CN112005757A

CN112005757A - Plug lamp for plant and plug lamp group for plant including a plurality of plug lamps for plant

Info

Publication number: CN112005757A
Application number: CN201910456875.5A
Authority: CN
Inventors: 唐逸文; 唐睿圻
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-05-29
Filing date: 2019-05-29
Publication date: 2020-12-01

Abstract

The invention relates to a plug lamp for plants, comprising: the rod body extends towards one axial direction and comprises an inserting part which is inserted into a base part; the lamp body comprises at least one light-emitting unit, a plant growth sensor and a processor, wherein the at least one light-emitting unit and the plant growth sensor are respectively electrically connected with the processor, and the light-emitting unit is used for irradiating towards the direction of the base; the lifting mechanism comprises a first lifting unit arranged on the rod body and a second lifting unit arranged on the lamp body, and the first lifting unit or the second lifting unit can be driven by a power source; wherein, the processor starts the power source when judging that the plant height signal of the plant growth sensor is different from a preset height information. The invention also relates to a plant plug lamp group comprising a plurality of the plant plug lamps. The plant plug lamp and the plant plug lamp group are detachably inserted into a base part, and the height position of a lamp body can be adjusted according to the growth condition of plants.

Description

Plug lamp for plant and plug lamp group for plant including a plurality of plug lamps for plant

Technical Field

The invention relates to a plant plug lamp and a plant plug lamp group comprising a plurality of plug lamps for plants.

Background

The plant can beautify the environment and also can provide the nutritive value required by the body. When planting plants, special attention needs to be paid to whether the light supplied to the plants is sufficient, and if the light is not sufficient, the growth of the plants is influenced.

In the prior art, a flowerpot structure with illumination is provided, which includes a pot body, a lamp body connected to the pot body, and a control switch electrically connected to the lamp body, wherein culture soil is placed in the pot body to plant a plant, and the lamp body provides illumination required by the plant. However, the lamp body of the flowerpot structure with illumination of the prior art needs to be manually adjusted, and the lamp body is integrally formed on the flowerpot body, so that the illumination height is fixed. However, the distance between the lamp body and the plant is gradually shortened when the plant grows, so that the distance between the lamp body and the plant is too short, and the height of the lamp body in the prior art cannot be automatically adjusted according to the growth condition of the plant, thereby influencing the growth of the plant. Furthermore, the lamp body of the prior art is fixed on the pot body, and can not move freely, thereby having the limitation of use.

Therefore, it is necessary to provide a novel and advanced plant insert lamp and a plant insert lamp set including the same to solve the above problems.

Disclosure of Invention

The present invention provides a plant lamp and a lamp set including a plurality of the lamp for plants, which can be detachably inserted into a base and can adjust the height of a lamp body according to the growth condition of plants.

To achieve the above object, the present invention provides a plant lamp for being inserted into a base for planting at least one plant, the plant lamp comprising: the rod body extends towards one axial direction and comprises an inserting part which is inserted into the base part; the lamp body is sleeved on the rod body in a movable manner along the axial direction and comprises at least one light-emitting unit, a plant growth sensor and a processor, the at least one light-emitting unit and the plant growth sensor are respectively and electrically connected with the processor, and the light-emitting unit is used for irradiating towards the direction of the base part; the lifting mechanism comprises a first lifting unit arranged on the rod body and a second lifting unit arranged on the lamp body, one of the first lifting unit and the second lifting unit can be driven by a power source, the second lifting unit is movably connected to the first lifting unit, and the power source is electrically connected with the processor; the plant growth sensor senses the height of the plant to generate and transmit at least one plant height signal to the processor, and the processor starts the power source when judging that the at least one plant height signal is different from preset height information.

In order to achieve the above object, the present invention further provides a plug light set for plants, which comprises a plurality of plug lights for plants as described above, wherein the plurality of plug lights for plants are connected with each other in a wired or wireless manner.

The invention has the advantages that:

the plant plug lamp and the plant plug lamp group comprising the plant plug lamps are detachably inserted into a base part, and the height position of a lamp body can be adjusted according to the growth condition of plants.

