CN220712417U - Intelligent water planting device of internet of things - Google Patents

Abstract

The utility model relates to an intelligent water planting device of the Internet of things, which comprises a main body bracket and water planting water storage pipes, wherein the water planting water storage pipes are straight pipes and are uniformly embedded with culture baskets. The main part support is the pipeline support of bilateral symmetry distribution, pipeline support is equipped with at least a set of coupling that distributes from top to bottom, special pipe joint is all connected at the both ends of water planting water storage pipe, water planting water storage pipe both ends form fixedly through special pipe joint and both sides pipeline support, the water planting water storage pipe after fixing is the level setting and is the upper and lower distribution, the water planting water storage pipe of upper and lower distribution forms by the inside passageway of both sides pipeline support and from top to bottom series flow conduction, the coupling that the water inlet end of the water planting water storage pipe of top corresponds is equipped with the interface of intaking, the pipeline support that the water outlet end of the water planting water storage pipe of bottom corresponds is equipped with the drainage interface, the drainage interface inserts the water tank, the water tank passes through the water pump and connects the interface of intaking. The pipeline bracket is used as a main body support and a through-flow pipeline, so that the whole structure is simplified, and the water planting is convenient.

Description

Intelligent water planting device of internet of things

Technical Field

The utility model relates to the field of planting equipment, in particular to an intelligent water planting device of the Internet of things.

Background

The water planting device is a device which is cultivated by totally or partially depending on water, when the water is cultivated totally, the water is usually nutrient solution, and the cultivation mode can realize efficient crop cultivation without depending on soil. When the water body culture is adopted in part, the culture mode of combining soil and water body is usually adopted, and the high-efficiency culture and growth of crops can be realized. For example, the patent publication number CN218604415U in china patent publication is the title of "water planting device and water planting system based on internet of things" in the year 2023 and the month 14, which introduces a water circulation mechanism to circulate the water planting solution in the water planting boxes with multiple groups of vertically spaced arrangement, and the water source is arranged in the circulating water box, so that the cultivation personnel only needs to add the nutrient solution and water into the circulating water box. In addition, the flow guide pipe used by the water circulation mechanism not only serves as a flow guide piece of the culture solution, but also can be reused as a stress support piece, and the lower water planting box is provided with a certain auxiliary support for the upper water planting box by matching with the support ring. However, the whole structure is complex, and an independent mounting frame is still required to be used as a main body for supporting, so that the whole supporting and the use cannot be realized only by means of the pipe fitting. For this reason, improvements to existing hydroponic apparatus are to be made.

Disclosure of Invention

In order to overcome the defects, the utility model aims to provide the intelligent water planting device for the Internet of things for solving the technical problem that the conventional water planting device of the same type needs to take an independent mounting frame as a supporting main body and cannot take a pipe fitting as the supporting main body to realize the water planting function. The aim is achieved by the following technical scheme.

The intelligent water planting device of the Internet of things comprises a main body bracket and a water planting water storage pipe, wherein the water planting water storage pipe is a straight pipe; the water storage device is characterized in that the main body support is a pipeline support which is symmetrically distributed on two sides, the pipeline support is provided with at least one group of pipe joints which are vertically distributed, two ends of each water storage pipe are connected with special pipe joints, each special pipe joint is provided with a large opening and a small opening, the large opening is in sealing connection with the pipe orifice of the water storage pipe, the small opening is in sealing connection with the pipe joints, namely, two ends of the water storage pipe are fixed with the two side pipeline supports through the special pipe joints, the fixed water storage pipes are horizontally arranged, the water storage pipes corresponding to each group of pipe joints are vertically distributed, the water storage pipes distributed up and down form series flow conduction from top to bottom through passages in the pipeline support on two sides, the pipe joint corresponding to the water inlet end of the uppermost water storage pipe in each group of the water storage pipes which is vertically distributed is provided with a water inlet interface, the pipeline support corresponding to the water outlet end of the lowermost water storage pipe is provided with a water outlet interface, the water inlet interface is connected with a water outlet pipeline of a water pump, the water outlet interface is connected with a water tank, and the water tank is connected with the water inlet pipeline of the water pump, namely, circulating water supply is formed; the water culture water storage pipe is provided with an upward opening culture port along the length direction of the pipe, a culture basket for crop culture is embedded in the culture port, and the bottom and/or the side surface of the culture basket are provided with holes which are in contact with water in the water culture water storage pipe. The pipeline support can serve as a main support of the water planting device to play a supporting role, and can also serve as a through-flow pipeline directly, so that the pipe distribution structure of the water planting device is greatly simplified, the manufacturing cost is relatively low, and the water planting device is convenient to use and operate.

