WO2018039917A1 - Drip watering structure for smart planting device - Google Patents

Abstract

A drip watering structure for a smart planting device. Water comes in through a water inlet of a water inflow component (0221) of the drip watering structure, flows through a pipe component (0511, 0512) and a water inlet of a water outflow component (0211, 0212), and flows out from a water outlet of the water outflow component (0211, 0212) to drip water a plant. The drip watering structure also has a soil moisture measurement function enabling measurement of a parameter of the soil by means of a moisture measurement unit, and transmits the same via a circuit, a signal transmission board (0312), and a signal transmission terminal (0311) in the pipe component (0511, 0512). Th present invention enables real-time and efficient soil parameter measurement, and accordingly provides accurate information for plant watering. By combining the above two functions, the present invention enables watering control according to a moisture condition of a plant in a timely and effectively manner, thus preventing a lack or excess of water for the plant, and achieving refined management for a planting process.

Description

Drip irrigation structure for intelligent planting device Technical field

The utility model relates to the technical field of plant irrigation, in particular to a drip irrigation structure for an intelligent planting device.

Background technique

From the perspective of family flower cultivation, the environment for healthy growth of plants is nothing more than six aspects: moisture, temperature, light, air, soil, and nutrients. Among them, I classify the water and temperature as the factors that determine the life and death of plants. Generally speaking, it is to feed; while sunlight, air, soil and nutrients are classified as good factors.

For most plants (except aquatic plants), watering is a headache. From a psychological analysis, most flower lovers have a good desire to hope that their favorite baby will grow quickly, and watering will become The "best way" to achieve this good wish, but this "best way" has let everyone taste the pain of "injury". It can be said that the problem of planting is related to improper watering. Too much watering is easy to kill, breeding mosquitoes, and watering too little is easy to die. It can even be said that the main reason for flower death is Improper watering.

Utility model content

In order to solve the above problems, the utility model provides a drip irrigation structure for an intelligent planting device, which can not only realize soil water detection, but also make plant drip irrigation according to the detection result, thereby effectively solving the above problems.

The technical solution of the present invention is: a drip irrigation structure for an intelligent planting device, the drip irrigation structure comprising a humidity detecting unit, a signal transmission unit, and a drip irrigation unit, wherein the signal transmission unit and the humidity detecting unit are connected by an electrical connection relationship, the drip irrigation The unit is fixedly connected to the signal transmission unit and the humidity detecting unit.

Further, the drip irrigation unit includes a water inlet component, a water outlet component, and a pipeline component.

Further, the water inlet component of the drip irrigation unit comprises a water inlet and a water outlet, the water inlet and the water outlet are at least one; the water outlet component of the drip irrigation unit comprises a water inlet and a water outlet, the water inlet and the water outlet At least one; the pipe component of the drip irrigation unit is a hollow pipe that is open at both ends.

Further, the drip irrigation structure further includes a housing.

Further, the housing comprises a water inlet end housing and a water outlet end housing, wherein the water inlet end housing comprises a water inlet part of the drip irrigation unit, a waterproof component, one end of the pipeline component, a signal transmission unit, and the water outlet end The housing includes a water outlet component portion of the drip irrigation unit, one end of the humidity detection unit, and the other end of the conduit component.

Further, the waterproof member is between the water inlet end housing and the water inlet member.

Further, the waterproof member is an annular apron.

Further, the signal transmission unit includes a signal board and a signal transmission head.

Further, the signal transmission head and the water inlet member are exposed outside the water inlet end housing.

Further, the water inlet end housing and the water outlet end housing are separated.

The humidity detecting unit has a strip shape and has a spike shape at one end.

In some embodiments, the drip irrigation structure comprises one water inlet component, two water outlet components, two pipeline components, and two humidity detecting units, and the drip irrigation structure further comprises a water inlet end shell and two water outlets. The water inlet component of the drip irrigation structure comprises one water inlet and two water outlets. According to the enumeration, other various evolution structures can be made by those skilled in the art.

