CN218042998U - Intelligent irrigation device for landscaping - Google Patents

Abstract

The utility model belongs to the technical field of afforestation watering equipment technique and specifically relates to an intelligent watering device for afforestation, including cultivating basin, external inlet tube, first dry humidity transducer, second dry humidity transducer, automatically controlled water valve and solar cell panel. The utility model discloses an intelligent watering device for landscaping, which is provided with a sensor module for monitoring the internal dry humidity at the inner side wall of a cultivating pot and the bottom of a detachable bottom accumulated liquid pot, thereby respectively controlling an electric control water valve and a draining pump, watering the vegetation in the cultivating pot more accurately and improving the watering precision; the left liquid guide pipe is inserted into the right liquid guide slot to connect all the cultivation basins in series to form a series water supply official network, and the electric control water valve can switch and control the liquid conveying flow channel, so that the cultivation basins at different positions are irrigated according to actual needs, and the use is more convenient; by utilizing the basin internal irrigation mode, the water resource waste can be effectively avoided, and the water resource utilization rate is improved.

Description

Intelligent irrigation device for landscaping

Technical Field

The utility model belongs to the technical field of afforestation watering equipment technique and specifically relates to an intelligent watering device for afforestation.

Background

The landscaping project is a project for building landscape and garden green land. The environment construction engineering including garden construction engineering in green land and scenic spot of garden city includes garden construction engineering, earthwork engineering, garden hill-building engineering, garden water-managing engineering, garden land-paving engineering, greening engineering, flower planting engineering, etc. it is applied engineering technology to express garden art and makes the engineering structure on the ground and garden landscape be integrated into one body.

In order to promote afforestation plant's survival rate, need regularly water afforestation vegetation, traditional watering mode adopts artifical watering more, not only wastes time and energy, waters the position limited moreover, waters the water yield not accurate enough.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: in order to solve the problem that exists among the above-mentioned background art, provide an improved intelligent watering device for afforestation, solve traditional watering mode and adopt artifical watering more, not only waste time and energy, the watering position is limited moreover, the not enough accurate problem of watering water yield.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides an intelligent watering device for landscaping, is including cultivating basin, external inlet tube, first dry humidity transducer, second dry humidity transducer, automatically controlled water valve and solar cell panel, cultivation basin left side outer wall on the left side catheter of the automatically controlled water valve of fixedly connected with internally mounted, cultivation basin right side lateral surface on seted up upper end open-ended right side drain slot, cultivation basin medial surface be located the upper end and seted up the position and seted up the side direction assembly groove, the inside joint of side direction assembly groove be fixed with the inboard infusion pipe that is used for intercommunication left side catheter and right side drain slot, cultivation basin lower extreme install detachable bottom hydrops basin through the bottom frame, cultivation basin medial surface on set up the inboard mounting groove that is used for installing first dry humidity transducer, detachable bottom hydrops basin in the bottom side on set up the bottom side mounting groove that is used for installing second dry humidity transducer, cultivation basin lateral surface on set up the side direction adjustment tank that inside set up height-adjustable upset assembly frame, solar cell panel fixed mounting inside height-adjustable upset assembly frame.

The height-adjustable overturning assembly frame comprises an inner guide pipe fixed on the bottom surfaces of two sides of the lateral adjusting groove, an outer connecting pipe movably sleeved on the outer side of the inner guide pipe and an installation frame body movably connected to the outer side of the top of the outer connecting pipe through a lateral rotating shaft.

The left liquid guide pipe consists of two inverted L-shaped guide pipes communicated through an electric control water valve, the inner side liquid guide pipe consists of a lateral irrigation pipe and a lateral flow guide pipe which are respectively communicated with the left liquid guide pipes at different positions, and the side wall of the lateral irrigation pipe is provided with an atomizing nozzle.

And an L-shaped structure top jack matched with the left liquid guide pipe is arranged on the inner bottom surface of the right liquid guide slot.

