 is composed of a plurality of LED lamp beads. The lamp holder assembly 20 further comprises a lamp shade 24, a heat dissipation fin 25 and a power generation element 26, the lamp shade 24 is covered on the lamp holder shell 21, the lamp shade 24 enables light to be emitted uniformly, the heat dissipation fin 25 is connected with one side, away from the light-emitting lamp string 23, of the PCB 22 so as to dissipate heat of the light-emitting lamp string 23, the service life of the light-emitting lamp string 23 is prolonged, the power generation element 26 is connected with one side, away from the lamp holder 24, of the lamp holder shell 21, and optionally, the power generation element 26 is a solar panel to convert solar energy into electric energy and.

As shown in fig. 3, in order to realize the lifting of the lamp socket assembly 20, the lifting assembly 30 includes a driving wheel 31, a driven wheel 32, a connecting belt 33, a sliding block 34 and a lifting power element 35, the driving wheel 31 and the driven wheel 32 are respectively pivoted to two ends of the supporting member 14, the connecting belt 33 connects the driving wheel 31 and the driven wheel 32, one end of the sliding block 34 is connected to the lamp socket housing 10, the other end is connected to the connecting belt 33, and the lifting power element 35 is used for driving the driving wheel 31 to rotate. Optionally, a drive wheel 31 is mounted at an end of the support 14 adjacent the support table 13. The slider 34 includes an installation portion 341, a clamping portion 342, and a guiding portion 343, one side of the installation portion 341 is connected to the socket housing 21, the other side is installed with the clamping portion 342 and the guiding portion 343, the clamping portion 342 is fixedly connected to the connection band 33, the guiding portion 343 is slidably disposed on the support member 14, and optionally, the sliding groove 140 is provided for the clamping portion 342 to slidably disposed; the guide parts 343 are L-shaped, the number of the guide parts 343 is four, the four guide parts 343 are slidably disposed on the support 14, and the guide parts 343 cooperate with each other to clamp the support 14. Further, the connecting belt 33 is a belt, and the lifting power element 35 is a motor. In one embodiment, the lifting assembly 30 further includes a driving wheel mounting seat 36 and a driven wheel mounting seat 37, the driving wheel mounting seat 36 and the driven wheel mounting seat 37 are respectively mounted at two ends of the supporting member 14, the lifting power element 35 is mounted at an outer side of the driving wheel mounting seat 36, the driving wheel 31 is pivotally connected to the driving wheel mounting seat 36, and the driven wheel 32 is pivotally connected to the driven wheel mounting seat 37.

Referring to fig. 1 and 4, the planting assembly 40 includes a water culture tank 41, a planting plate 42, a bearing member 43, a cultivation member 44, and a heat insulation cover 45, the water culture tank 41 is mounted on the bottom plate 11, and the water culture tank 41 is used for containing liquid; the planting plate 42 is movably connected to the water culture box 41 so as to check the internal condition of the water culture box 41; one end of the bearing piece 43 is arranged in the water culture box 41, the other end of the bearing piece is erected on the planting plate 42, the cultivation piece 44 is arranged in the bearing piece 43, the cultivation piece 44 is used for cultivating plants, and the heat preservation cover 45 is arranged at one end, close to the planting plate 42, of the bearing piece 43 in a covering mode; optionally, a liquid observation window 410 and a liquid level scale 411 are arranged on one side of the hydroponic tank 41 so as to observe the amount of liquid in the hydroponic tank 41; the field planting board 42 is equipped with mounting groove 420 and holds carrier 43 with the installation, and carrier 43 includes bearing part 431, joint portion 432 and rib 433, and bearing part 431 is used for bearing cultivation piece 44, and joint portion 432 is used for joint field planting board 42, and bearing part 431 is connected to the one end of rib 433, and joint portion 432 is connected to the other end. Further, a plurality of reinforcing parts 433 are provided, and each reinforcing part 433 is uniformly distributed along the periphery of the bearing part 431 to ensure firm connection and drainage, and ensure that the cultivation member 44 is soaked in liquid; the diameter that joint portion 432 is close to the one end of reinforcement portion 433 is less than the diameter of the joint portion 432 other end, and the diameter that joint portion 432 kept away from the one end of reinforcement portion 433 is greater than the diameter of mounting groove 420, and the diameter that joint portion 432 is close to the one end of reinforcement portion 433 is less than the diameter of mounting groove 420 to erect bearing member 43 in field planting board 42. The diameter of the bearing part 431 is equal to that of the culturing member 44 to fix the culturing member 44, and the diameter of the end of the catching part 432 near the reinforcing part 433 is larger than that of the culturing member 44. In one embodiment, the cultivating member 44 is provided at one end thereof with a planting groove 440 for placing seeds of the plant, and the cultivating member 44 is lime cotton for absorbing liquid.