In an embodiment, the water outlet component of the drip irrigation structure is in an "L" shape, and those skilled in the art can make other adjustments to the water outlet component according to specific needs.

The utility model enters water through the water inlet of the water inlet component, flows through the water inlet of the pipeline component and the water outlet component, and finally flows out at the water outlet of the water outlet component to realize the drip irrigation plant, and the drip irrigation structure also has the function of detecting soil moisture, and passes the humidity detection The unit detects the parameters of the soil and transmits it through the lines, signal transmission boards and signal transmission heads in the pipeline components, which can effectively and effectively detect the soil parameters in real time, thereby providing accurate and accurate basis for plant watering; combining the above two functions can be timely and effective According to the humidity condition of the plant, the watering control is carried out to prevent the plants from being dehydrated or the water is too much, and the plant planting fine management is realized.

DRAWINGS

Figure 1 is a schematic view of a drip irrigation structure for an intelligent planting device;

2 is a schematic exploded view of a drip irrigation structure for an intelligent planting device.

Specific embodiment

The principles and features of the present invention are described in the following with reference to the accompanying drawings, which are only used to explain the present invention and are not intended to limit the scope of the invention. Rather, the invention is to be construed as being limited by the scope of the appended claims.

Unless otherwise stated, all terms used herein have the following definitions, and the terms "comprising", "having", "including" and "containing" have an open meaning, that is, "including but not limited to".

The embodiment of the present invention is a drip irrigation structure for an intelligent planting device, and the overall schematic diagram of the drip irrigation structure shown in FIG. 1 includes a humidity detecting unit, a signal transmission unit, and a drip irrigation unit, and the signal transmission unit and the humidity detecting unit are electrically connected. The relationship is connected, and the drip irrigation unit is fixedly connected to the signal transmission unit and the humidity detection unit.

As shown in Fig. 1, the embodiment is that the water inlet end is divided into two water droplets, and the drip irrigation and soil moisture detection of the two pot plants can be simultaneously satisfied.

As shown in the exploded view of FIG. 2, the humidity detecting unit includes humidity detectors 0411, 0412, the signal The transmission unit includes a signal transmission board 0312 and a signal transmission head 0311. The drip irrigation unit includes a water inlet part 0221, water outlet parts 0211 and 0212, and duct parts 0511 and 0512.

The water inlet part 0221 of the drip irrigation unit includes one water inlet and two water outlets; the water outlet parts 0211 and 0212 of the drip irrigation unit each include one water inlet and one water outlet, and the water outlet parts 0211 and 0212 are The "L" type; the pipe parts 0511, 0512 of the drip irrigation unit are hollow pipes which are open at both ends, and the hollow pipes are double pipes, one of which is used for drip irrigation and the other is used for transmission line wiring.

The drip irrigation structure further includes a housing, the housing includes a water inlet end housing and a water outlet end housing 0121, 0122, and the water inlet end housing and the water outlet end housing are separated, the water inlet After the end housing is separated, the water inlet end upper housing 0111 and the water inlet end lower housing 0112 are included. The water inlet end housing includes a water inlet part portion 0221, a waterproof member 0222, one end of the pipe parts 0511, 0512, a signal transmission plate 0312, and a signal transmission head 0311. The water outlet end housing 0121 includes a water outlet component portion 0211 of the drip irrigation unit, one end of the humidity detector 0411, and the other end of the pipeline component 0511. The water outlet end housing 0122 includes a water outlet component portion 0212 of the drip irrigation unit, and a humidity detector 0412. At one end, the other end of the pipe member 0512; as shown in FIG. 1, the water outlets of the water outlet members 0211 and 0212 are exposed on the side walls of the water outlet end housings 0121, 0122, respectively.

The waterproof member 0222 is between the water inlet end housing and the water inlet member 0221, and the waterproof member 0022 is an annular rubber ring.