The pipeline bracket is trapezoid, the pipe joint is a three-way joint, one of the through holes of the three-way joint is in sealing connection with the small hole of the special-shaped pipe joint, the other through holes are in sealing connection with the straight pipe fitting to form the trapezoid, and the port of part of the straight pipe fitting is provided with a sealing plug to enable the inside of the trapezoid pipeline bracket to form a passage for series flow conduction; the trapezoid middle part or the bottom of the pipeline bracket is connected with a pull rod piece which is oppositely pulled. The structure is easy to install, and the whole support is stable.

The pipeline support is fixedly provided with a controller for controlling the water pump to work, the controller is connected with a temperature and humidity sensor in a circuit, the temperature and humidity sensor is connected into the soil of one of the culture baskets of the water culture water storage pipe and monitors the temperature and humidity of the soil, and when the temperature and humidity reach a set range, the controller starts the water pump to work, otherwise, the water pump is stopped to work. Through this structure, realize this hydroponic device and realize automatic cycle moisturizing according to the change of humiture, comparatively intelligent.

The controller circuit is connected with the light sensor and the growth auxiliary light source, the light sensor is fixed on the pipeline support and senses illumination, and when the pipeline sensing of the light sensor reaches a set range, the controller starts the growth auxiliary light source to perform auxiliary illumination on crops of the culture basket. Through this structure, realize automatic light filling operation, be favorable to crop growth.

The controller is in communication connection with external remote control equipment, namely, the remote control of the Internet of things is formed. Through this structure, the remote control connection of being convenient for, the management is comparatively convenient.

The utility model has simple integral structure, adopts the pipe fitting as the main body of the integral support, not only effectively utilizes the through-flow function of the pipe fitting, but also plays a stable supporting role, has lower manufacturing cost, can realize automatic water supplementing operation, has more convenient and intelligent water planting use, and is suitable for being used as an automatic water planting device or the structural improvement of the same type of water planting device.

Drawings

FIG. 1 is a schematic view of the present utility model, partially in section, with arrows indicating the flow direction of water.

Fig. 2 is a schematic top plan view of fig. 1.

Fig. 3 is a schematic side view of fig. 1, partially in section and enlarged.

FIG. 4 is a schematic view of another embodiment of the present utility model, wherein arrows indicate water flow direction.

The serial numbers and names in the figures are: 1. pipeline support, 2, tee bend spare, 3, straight pipe fitting, 4, water inlet connection, 5, drainage connection, 501, drain pipe, 6, water planting water storage pipe, 601, cultivate the mouth, 7, cultivate basket, 8, special pipe joint, 9, water tank, 10, water pump, 11, outlet pipe way, 12, controller, 13, sealed end cap, 14, pull rod piece.

Description of the embodiments

The utility model will now be further described with reference to the accompanying drawings.