In order to promote the growth of plants, the heat preservation cover 45 comprises a cover body 451 and a surrounding plate 452, the surrounding plate 452 is arranged along the periphery of the cover body 451, the diameter of one end of the cover body 451, which is connected with the surrounding plate 452, is equal to the diameter of one end of the clamping portion 432, which is far away from the reinforcing portion 433, and the diameter of one end of the cover body 451, which is connected with the surrounding plate 452, is larger than the diameter of the other end. Optionally, the cover 45 is a colorless transparent plastic cover to ensure light penetration. The planting assembly 40 further includes a shield 46, the shield 46 being connected to an end of the carrier 43 adjacent the planting plate 42. The middle part of the shielding piece 46 is provided with a through hole 460 and a plurality of abdicating grooves 461, the abdicating grooves 461 are uniformly distributed along the circumference of the through hole 460, the through hole 460 is convenient for illuminating the plants on the cultivating piece 44, the abdicating grooves 461 are convenient for pushing the shielding piece 46 to grow upwards when the plants grow, the plants are ensured to grow vertically and the volatilization of the liquid is reduced; optionally, the shield 46 is a plastic sheet.

As shown in fig. 1 and 5, in order to realize automatic irrigation, the irrigation assembly 50 includes a liquid storage component 51, an irrigation power component 52 and a water level sensor 53, wherein the liquid storage component 51 is used for storing liquid, the irrigation power component 52 is used for delivering the liquid in the liquid storage component 51 to the water culture tank 41, and the water level sensor 53 is embedded in the water culture tank 41. Optionally, the liquid storage part 51 includes a liquid storage housing 511 and a liquid storage cover 512 movably connected to the liquid storage housing 511, and when liquid needs to be replenished, the liquid storage cover 512 is opened for replenishment. Further, a liquid storage observation window and liquid storage scales are arranged on one side of the liquid storage shell 511 so as to observe the liquid amount in the liquid storage shell 511. The irrigation assembly 50 further comprises a liquid storage sensor (not shown) embedded in the liquid storage member 51, wherein the liquid storage sensor is used for detecting the liquid level of the liquid storage member 51; in one embodiment, the water level sensor 53 is a water level sensor, the irrigation power component 52 is a water pump, and the liquid storage sensor is a water level sensor.

As shown in fig. 5, the nutrient supplying assembly 60 comprises an air outlet part 61, an air pipe 62 and an air supplying power element 63, wherein the air outlet part 61 is installed in the water culture tank 41, one end of the air pipe 62 is connected with the air outlet part 61, the other end is connected with the air supplying power element 63, and the air supplying power element 63 is used for supplying air to the air outlet part 61. The feeding assembly 60 further comprises a check member 64, one end of the check member 64 is connected with the air pipe 62, the other end of the check member 64 is connected with the air supply power unit 63, and the check member 64 prevents the liquid from flowing backwards to damage the air supply power unit 63 after power failure. The feeding assembly 60 further comprises an air pipe connector 65 and an air feeding pipe 66, wherein one end of the air pipe 62 far away from the backstop 64 is connected with the air pipe connector 65, one end of the air feeding pipe 66 is connected with the air pipe connector 65, and the other end of the air feeding pipe 66 is connected with the air outlet part 61. Optionally, the air outlet members 61 and the air feeding pipes 66 are both multiple, the air outlet members 61 and the air feeding pipes 66 are arranged in a one-to-one correspondence manner, and the air outlet members 61 are uniformly distributed in the water culture tank 41, so that sufficient supply is ensured. Furthermore, the number of the air outlet members 61 and the number of the air supply pipes 66 are four, the air outlet members 61 are made of bubble stones, and the air supply power element 63 is a high-frequency air pressure motor. During the use, for giving vent to anger piece 61 air feed through air feed power component 63, impress the air in the liquid of water planting case 41, let the oxygen in the air and liquid fully contact, make oxygen melt into in the liquid to increase the dissolved oxygen volume of liquid, in order to guarantee the growth demand of plant.