As shown in FIG. 1, the signal transmission head 0311 and the water inlet member 0221 are exposed outside the inlet end housing to facilitate external wiring and piping.

The structure of the water inlet end housing and the water outlet end housings 0121, 0122 is a separate type, and the housing connection manner is a snapping manner.

The exposed end of the humidity detectors 0411, 0412 has a spiked shape for easy insertion into the soil for detection.

In the embodiment of the present invention, one water inlet component 0221 is divided into two water outlet components 0211 and 0212, and the humidity detectors 0411 and 0412 are respectively inserted into two pots of plants for drip irrigation and soil detection, and those skilled in the art can The utility model technology is changed to a single water outlet component or a multi-water outlet component structure to simultaneously meet the needs of multi-basin plant irrigation and soil testing.

The utility model enters water through the water inlet of the water inlet part 0221, flows through the water inlet of the pipeline parts 0511, 0512, the water outlet parts 0211 and 0212, and finally flows out at the water outlet of the water outlet parts 0211 and 0212 to realize the drip irrigation plant, the drip irrigation structure It also has a soil moisture detection function. The parameters of the soil are detected by the humidity detectors 0411 and 0412, and are transmitted through the lines in the pipeline components 0511 and 0512, the signal transmission board 0312, and the signal transmission head 0311, so that the soil parameters can be effectively detected in real time, and then Plant watering provides accurate and accurate basis; combined with the above two functions, it can be timely and effective according to plants The humidity condition is controlled by watering to prevent plants from being dehydrated or excessively water, and to achieve fine management of plant cultivation.

The above embodiments are only used to illustrate the technical solutions of the present invention and are not intended to be limiting, although the present invention has been described in detail with reference to the preferred embodiments, those skilled in the art The technical solutions are intended to be modified or equivalent, without departing from the spirit and scope of the invention.

Claims (10)

1. A drip irrigation structure for an intelligent planting device, characterized in that the drip irrigation structure comprises a humidity detecting unit, a signal transmission unit and a drip irrigation unit, wherein the signal transmission unit and the humidity detecting unit are connected by an electrical connection relationship, the drip irrigation unit and the signal The transmission unit and the humidity detecting unit are fixedly connected.
2. The drip irrigation structure for an intelligent planting device according to claim 1, wherein the drip irrigation unit comprises a water inlet component, a water outlet component, and a pipeline component.
3. The drip irrigation structure for an intelligent planting device according to claim 2, wherein the water inlet component of the drip irrigation unit comprises a water inlet and a water outlet, and the water inlet and the water outlet are at least one;

   The water outlet component of the drip irrigation unit comprises a water inlet and a water outlet, and the water inlet and the water outlet are at least one;

   The pipe component of the drip irrigation unit is a hollow pipe that is open at both ends.
4. The drip irrigation structure for an intelligent planting device according to claim 1, wherein the drip irrigation structure further comprises a casing.
5. A drip irrigation structure for an intelligent planting device according to claim 2 or 3, wherein the casing comprises a water inlet end casing and a water outlet end casing, and the water inlet end casing comprises a drip irrigation unit. The water inlet member portion, the waterproof member, one end of the duct member, and the signal transmission unit, the water outlet end housing includes a water outlet member portion of the drip irrigation unit, one end of the humidity detecting unit, and the other end of the duct member.
6. A drip irrigation structure for an intelligent planting device according to claim 5, wherein the waterproof member is between the water inlet end casing and the water inlet member.
7. The drip irrigation structure for an intelligent planting device according to claim 6, wherein the waterproof member is an annular rubber ring.
8. A drip irrigation structure for an intelligent planting device according to claim 5, wherein the signal transmission unit comprises a signal board and a signal transmission head.
9. The drip irrigation structure for an intelligent planting device according to claim 8, wherein the signal transmission head and the water inlet member are exposed outside the water inlet end casing.
10. The drip irrigation structure for an intelligent planting device according to claim 5, wherein the water inlet end casing and the water outlet end casing are separated.

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