阅读说明：本技术 一种基于3d打印技术的智能花盆 (Intelligent flowerpot based on 3D printing technology ) 是由 王子予 董咏麟 于 2019-11-13 设计创作，主要内容包括：本发明公开了一种基于3D打印技术的智能花盆,包括内胆,内胆底部设置有网状沥水孔,沥水孔下方活动连接有外壳储水槽,所述内胆顶部固定连接有内圈,内圈与外圈转动连接,内胆侧面固定连接有设备盒,设备盒内侧电性连接有电机、喷淋水泵和蠕动泵,电机输出端通过齿轮与外圈上固定的齿圈啮合,喷淋水泵出水口连接有末端位于内胆中的循环喷淋管,蠕动泵与液肥储罐通过软管连接,软管末端连通外壳储水槽。本发明结构简单,使用方便,采用3D打印技术打印花盆,配合传感器、水泵、电机等电力设备,实现对花盆内植物的智能栽培,充分满足植物的各种需求,此外装置还能够通过矫正植物向光方向,从而实现对植物生长姿态的调整,智能化程度高。(The invention discloses an intelligent flowerpot based on a 3D printing technology, which comprises an inner container, wherein the bottom of the inner container is provided with a net-shaped draining hole, a shell water storage tank is movably connected below the draining hole, the top of the inner container is fixedly connected with an inner ring, the inner ring is rotatably connected with the outer ring, the side surface of the inner container is fixedly connected with an equipment box, the inner side of the equipment box is electrically connected with a motor, a spray water pump and a peristaltic pump, the output end of the motor is meshed with a gear ring fixed on the outer ring through a gear, the water outlet of the spray water pump is connected with a circulating spray pipe with the tail end positioned in the inner container, the peristaltic pump is connected with a liquid. The intelligent flowerpot is simple in structure and convenient to use, intelligent cultivation of plants in the flowerpot is achieved by adopting a 3D printing technology to print the flowerpot and matching with power equipment such as a sensor, a water pump and a motor, various requirements of the plants are fully met, in addition, the device can also adjust the growth posture of the plants by correcting the direction of the light of the plants, and the intelligent degree is high.)

1. The intelligent flowerpot based on the 3D printing technology comprises an inner container (8), wherein a net-shaped draining hole (7) is formed in the bottom of the inner container (8), and is characterized in that an inner ring (2) is fixedly connected to the top of the inner container (8), the inner ring (2) is rotatably connected with an outer ring (1), an equipment box (4) is fixedly connected to the side face of the inner container (8), a motor (3), a spray water pump and a peristaltic pump are electrically connected to the inner side of the equipment box (4), the output end of the motor (3) is meshed with a gear ring fixed on the outer ring (1) through a gear, a water outlet of the spray water pump is connected with a circulating spray pipe with the tail end positioned in the inner container (8), the peristaltic pump is connected with a liquid fertilizer storage tank through a hose, and the tail end; the lower part of the outer side of the inner container (8) is provided with a liquid level sensor (6), an electrolyte concentration sensor is arranged in the water storage tank (5) of the shell, and the liquid level sensor (6) is electrically connected with the electrolyte concentration sensor and the control mainboard.

2. An intelligent flowerpot based on 3D printing technology as claimed in claim 1, wherein the bottom of the housing water storage tank (5) is inclined.

3. An intelligent flowerpot based on 3D printing technology according to claim 1 or 2, wherein the inner ring (2) is made of Teflon.

4. An intelligent flowerpot based on 3D printing technology as claimed in claim 3, wherein the control mainboard is located inside the equipment box (4).

5. An intelligent flowerpot based on 3D printing technology as claimed in claim 4, wherein the liquid level sensor (6) is provided with three levels which are respectively arranged on the upper, middle and lower layers of the inner container (8).

6. An intelligent flowerpot based on 3D printing technology as claimed in claim 1, wherein the water pump inlet is connected with the water storage tank (5) of the housing, and the water pump inlet is provided with a filter screen.

7. The intelligent flowerpot based on the 3D printing technology as claimed in claim 1, 2 or 6, further comprising a housing, wherein the housing is sleeved outside the outer ring (1), a plurality of pressure sensors are uniformly distributed on the top of the outer ring (1), and the pressure sensors are electrically connected with the control mainboard.

8. An intelligent flowerpot based on 3D printing technology as claimed in claim 1, wherein a battery for driving is arranged in the equipment box (4).

9. An intelligent flowerpot based on 3D printing technology as claimed in claim 7, wherein the control mainboard is electrically connected with the mobile terminal through a network.

10. An intelligent flowerpot based on 3D printing technology as claimed in claim 1, wherein the inner container (8) and the outer shell are both made by 3D printing.