Referring to fig. 6 and 7, in order to realize automatic spraying, the humidifying assembly 70 includes an atomizer 71, a liquid conveying pipe 72 and a liquid conveying power element 73, the atomizer 71 is installed at one end of the water planting box 41, the atomizer 71 is used for uniformly spraying liquid towards the plant leaves on the planting plate 42, an ecological environment is created, humidity is ensured, and the problems of manual water spraying and insufficient uniformity of spraying are avoided; one end of the infusion tube 72 is connected to the atomizer 71, the other end is connected to an infusion power element 73, the infusion power element 73 is built in the hydroponic tank 41, and the infusion power element 73 is used for conveying the liquid in the hydroponic tank 41 to the atomizer 71. Alternatively, the infusion power element 73 is a water pump. In an embodiment, the humidifying assembly 70 further includes a shield 74, a fan 75 and a fan power element 76, the atomizer 71 is installed outside the shield 74, the fan 75 is disposed in the shield 74, the fan power element 76 is used for driving the fan 75 to rotate, and the rotation of the fan 75 makes the spraying range of the atomizer 71 wider and accelerates the flow of mist. The humidifying assembly 70 further comprises an angle adjusting piece 77, one end of the angle adjusting piece 77 is connected with the fan blade power element 76, the other end of the angle adjusting piece 77 is connected with the bottom plate 11, the angle of the atomizer 71 is adjusted through the angle adjusting piece 77, the spraying angle of the atomizer 71 is changed, and spraying is more targeted and more effective. Optionally, the fan blade power element 76 is a motor, the angle adjusting member 77 is an iron wire, and the angle adjusting member can be manually bent to form an angle, so that the fan blade is convenient to use.

In order to realize automatic control, the control assembly 80 includes a control chip (not shown), a controller 81 and an alarm (not shown), the controller 81, the PCB 22, the elevating power element 35, the liquid storage sensing element, the water level sensing element 53, the irrigation power element 52, the air supply power element 63, the atomizer 71 and the infusion power element 73 are respectively connected with the control chip through signals, the control chip and the alarm are embedded in the controller 81, and the controller 81 is used for controlling the operation of the light-emitting lamp string 23, the elevating power element 35, the irrigation power element 52, the air supply power element 63, the atomizer 71 and the infusion power element 73. Optionally, the controller 81 is provided with a plant variety database, a growth cycle database and a spectral parameter database, so as to intelligently control the operation of each light-emitting lamp string 23 according to different growth cycles of different plants, thereby realizing intelligent control; the alarm part is a buzzer or a light emitter.

In an embodiment, the control assembly 80 further includes an illumination sensing element (not shown) mounted on the socket housing 21, the illumination sensing element being in signal connection with the control chip and used for sensing an illumination condition of an external environment; when the device is used, the illumination sensing part feeds back the illumination condition of the external environment to the control chip, and the control chip automatically adjusts the intensity of the light-emitting lamp string 23 by combining the spectral parameters corresponding to the growth cycle of the plant. The control component 80 further comprises a timer (not shown) in signal connection with the control chip, wherein the timer plays a role of switching the time period of the spectrum change, and prompts the controller 81 to automatically perform the spectrum adjustment according to the periodic change of different time periods (day/night); in addition, the controller 81 can manually control the on/off, the light intensity and the light emitting time of the light string 23.