The electric control water valve is fixedly communicated with a bottom water outlet of the detachable bottom liquid collecting basin through a bottom water guide hose.

Detachable bottom hydrops basin bottom be located bottom outlet position and be equipped with the drain pump by first dry humidity transducer and the control of second dry humidity transducer.

The utility model discloses an intelligent watering device for landscaping, which is provided with a sensor module for monitoring the internal dry humidity at the inner side wall of a cultivating pot and the bottom of a detachable bottom accumulated liquid pot, thereby respectively controlling an electric control water valve and a draining pump, watering the vegetation in the cultivating pot more accurately and improving the watering precision; the left liquid guide pipe is inserted into the right liquid guide slot to connect all the cultivating basins in series to form a series water supply pipe network, and the electric control water valve can switch and control the liquid conveying flow channel, so that the cultivating basins at different positions are irrigated according to actual needs, and the use is more convenient; by utilizing the basin internal irrigation mode, the water resource waste can be effectively avoided, and the water resource utilization rate is improved.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an internal cross-sectional view of the present invention.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood as a specific case by those skilled in the art.

Fig. 1 and fig. 2 show an intelligent watering device for landscaping, including cultivating basin 1, external inlet tube 2, first dry humidity transducer 3, second dry humidity transducer 4, automatically controlled water valve 5 and solar cell panel 6, cultivate left side catheter 7 of fixedly connected with internally mounted automatically controlled water valve 5 on the outer wall of 1 left side of basin, cultivate and set up upper end open-ended right side drain slot 8 on the lateral surface of 1 right side of basin, cultivate 1 medial surface of basin and be located the upper end and seted up the position and seted up the side direction assembly groove, side direction assembly groove inside joint is fixed with the inboard infusion pipe 9 that is used for intercommunication left side catheter 7 and right side drain slot 8, cultivate 1 lower extreme of basin and install detachable bottom hydrops basin 10 through the bottom frame, cultivate and set up the inboard mounting groove that is used for installing first dry humidity transducer 3 on 1 medial surface of basin, set up the bottom side mounting groove that is used for installing second dry humidity transducer 4 on the bottom hydrops basin 10 bottom surface, cultivate the side direction adjustment tank 11 that sets up the upset assembly frame with adjustable height on 1 lateral surface, solar cell panel 6 fixed mounting is inside adjustable.

First dry humidity sensor 3, second dry humidity sensor 4, automatically controlled water valve 5 and solar cell panel 6 are prior art, acquire through market purchase.

In order to cooperate with adjustment and installation and fixation, the height-adjustable turnover assembly frame comprises an inner guide pipe 12 fixed on the bottom surfaces of two sides of the lateral adjustment groove 11, an outer connecting pipe 13 movably sleeved on the outer side of the inner guide pipe 12, and an installation frame body 14 movably connected on the outer side of the top of the outer connecting pipe 13 through a lateral rotating shaft.

In order to match with the flow channel switching and the internal irrigation, the left liquid guide pipe 7 consists of two inverted L-shaped guide pipes which are communicated through the electric control water valve 5, the inner side liquid guide pipe 9 consists of a lateral irrigation pipe and a lateral flow guide pipe which are respectively communicated with the left liquid guide pipes at different positions, and the side wall of the lateral irrigation pipe is provided with an atomizing nozzle 15.

In order to match the serial connection, the inner bottom surface of the right liquid guide slot 8 is provided with an L-shaped structure top jack matched with the left liquid guide pipe 7.

In order to cooperate with backflow, the electrically controlled water valve 5 is fixedly communicated with a bottom water outlet of the detachable bottom liquid trap 10 through a bottom water guide hose 16.

In order to cooperate with the backflow of the bottom accumulated water to the inner side of the inner side infusion conduit 9, the bottom of the detachable bottom accumulated liquid basin 10 is provided with a drainage pump 17 controlled by the first dry humidity sensor 3 and the second dry humidity sensor 4 at the position of a bottom drainage outlet.