Technical Field

The invention relates to the field of flowerpots, in particular to an intelligent flowerpot based on a 3D printing technology.

Background

The intelligent flower watering device which is common in the market at present has the functions of watering at set timing, watering based on pressure difference, automatically spraying and watering by using the weight change of a flowerpot, and automatically watering according to the humidity induction in the flowerpot.

The respiratory growth demand of plant is often neglected to current intelligent moisturizing flowerpot, and the plant roots that moisture is abundant is in the cultivation system that ventilation effect is poor decay very easily and declines. In addition, the methods of timed watering and watering based on differential water pressure do not allow for control of the water volume based on plant characteristics and demand. A system watering according to the weight difference is easily misjudged by environmental disturbance (weight change caused by plant pruning or growth); watering is carried out according to the humidity change in the flowerpot, and the precision problem is easily caused by the interference of the arrangement position of the sensor, the air humidity and the season change. Meanwhile, the intelligent control systems cannot adjust, correct and manage according to the growth state of the plants, and the growth state of the plants is difficult to guarantee for a long time.

For this reason, the person skilled in the art proposes an intelligent flowerpot based on 3D printing technology to solve the problems proposed in the background above.

Disclosure of Invention

The invention aims to provide an intelligent flowerpot based on a 3D printing technology to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

an intelligent flowerpot based on a 3D printing technology comprises an inner container, wherein a mesh-shaped draining hole is formed in the bottom of the inner container, a fine-hole filter screen is installed on the inner container, an inner ring is fixedly connected to the top of the inner container, the inner ring is rotatably connected with an outer ring, an equipment box is fixedly connected to the side face of the inner container, a motor, a spray water pump and a peristaltic pump are electrically connected to the inner side of the equipment box, the output end of the motor is meshed with a gear ring fixed on the outer ring through a gear, the water outlet of the spray water pump is connected with a circulating spray pipe of which the tail end is located in the inner container, the peristaltic; the lower part of the outer side of the inner container is provided with a liquid level sensor, an electrolyte concentration sensor is arranged in the water storage tank of the shell, and the liquid level sensor and the electrolyte concentration sensor are electrically connected with the control mainboard.

As a further scheme of the invention: the bottom of the water storage tank of the shell is in an inclined state.

As a still further scheme of the invention: the inner ring is made of Teflon material.

As a still further scheme of the invention: the control main board is located in the equipment box.

As a still further scheme of the invention: the liquid level sensors are arranged in three, and are respectively arranged on the upper layer surface, the middle layer surface and the lower layer surface of the inner container.

As a still further scheme of the invention: the water inlet of the water pump is connected with the water storage tank of the shell, and the water inlet of the water pump is provided with a filter screen.

As a still further scheme of the invention: the water storage tank is arranged at the bottom of the shell, and the bottom of the shell is in an inclined posture.

As a still further scheme of the invention: and a battery for driving is arranged in the equipment box.

As a still further scheme of the invention: the control mainboard is electrically connected with the mobile terminal through a network.

As a still further scheme of the invention: the inner container and the shell are both manufactured in a 3D printing mode

Compared with the prior art, the invention has the beneficial effects that: the intelligent flowerpot is simple in structure and convenient to use, intelligent cultivation of plants in the flowerpot is achieved by adopting a 3D printing technology to print the flowerpot and matching with power equipment such as a sensor, a water pump and a motor, various requirements of the plants are fully met, the device can also adjust the growth posture of the plants by correcting the direction of the plants to the light, the intelligent degree is high, the effect is good, and the intelligent flowerpot is worthy of popularization.

Drawings

FIG. 1 is an electrical system schematic diagram of an intelligent flowerpot based on 3D printing technology;

FIG. 2 is an overall structure diagram of an inner container in the intelligent flowerpot based on a 3D printing technology;

FIG. 3 is a sectional view of an integrated structure of an intelligent flowerpot inner container and a shell which are assembled based on a 3D printing technology;

FIG. 4 is an explosion diagram of an intelligent flowerpot based on a 3D printing technology;

in the figure: 1-outer ring, 2-inner ring, 3-motor, 4-equipment box, 5-shell water storage tank, 6-liquid level sensor, 7-reticular draining hole and 8-inner container.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Referring to fig. 1-4, the intelligent flowerpot based on the 3D printing technology comprises a housing and an inner container 8, wherein the housing is manufactured by the 3D printing technology, can be customized according to the personalized requirements of users, and can be customized in size, shape, external texture and pattern. The printing of shell uses SLA photocuring 3D printing technique shaping, and the spraying paint of optional appointed colour colors or beautifies with the pattern sticker, can also use translucent photosensitive resin to print in addition, conveniently demonstrates inner structure, makes the product more have the science and technology and feels.