Further, the control assembly 80 further includes a height sensor (not shown) mounted at an end of the slider 34 near the base plate 11 for precise positioning. During the use, according to the growth needs of plant, through the function that controller 81 can manual control lift power component 35, also can set up high numerical value, realize slider 34 automatic rising through height sensor to drive lamp stand casing 21 along support piece 14 automatic rising, realize the regulation of light intensity, improve the availability factor of light, also be applicable to the different growth height of plant. The control assembly 80 further comprises a humidity sensing member (not shown) in signal connection with the control chip and the controller 81, and the humidity sensing member is used for detecting the humidity of the external environment. Optionally, a humidity sensor is built into the controller 81.

During the use, place water and nutrient solution etc. in water culture case 41, will place the cultivation spare 44 that has the plant and install in bearing the piece 43, place the water culture case 41 that is equipped with liquid in the one end of bearing the piece 43 in, the other end erects in field planting board 42, according to the growth height of plant, adjusts the height of lamp stand casing 21, and when needs keep warm, the lid that keeps warm 45 lid is located and is born 43 on, promotes vegetation.

When the light intensity and the light spectrum are adjusted, when an automatic mode is adopted, the corresponding plants and the corresponding growth periods are selected through the controller 81 according to different plants and different growth periods, and the light-emitting lamp string 23 is intelligently turned on and off; the illumination sensing part feeds back the illumination condition of the external environment to the control chip, and the control chip automatically adjusts the intensity of the light-emitting lamp string 23 by combining the spectral parameters corresponding to the growth cycle of the plant. When the manual mode is adopted, the controller 81 can manually control the on/off, the light intensity and the light emitting time of the light emitting string 23. In order to improve the growth quality of the plants, different growth periods of the plants need to be adjusted and intervened, and the spectrum of the light-emitting lamp string 23 is intelligently adjusted according to the growth periods of different kinds of plants, so that the plants grow better and are suitable for the production period of the plants in the natural environment.

During irrigation, the low water level value and the high water level value of the water culture tank 41 or the low water level value of the liquid storage part 51 are set through the controller 81, when the water level sensing part detects that liquid in the water culture tank 41 is lower than the preset low water level value, the irrigation power element 52 conveys the liquid in the liquid storage part 51 to the water culture tank 41 until the liquid level reaches the preset high water level value, and when the liquid storage sensing part detects that the liquid in the liquid storage part 51 is lower than the preset low water level value, the alarm part gives an alarm to remind an operator of timely supplementing the liquid.

During the support, adjust the rotational speed of air feed power component 63 and then adjust the tolerance of air-out piece 61 through controller 81, through the operation of water level sensing piece 53 automatic control air feed power component 63, when water level sensing piece 53 detects that the water level in water planting case 41 is less than the low water level value of predetermineeing, air feed power component 63 stops the operation, when water level sensing piece 53 detects that the water level in water planting case 41 is higher than the low water level value of predetermineeing, air feed power component 63 automatic operation, also can manual control air feed power component 63's operation through controller 81.

When spraying, set up standard humidity value and low water level value through controller 81, when humidity sensing part detects that the humidity of external environment is less than standard humidity value, controller 81 triggers infusion power component 73 and atomizer 71 and starts, when water level sensing part 53 detects that the liquid level of water planting case 41 is less than the low water level value, controller 81 stops the operation of infusion power component 73 and atomizer 71. In addition, the controller 81 can also manually control the operation of the infusion power unit 73 and the atomizer 71.