Drawings

Fig. 1 is a perspective view of a first preferred embodiment of the present invention.

Fig. 2 and 3 are partial sectional views of a first preferred embodiment of the present invention.

FIG. 4 is a state diagram of a first preferred embodiment of the present invention.

FIG. 5 is a block diagram of a first preferred embodiment of the present invention.

Fig. 6 is a perspective view of a second preferred embodiment of the present invention.

Fig. 7 and 8 are operation diagrams of a second preferred embodiment of the present invention.

FIG. 9 is a diagram illustrating a state of use of a second preferred embodiment of the present invention.

FIG. 10 is a diagram illustrating a state of use of a third preferred embodiment of the present invention.

Detailed Description

The following description is given by way of example only, and is not intended to limit the scope of the invention.

Referring to fig. 1 to 5, which illustrate a first preferred embodiment of the present invention, a plant-use plug lamp 1 of the present invention is provided for being inserted into a base 2, the base 2 is provided for planting at least one plant, and the plant-use plug lamp 1 includes a rod 10, a lamp body 20 and a lifting mechanism 30. Further, the base 2 is, for example, soil.

The rod 10 extends in an axial direction L, and the rod 10 includes an inserting portion 11 for inserting into the base 2; the lamp body 20 is movably sleeved on the rod body 10 along the axial direction L, and the lamp body 20 includes at least one light emitting unit 21, a plant growth sensor 22 and a processor 23. In the present embodiment, the plant growth sensor 22 is a camera for capturing images of the growth of the plant for analysis by the processor 23.

The at least one light emitting unit 21 and the plant growth sensor 22 are electrically connected to the processor 23, respectively, and the light emitting unit 21 is used for irradiating towards the base 2 to directly irradiate plants; the lifting mechanism 30 includes a first lifting unit 31 disposed on the rod 10 and a second lifting unit 32 disposed on the lamp 20, one of the first lifting unit 31 and the second lifting unit 32 can be driven by a power source 33, the second lifting unit 32 is movably connected to the first lifting unit 31, and the power source 33 is electrically connected to the processor 23. In detail, one of the first lifting unit 31 and the second lifting unit 32 is a gear row, and the other is a gear clamped to the gear row, and the power source 33 drives the gear to rotate; in this embodiment, the first lifting unit 31 is the rack, the second lifting unit 32 is the gear, the power source 33 is provided by a driving motor, and the power source 33 drives the gear to rotate, so that the lamp body 20 is movably positioned on the rod 10. In other embodiments, the first lifting unit 31 may be an external thread. In addition, the lamp body 20 further includes a housing 24 and a carrying portion 25, each of the light emitting unit 21 and the plant growth sensor 22 is respectively disposed on one side of the carrying portion 25, the power source 33 and the second lifting unit 32 are respectively disposed on the other side of the carrying portion 25, the housing 24 is covered on the carrying portion 25, the power source 33 and the second lifting unit 32 are accommodated between the housing 24 and the carrying portion 25, so as to protect the power source 33 and the second lifting unit 32 from being damaged by external environmental factors (e.g., wind, sun, rain, etc.), thereby increasing the service life.

Wherein, the plant growth sensor 22 senses the height of the at least one plant to generate and transmit at least one plant height signal to the processor 23, and the processor 23 starts the power source 33 when determining that the at least one plant height signal is different from a preset height information; in detail, the processor 23 analyzes the difference between the plant height signal and the preset height information to adjust the lamp body 20 to move to a proper position. That is, the position of the lamp body 20 may be automatically adjusted according to the growing state of the plant, for example, the growing height, to maintain the distance between the lamp body 20 and the plant. It is worth mentioning that the invention can be detachably inserted into the base 2, which is beneficial to adjusting the inserting position and the inserting place, and can be used in a plurality of places, such as a container (such as a pot 4), an agricultural land, a plant cultivation land, etc. Wherein, the number of the at least one plant can be a plurality.