As shown in fig. 1-3, the intelligent water planting device of the internet of things comprises a main support and a water planting water storage pipe 6, wherein the water planting water storage pipe is a straight pipe, culture ports 601 with upward openings are uniformly distributed in the water planting water storage pipe along the length direction of the pipe, the culture ports are used for being embedded into a culture basket 7 for culturing crops, and openings which are in contact with water bodies in the water planting water storage pipe are formed in the bottom and/or the side face of the culture basket. The main body support is a pipeline support 1 which is symmetrically distributed on two sides, the pipeline support is formed by combining a long straight pipe 3 and a short straight pipe 2 with a tee joint, and butt joint sealing is formed between the straight pipe and the tee joint in a nested sealing ring or glue beating mode. The pins at the two sides of the trapezoid are sleeved with a pull rod piece 14 to form a stable trapezoid support. The two side pipelines of the pipeline bracket are provided with a plurality of three-way parts from top to bottom according to the requirement, and the number of the three-way parts corresponds to the number of the water culture water storage pipes. In fig. 1, three tee parts are respectively connected to two sides of the pipeline bracket, three water culture water storage pipes are connected to each corresponding side, the three water culture water storage pipes on the same side are combined into a group, and two water culture water storage pipes are arranged in the figure. The special-shaped pipe joints 8 are connected to both ends of the water culture water storage pipe, the special-shaped pipe joints are provided with large openings and small openings, the large openings are connected with pipe orifices of the water culture water storage pipe in a sealing mode, the small openings are connected with one through opening of a corresponding three-way piece in a sealing mode, namely, both ends of the water culture water storage pipe are fixed through the special-shaped pipe joints and pipeline supports on the two sides, and the fixed water culture water storage pipe is arranged horizontally. The water culture water storage pipes distributed up and down in each group form series flow conduction from top to bottom through the passages inside the pipeline brackets at the two sides, namely, the end parts of part of the straight pipe fittings in the pipeline brackets are provided with sealing plugs 12, so that the passages inside the pipeline brackets are changed, and the series flow conduction is realized. The pipe joint that the water inlet end of the water planting water storage pipe at the uppermost part of the water planting water storage pipes distributed up and down is provided with a water inlet interface 4, the pipeline support that the water outlet end of the water planting water storage pipe at the lowermost part is provided with a corresponding water outlet interface 5, namely the pipeline support is provided with two water outlet interfaces, and the two water outlet interfaces are connected with the same water outlet pipe 501, so that the water can be conveniently combined and discharged. The water inlet interface is connected with a water outlet pipeline 11 of a water pump 10, the water outlet pipe is connected with a water tank 9, and the water tank is connected with a water inlet pipeline of the water pump, so that circulating water supply is formed.

Further, the above-mentioned pipeline support 1 is fixedly provided with a controller 12 for controlling the water pump 10 to work, the controller circuit is connected with a temperature and humidity sensor (drawing is omitted in the figure), the temperature and humidity sensor is connected with the soil of one of the culture baskets 7 of the water culture water storage pipe 6 and monitors the temperature and humidity of the soil, when the temperature and humidity reach a set range, the controller starts the water pump to work, otherwise, the water pump stops working.

Further, the controller 12 may be electrically connected to a light sensor and a growth auxiliary light source (not shown), the light sensor is fixed on the hydroponic conduit bracket and senses illumination, and when the conduit sensing of the light sensor reaches a set range, the controller turns on the growth auxiliary light source to assist illumination of crops in the cultivation basket 7, so as to promote crop growth.

In addition, the controller 12 may be communicatively connected to an external remote control device, such as a mobile phone, a computer, etc., to form an internet of things remote control, so that the monitoring and the use are more convenient.

As shown in fig. 4, the water storage tube 6 of the water planting device can be expanded according to the required number, and when the number is changed, the internal through-flow state of the pipeline bracket 1 and the position of the tail end drainage interface 5 are changed at the same time, so that quick adjustment and change can be realized, and the use is more convenient.

The water planting device is manually or automatically used, and the mobile phone directly controls the water pump 10 to circularly supply water through a manual operation controller. When the automatic control is performed, the sensing signal of the temperature and humidity sensor is used as a start-stop signal of the water pump, when the temperature and humidity sensor senses that the temperature and humidity of soil in the culture basket 7 does not reach a set range value, the temperature and humidity signal is fed back to the controller 12, the water pump is automatically started by the controller, the water pump supplies water to the uppermost water culture water storage pipe 6 firstly, when the water culture water storage pipe reaches a water storage water level, the water culture water storage pipe flows to the lower water culture water storage pipe in an overflow mode until all the water culture water storage pipes reach corresponding water levels, and redundant water is discharged into the water tank 9 along the water discharge interface 5 and the water discharge pipe 501; when the temperature and humidity sensor senses that the temperature and humidity reach the required set value, a signal is fed back to the controller, and the controller automatically closes the water pump to work, so that automatic water supplementing control is realized.