The multifunctional plant lamp flowerpot 100 of the utility model adjusts the height of the lamp holder shell 21 according to the growth requirement of plants, so as to realize the adjustment of the light intensity; according to different growth stages of plants, the controller 81 controls the light-emitting lamp strings 23 with different colors and light effects to operate, so that the light intensity and the light spectrum are controlled, and a corresponding growth environment of the plants is provided; the water level sensing part 53 is matched with the irrigation power element 52 to supplement liquid in time so as to ensure the normal growth of plants; this multifunctional plant lamp flowerpot 100 can adjust luminance automatically and watering, realizes intelligent planting.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A multifunctional plant lamp flowerpot is characterized by comprising a fixing assembly, a lamp holder assembly, a planting assembly, a watering assembly and a control assembly, wherein the fixing assembly comprises a bottom plate and a supporting piece connected with the bottom plate, the lamp holder assembly comprises a lamp holder shell, a PCB and a plurality of light-emitting lamp strings, the lamp holder shell is slidably arranged on the supporting piece, each light-emitting lamp string is electrically connected with the PCB, and each light-emitting lamp string has different color light effects; the field planting assembly comprises a water planting box and a field planting plate, the water planting box is arranged on the bottom plate and is used for containing liquid, and the field planting plate is movably connected to the water planting box; the irrigation assembly comprises a water level sensing part, a liquid storage part and an irrigation power element, the water level sensing part is arranged in the water culture box, the liquid storage part is used for storing liquid, and the irrigation power element is used for conveying the liquid in the liquid storage part to the water culture box; the control assembly comprises a control chip and a controller, the PCB, the water level sensing part and the irrigation power element are respectively in signal connection with the control chip, and the controller is used for controlling the operation of the light-emitting lamp string and the irrigation power element.

2. The multifunctional plant lamp flowerpot according to claim 1, wherein the light-emitting lamp strings comprise a UV light lamp string, a red light lamp string, a blue light lamp string and a cyan light lamp string, and the light-emitting lamp strings are connected in parallel.

3. The multifunctional plant lamp flowerpot according to claim 1, wherein the control assembly further comprises a light induction member, a humidity induction member and a timer, the light induction member is mounted on the lamp holder shell, the humidity induction member and the timer are both mounted on the controller, and the light induction member, the humidity induction member and the timer are respectively in signal connection with the control chip.

4. The multifunctional plant lamp flowerpot according to claim 1, wherein the control assembly further comprises an alarm member, the irrigation assembly further comprises a liquid storage sensing member arranged in the liquid storage member, and the alarm member and the liquid storage sensing member are respectively in signal connection with the control chip.

5. The multifunctional plant lamp flowerpot of claim 1, wherein the planting assembly further comprises a bearing member and an incubation member, wherein one end of the bearing member is arranged in the water planting box, the other end of the bearing member is erected on the planting plate, the bearing member is arranged in the incubation member, and the incubation member is used for cultivating plants.

6. The multifunctional plant lamp flowerpot of claim 5, wherein the field planting assembly further comprises a heat preservation cover and a shielding piece, the heat preservation cover is arranged at one end, close to the field planting plate, of the bearing piece, and the shielding piece is connected with one end, close to the field planting plate, of the bearing piece.

7. The multifunctional plant lamp flowerpot according to claim 1, further comprising a lifting assembly, wherein the lifting assembly comprises a driving wheel, a driven wheel, a connecting band, a sliding block and a lifting power element, the driving wheel and the driven wheel are respectively pivoted to two ends of the supporting piece, the connecting band is connected with the driving wheel and the driven wheel, one end of the sliding block is connected with the lamp holder shell, the other end of the sliding block is connected with the connecting band, and the lifting power element is used for driving the driving wheel to rotate.

8. The multifunctional plant lamp flowerpot according to claim 1, further comprising a humidifying assembly, wherein the humidifying assembly comprises an atomizer, a liquid conveying pipe and a liquid conveying power element, the atomizer is installed at one end of the water culture box, one end of the liquid conveying pipe is connected with the atomizer, the other end of the liquid conveying pipe is connected with the liquid conveying power element, the liquid conveying power element is arranged in the water culture box, and the liquid conveying power element is used for conveying liquid of the water culture box to the atomizer.

9. The multifunctional plant light flowerpot according to claim 8, wherein the humidifying assembly further comprises a protective cover, a fan blade and a fan blade power element, the atomizer is mounted on the outer side of the protective cover, the fan blade is arranged in the protective cover, and the fan blade power element is used for driving the fan blade to rotate.

10. The multifunctional plant lamp flowerpot according to claim 1, further comprising a supply assembly, wherein the supply assembly comprises an air outlet piece, an air conveying pipe and an air supply power element, the air outlet piece is installed in the water culture box, one end of the air conveying pipe is connected with the air outlet piece, the other end of the air conveying pipe is connected with the air supply power element, and the air supply power element is used for providing air for the air outlet piece.

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