The main body part of the inner container 8 is manufactured by using a 3D printing technology, the material is preferably nylon, and the nylon is printed and formed in an SLS (selective laser sintering) mode to obtain better strength and toughness. The size of the inner container 8 can also be adjusted according to the plant to be cultivated. The bottom of the inner container 8 is provided with a plurality of draining holes, a grid structure is adopted, and a fine hole filter screen is lined, so that the water is guaranteed to permeate and meanwhile the soil is prevented from leaking downwards. The leaked water is directly converged into the shell water storage tank 5, the bottom of the shell water storage tank 5 is designed to be inclined, and the collected water energy is guaranteed to be concentrated on one side so as to be conveniently sucked by a water pump.

The upper edge of the inner container 8 is fixed with the inner container 2, the inner container 2 is preferably made of Teflon plastic, the rotation smoothness is guaranteed, the outer ring 1 is provided with a gear ring, the inner container 8 can be driven by a motor 3 fixed on the outer wall of the inner container to rotate, the motor 3 is preferably a direct-current speed reduction motor, the uniform illumination in all directions can be guaranteed, and the effect of rotary display can be achieved.

The inner container 8 part also comprises a controller mainboard, a power supply module, a liquid level sensor 6 probe, a circulating spray pipe, a spray water pump, an electrolyte concentration sensor, a liquid fertilizer storage tank and a micro peristaltic pump.

Wherein controller mainboard, water pump are settled in the equipment box 4 of 8 sides of inner bag, and three level sensor 6 probes are arranged at 8 internal part three-layers of inner bag, fix on the inner wall to wire through having the protective sheath links to each other with the controller mainboard, and the delivery port of water pump is connected to circulation shower one end, and the other end passes inner bag 8 and upwards extends to inside the flowerpot. The electrolyte concentration sensor is disposed in a recessed portion of the bottom of the housing water reservoir 5, and can detect only a small amount of water. The main components of the fertilizer are ammonium phosphate and sylvite, ions are formed after the fertilizer is dissolved in water, so that the conductivity of the water is changed, an electrolyte concentration sensor works on the basis of the principle, the concentration of nitrogen, phosphorus and sylvite nutrients in the soil is estimated by measuring the conductivity of the water flowing through the soil, when the concentration of the soil nutrients is found to be lower than a certain threshold value, a controller starts a peristaltic pump, a certain amount of liquid fertilizer is pumped into a water storage tank of a shell through a hose, and prompt information is sent to a mobile phone of a user through a port of the Internet of things.

The adopted liquid level sensors 6 are arranged outside the inner container in three layers, are respectively marked as a high-level sensor, a normal-level sensor and a low-level sensor from top to bottom and are used for measuring the height of the liquid level in the water storage tank of the shell. When the high water level sensor detects the liquid level, the water level sensor indicates that the water is excessively added, the controller sends information to a user for alarming, when the water level is between the high water level and the low water level, the controller starts the water pump to pump the water in the water storage tank 5 of the shell, and the water is sent to the upper part of the soil through the circulating spray pipe for circulating water supplement. When the liquid level is lower than the position of the low water level sensor, the controller sends a water adding prompt to the user. A filter screen is arranged at one end of a water inlet of the water pump, so that foreign matters such as gravel, plant roots and the like are prevented from entering the water pump to cause damage. The whole intelligent system realizes an automatic cultivation system of dry and wet partition, dynamic water circulation and nutrient supply of plants, saves water, protects environment, and is beneficial to plant root system moistening and ventilation and nutrient absorption.

The opening size of shell is slightly bigger than 1 diameter of outer lane, can directly cup joint together, is provided with 6 high sensitivity's film pressure sensor according to the equidistant circle on the contact surface of outer lane 1 and shell for analysis plant centre of gravity position and gesture, when discovering that the plant growth direction takes place the slope, automatic control motor 3 starts, and the illumination direction is received to the adjustment plant, and the better molding of growing of help plant is better.

When the system is used by a user, firstly, soil is filled into the inner container 8, plants are planted, then the inner container is filled into the battery, a certain amount of clear water is filled into the outer shell, the system can start to work, and finally, the inner container 8 is sleeved into the outer shell.

The integrated bluetooth and wiFi module that has on the controller mainboard can be connected to user's cell-phone and WiFi, adopts MQTT agreement to insert thing networking server, realizes the data record and the real time monitoring of soil state, and the user can look over the trend of change of soil humidity and fertilizer concentration in current moment and a period of time in the past through the APP of cell-phone end.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.