The above description is intended to illustrate the technical means of the present utility model, and not to limit the technical scope of the present utility model. Obvious modifications or substitutions by one with ordinary skill in the art are within the scope of the present utility model as defined by the appended claims.

Claims (6)

1. The intelligent water planting device of the Internet of things comprises a main body bracket and a water planting water storage pipe (6), wherein the water planting water storage pipe is a straight pipe; the water storage device is characterized in that the main body support is a pipeline support (1) which is symmetrically distributed on two sides, the pipeline support is provided with at least one group of pipe joints which are vertically distributed, two ends of each water storage pipe (6) are connected with special pipe joints (8), each special pipe joint is provided with a large opening and a small opening, the large opening is in sealed connection with a pipe orifice of each water storage pipe, the small openings are in sealed connection with the pipe joints, namely, two ends of each water storage pipe are fixed through the special pipe joints and the two side pipeline supports, the fixed water storage pipes are horizontally arranged, the water storage pipes corresponding to each group of pipe joints are vertically distributed, each group of water storage pipes which are vertically distributed form series flow conduction from top to bottom through passages in the two side pipeline supports, the pipe joint corresponding to the water inlet end of the uppermost water storage pipe in each group of the water storage pipes which is vertically distributed is provided with a water inlet interface (4), the pipe support corresponding to the water outlet end of the lowermost water storage pipe is provided with a water outlet interface (5), the water outlet pipe (11) of a water inlet interface is connected with a water pump (10), and the water outlet interface is connected with a water tank (9) so as to form a water circulation circuit; the water culture water storage pipe is provided with a culture opening (601) which is opened upwards along the length direction of the pipe, a culture basket (7) for crop culture is embedded in the culture opening, and the bottom and/or the side surface of the culture basket are provided with holes which are contacted with water in the water culture water storage pipe.

2. The intelligent water planting device of the internet of things according to claim 1, wherein the pipeline bracket (1) is trapezoid, the pipe joint is a three-way joint (2), one of the ports of the three-way joint is in sealing connection with the small port of the special pipe joint (8), the other ports are in sealing connection with the straight pipe fitting (3) and form the trapezoid, and the ports of part of the straight pipe fittings are provided with sealing plugs to enable the inside of the trapezoid pipeline bracket to form a passage for series flow conduction; the trapezoid middle part or the bottom of the pipeline bracket is connected with a pull rod piece (14) which is oppositely pulled.

3. The intelligent water planting device of the internet of things according to claim 1, wherein the drainage connectors (5) of the pipeline brackets (1) on two sides in the main body bracket are connected with the same drainage pipe (501).

4. The intelligent water planting device of the internet of things according to claim 1, wherein the pipeline support is fixedly provided with a controller (12) for controlling the water pump (10) to work, the controller is in circuit connection with a temperature and humidity sensor, the temperature and humidity sensor is connected into the soil of one of the culture baskets (7) of the water planting water storage pipe (6) and monitors the temperature and humidity of the soil, and when the temperature and humidity reach a set range, the controller starts the water pump (10) to work, and otherwise stops the water pump from working.

5. The intelligent water planting device of the internet of things according to claim 4, wherein the controller (12) is electrically connected with a light sensor and a growth auxiliary light source, the light sensor is fixed on the pipeline bracket (1) and senses illumination, and when the pipeline sensing of the light sensor reaches a set range, the controller (12) starts the growth auxiliary light source to perform auxiliary illumination on crops of the culture basket (7).

6. The intelligent water planting device of the internet of things according to claim 4, wherein the controller (12) is in communication connection with external remote control equipment, namely, forms an internet of things remote control.