In the present embodiment, the insertion portion 11 has a tapered shape for smooth insertion into the base portion 2. Preferably, the rod 10 is a hollow tube, so that the base 2 (e.g. soil) can be partially received in the rod to improve the positioning effect.

Each of the light emitting units 21 includes a plurality of light emitters having at least two emission colors, such as

light emitters

211 and 212. Preferably, the processor 23 can control at least one of the light emitters to be turned on or off according to a plant growth state sensed by the plant growth sensor 22, so as to provide a color light source required by plant growth. Each of the light emitters may be an incandescent lamp, a fluorescent lamp, a high intensity discharge lamp (HID), or a Light Emitting Diode (LED). In detail, the plurality of light-emitting bodies include, for example, a red light-emitting diode, a blue light-emitting diode, a green light-emitting diode, a yellow light-emitting diode, an orange light-emitting diode, a far-red light-emitting diode, and ultraviolet light (UV). The red light emitting diode is used to illuminate the plant to make the plant grow high; irradiating plants with blue light emitting diode can inhibit stem elongation, promote chlorophyll synthesis, facilitate nitrogen assimilation and protein synthesis and antioxidant substance synthesis, and influence phototropism, photomorphogenesis, stomatal opening and leaf photosynthesis of plants; the green light LED, the blue light LED and the red light LED are used to illuminate the plant to harmoniously adjust and adapt to the growth and development of the plant; the yellow light emitting diode and the orange light emitting diode can improve the nutrition quality of the plant; the Ultraviolet (UV) and far-red light emitting diodes have the function of regulating and controlling the growth of plants; therefore, the color of the light source suitable for irradiation can be regulated and controlled according to the requirements of plant varieties, growth states and the like.

In this embodiment, the number of the at least one light emitting unit 21 is plural, and the plural light emitting units 21 are disposed around the axial direction to increase the illumination range.

The rod 10 further has a shielding portion 12, the shielding portion 12 is spaced apart from the inserting portion 11, the second lifting unit 32 is disposed between the shielding portion 12 and the inserting portion 11, and the shielding portion 12 shields the second lifting unit 32 in the axial direction L to shield sunlight and rain; in addition, a soft mask can be covered on the shielding portion 12 to cover the rod 10 and the lamp body 20, and the soft mask can be, for example, a mesh cloth to block mosquitoes and avoid interfering with the operation of the lamp body 20.

The plant plug-in lamp 1 further comprises a central processing unit 40 and a plant control APP50, wherein the central processing unit 40 can be located in the cloud, such as a cloud server, and can also be located in a mobile device 3. The processor 23 and the plant control APP50 are respectively in communication with the central processing unit 40, and the plant control APP50 can be directly in communication with the processor 23 in a wireless (e.g., bluetooth or wifi) manner to control the status of the lamp body 20. The cpu 40 stores a processor control history information and a plant control APP control history information, and the plant control APP50 can load the processor control history information and the plant control APP control history information for the user to view the history of the processor 23 controlling the lamp body 20 and the history of the user's own control of the lamp body 20. In detail, the processor control history information is the record of each time the processor 23 controls the lamp 20, such as the time record of turning on and off the power source 33 and turning on and off each of the light emitting units 21. The plant control APP50 control history information is recorded for each time the plant control APP50 controls the light body 20. In addition, the central processing unit 40 further stores a plurality of plant growth light regulation information, and the processor 23 can regulate the plurality of light emitting units 21, such as on/off state and light emitting intensity, according to the plurality of plant growth light regulation information and the growth state information of the plants sensed by the plant growth sensor 22. In addition, the plant growth sensor 22 can be used to capture the plant to obtain the plant image information and upload the plant image information to the CPU 40 for storage. In detail, the plant image information can be stored in the mobile device 3, and also can be stored in the cloud.