The drain pump 17 is prior art and is obtained by market procurement. The first dry humidity sensor 3, the second dry humidity sensor 4, the electric control water valve 5 and the drainage pump 17 are powered by the solar cell panel 6.

The utility model discloses an intelligent watering device for landscaping, which is characterized in that a sensor module for monitoring the internal dry humidity is arranged on the inner side wall of a cultivating pot 1 and at the bottom of a detachable bottom accumulated liquid pot 10, so as to control an electric control water valve 5 and a drainage pump 17 respectively, so that vegetation in the cultivating pot 1 can be watered more accurately, and the watering precision is improved; the left liquid guide pipe 7 is inserted into the right liquid guide slot 8 to connect all the cultivation basins in series to form a series water supply official network, and the electric control water valve 5 can switch and control the liquid conveying flow channel, so that the cultivation basins at different positions are irrigated according to actual needs, and the use is more convenient; by utilizing the basin internal irrigation mode, the water resource waste can be effectively avoided, and the water resource utilization rate is improved.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (6)

1. An intelligent irrigation device for landscaping, which comprises a cultivation pot (1), an external water inlet pipe (2), a first dry humidity sensor (3), a second dry humidity sensor (4), an electric control water valve (5) and a solar panel (6), it is characterized in that a left liquid guide pipe (7) internally provided with an electric control water valve (5) is fixedly connected on the outer wall of the left side of the cultivating pot (1), a right liquid guide slot (8) with an opening at the upper end is arranged on the outer side surface of the right side of the cultivating basin (1), a lateral assembly groove is arranged at the upper end of the inner side surface of the cultivating pot (1), an inner side transfusion conduit (9) used for communicating a left catheter (7) and a right catheter slot (8) is clamped and fixed in the lateral assembly slot, the lower end of the cultivating basin (1) is provided with a detachable bottom liquid collecting basin (10) through a bottom frame, an inner side mounting groove for mounting the first humidity sensor (3) is arranged on the inner side surface of the cultivating pot (1), the inner bottom surface of the detachable bottom liquid collecting basin (10) is provided with a bottom side installation groove for installing a second dry humidity sensor (4), a lateral adjusting groove (11) with a height-adjustable overturning assembly frame arranged inside is arranged on the outer side surface of the cultivating basin (1), the solar cell panel (6) is fixedly installed inside the height-adjustable overturning assembly frame.

2. An intelligent irrigation device for landscaping according to claim 1, wherein the height-adjustable turn-over assembly frame comprises an inner guide tube (12) fixed on the bottom surface of each side of the lateral adjustment slot, an outer connecting tube (13) movably sleeved on the outer side of the inner guide tube (12), and a mounting frame body (14) movably connected to the outer side of the top of the outer connecting tube (13) through a lateral rotating shaft.

3. An intelligent irrigation device for landscaping according to claim 1, wherein the left catheter (7) is composed of two inverted L-shaped catheters connected with each other via an electrically controlled water valve (5), the inner infusion catheter (9) is composed of a lateral irrigation tube and a lateral flow guide tube respectively connected with the left catheter at different positions, and the lateral wall of the lateral irrigation tube is provided with an atomizing nozzle (15).

4. An intelligent irrigation device for landscaping according to claim 3, wherein the bottom surface of the right drainage slot (8) is provided with a top jack of L-shaped structure matched with the left drainage tube (7).

5. An intelligent irrigation device for landscaping as in claim 1, wherein the electrically controlled water valve (5) is in fixed communication with the bottom drain port of the detachable bottom drip pan (10) via a bottom water hose (16).

6. An intelligent irrigation device for landscaping according to claim 1, wherein the bottom of the detachable bottom liquid collecting basin (10) at the bottom water outlet is equipped with a drainage pump (17) controlled by a first dry humidity sensor (3) and a second dry humidity sensor (4).

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