The stick 10 includes an outer tube 13 and an inner tube 14 communicating with the outer tube 13, the outer tube 13 has an opening 131 communicating with the inside and outside, a water storage space 16 is formed between the outer tube 13 and the inner tube 14, the outer tube 13 has a plurality of through holes 15 communicating with the water storage space 16 and the outside, the inner tube 14 is disposed in the outer tube 13, the inner tube 14 includes a water inlet 141 and a water outlet 142, the water inlet 141 communicates with the opening 131, the water outlet 142 communicates with the through holes 15 and the water storage space 16, and liquid is filled from the opening 131 through the water inlet 141. In detail, the inner tube 14 can be further connected to a water storage container, so that the inner tube 14 can suck the liquid in the water storage container to the water outlet 142 through siphonage and discharge the liquid, and when the base (such as soil) is too dry, the liquid can be discharged from the through hole 15; when the humidity of the base 2 is sufficient and the liquid covers all the through holes 15 and the water outlet 142, the water outlet 142 stops draining. In other embodiments, the inner tube may be connected to an outlet source (e.g., a faucet) for actively filling with liquid.

Preferably, the water outlet 142 is closer to the inserting portion 11 than the plurality of through holes 15, and water is discharged from the water outlet 142 into the outer tube 13 for storage and then discharged to the base portion 2 through the through holes 15. In other embodiments, the opening may be in communication with a water reservoir, and a water pump may be used to pump water from the water reservoir into the inner tube.

Referring to fig. 6 to 8, a second preferred embodiment of the present invention is shown, which is different from the first embodiment in that the plant insert lamp 1 further includes a solar device 60, the solar device 60 includes two solar panels 61, and the solar device 60 is electrically connected to the lamp body 20 and the lifting mechanism 30. Specifically, the solar device 60 is electrically connected to the light emitting units 21, the plant growth sensor 22, the processor 23 and the power source 33, and the two solar panels 61 are swingably disposed on the rod 10, so that the two solar panels 61 can swing to a proper position according to the irradiation direction of the sunlight.

The lamp body 20 is further provided with a light sensor 70, the light sensor 70 is electrically connected to the processor 23, and the processor 23 adjusts and controls the included angle between each of the light emitting units 21 and the two solar panels 61 and the axial direction L according to an ambient light information generated by the light sensor 70, that is, the light intensity of the current environment, so that the two solar panels 61 can be automatically adjusted and controlled to swing according to the intensity of the environment and the light direction.

Please refer to fig. 9, which shows a second preferred embodiment of the present invention, which is a plant lamp set 1 including a plurality of the above-mentioned plant lamps, wherein the plant lamps 1 are connected with each other in a wired or wireless manner. In this embodiment, the processors 23 of the plug lamps 1 for plants are wirelessly connected to each other, that is, the plug lamps 1 for plants can be wirelessly connected to each other in WIFI or bluetooth for simultaneous operation, such as driving the lifting mechanism 30 and controlling the light emitting units 2. Referring to fig. 10, a third preferred embodiment of the present invention is shown, in which the plant-use plug lamps 1 are connected with each other by wires, for example, the plant-use plug lamps 1 are electrically connected in series by wires 80.

The invention relates to a plant plug lamp and a plant plug lamp set comprising a plurality of the plant plug lamps, wherein the processor is used for judging the plant height signal so as to automatically adjust the position of the lamp body.

The above description is of the preferred embodiment of the present invention and the technical principles applied thereto, and it will be apparent to those skilled in the art that any changes and modifications based on the equivalent changes and simple substitutions of the technical solution of the present invention are within the protection scope of the present invention without departing from the spirit and scope of the present invention.

Claims

1. A plant insert lamp, for inserting into a base, the base for planting at least one plant, the plant insert lamp comprising:

the rod body extends towards an axial direction and comprises an inserting part which is inserted into the base part;

the lamp body is sleeved on the rod body in a movable mode along the axial direction and comprises at least one light-emitting unit, a plant growth sensor and a processor, the at least one light-emitting unit and the plant growth sensor are electrically connected with the processor respectively, and the light-emitting unit is used for irradiating towards the direction of the base;

the lifting mechanism comprises a first lifting unit arranged on the rod body and a second lifting unit arranged on the lamp body, one of the first lifting unit and the second lifting unit can be driven by a power source, the second lifting unit is movably connected to the first lifting unit, and the power source is electrically connected with the processor;

the plant growth sensor senses the height of the plant to generate and transmit at least one plant height signal to the processor, and the processor starts the power source when judging that the at least one plant height signal is different from preset height information.

2. The inserting lamp for plants as claimed in claim 1, wherein one of the first elevating unit and the second elevating unit is a rack, the other one is a gear engaged with the rack, the power source drives the gear to rotate, and the power source is provided by a driving motor.

3. The plant lamp according to claim 1, wherein each of the light emitting units comprises a plurality of light emitting bodies having at least two emission colors; the processor can control the on-off of at least one luminous body according to the growth state information of the plant sensed by the plant growth sensor; the number of the at least one light-emitting unit is a plurality, and the plurality of light-emitting units are arranged around the axial direction.

4. The lamp as claimed in claim 1, wherein the rod further comprises a shielding portion, the second lifting unit is disposed between the shielding portion and the inserting portion, and the shielding portion shields the second lifting unit in the axial direction.

5. The plug-in light for plants as claimed in claim 1, further comprising a central processing unit and a plant control APP, the processor and the plant control APP are respectively in communication with the central processing unit, the central processing unit stores a processor control history information and a plant control APP control history information, and the plant control APP can be loaded with the processor control history information and the plant control APP control history information.

6. The light plug as claimed in claim 1, further comprising a solar device, wherein the solar device comprises two solar panels, the solar device is electrically connected to the lamp body 20 and the lifting mechanism 30, and the two solar panels are swingably disposed on the rod body.

7. The plant lamp according to claim 4, wherein the inserting portion has a tapered shape; the first lifting unit is a gear row, the second lifting unit is a gear clamped on the gear row, the power source drives the gear to rotate, and the power source is provided for a driving motor; the rod body is further provided with a shielding part, the shielding part and the inserting part are arranged at intervals, the second lifting unit is arranged between the shielding part and the inserting part, and the shielding part shields the second lifting unit in the axial direction; the plant plug-in lamp also comprises a central processing unit and a plant control APP, the processor and the plant control APP are respectively communicated with the central processing unit, the central processing unit stores processor control process information and plant control APP control process information, and the plant control APP can be loaded with the processor control process information and the plant control APP control process information; the plug lamp for plants further comprises a solar device, the solar device comprises two solar panels, the solar device is electrically connected with the light-emitting units, the plant growth sensor, the processor and the power source, and the two solar panels are arranged on the rod body in a swinging mode; the light body is further provided with an optical sensor which is electrically connected with the processor, and the processor regulates and controls the included angle between each light-emitting unit and the two solar panels and the axial direction according to ambient light information generated by the optical sensor; the central processing unit further stores a plurality of plant growth light regulation information, and the processor can regulate and control the plurality of light emitting units according to the plurality of plant growth light regulation information and by cooperating with the plant growth sensor to sense the growth state information of the plant; the plant growth sensor can be used for shooting plants to obtain plant image information and uploading the plant image information to the central processing unit for storage; the lamp body further comprises a shell and a bearing part, each light-emitting unit and the plant growth sensor are respectively arranged on one side of the bearing part, the power source and the second lifting unit are respectively arranged on the other side of the bearing part, the shell is covered on the bearing part, and the power source and the second lifting unit are accommodated between the shell and the bearing part.

8. The light plug as claimed in any one of claims 1 to 7, wherein the rod body comprises an outer tube and an inner tube communicating with the outer tube, the outer tube has an opening communicating with the inside and the outside, a water storage space is formed between the outer tube and the inner tube, the outer tube has a plurality of through holes communicating with the water storage space and the outside, the inner tube comprises a water inlet and a water outlet, the water inlet communicates with the opening, and the water outlet communicates with the through holes and the water storage space.

9. A plant lamp set comprising a plurality of the plant lamps of any one of claims 1 to 7, wherein the plurality of plant lamps are connected to each other in a wired or wireless manner.

10. The plant lamp set according to claim 9, wherein the processors of the plurality of plant lamp units are wirelessly connected to each other.