CN210928612U - Novel automatic controller for water and fertilizer for three-dimensional greening - Google Patents

Abstract

The utility model discloses a novel three-dimensional greening water and fertilizer automation controller. The structure comprises a case, a universal wheel and an observation port. The case is connected to the universal wheel by bolts, the observation port is embedded in one side of the case, and the case is provided with Water storage tank, water pump, rainwater receiver, water storage tank is provided with water inlet pipe, water storage cavity, one-way baffle, rainwater inlet, downpipe, water pump is provided with water passage cavity, rotating shaft, fan blade, support plate, water outlet, rainwater The receiver is equipped with a filter plate, a water pipe, a piston cylinder, a rainwater collection pipe, and a water stopper. The one-way baffle is provided with a through hole, a spring, a pull rod, and a waterproof plug. It can be collected and used, and the piston cylinder on the new water pipe is used, so that the water stop plug enters the water outlet under the impact of rainwater in rainy days, so that the automatic water and fertilizer controller can automatically stop running, so as to avoid rainwater washing away the water and fertilizer, and avoid causing unnecessary loss.

Description

A new type of three-dimensional greening water and fertilizer automation controller

technical field

The utility model relates to the field of ecological environment construction, in particular to a novel three-dimensional greening water and fertilizer automation controller.

Background technique

Three-dimensional greening refers to making full use of different site conditions, selecting climbing plants and other plants to plant and attaching or paving them on various structures and other spatial structures, including overpasses, building walls, slopes, river embankments, roofs , gates, flower stands, trellises, balconies, corridors, columns, fences, dead trees and greenery on various rockeries and building facilities.

However, the existing new type of three-dimensional greening water and fertilizer automation controller will not automatically stop running in case of rainy weather during the operation process, causing the rainwater to wash away the water and fertilizer, requiring manual shutdown, resulting in large losses.

Utility model content

Aiming at the deficiencies of the prior art, the utility model is realized through the following technical solutions: a novel three-dimensional greening water and fertilizer automation controller, the structure of which includes a chassis, a universal wheel, and an observation port, and the chassis is connected to the universal On the steering wheel, the observation port is embedded in one side of the case, and the case is provided with a water storage tank, a water pump, and a rainwater receiver. The rainwater receiver is embedded in the top of the case.

As a further optimization of this technical solution, the water storage tank is provided with a water inlet pipe, a water storage cavity, a one-way baffle, a rainwater inlet, and a water pipe. The water inlet pipe is connected to the upper inner wall of the chassis by welding and is connected to the water storage tank by welding Above, the water storage cavity is embedded in the water storage tank, the one-way baffle is installed on the inner wall of the water storage cavity, the rainwater inlet is embedded in one side of the water storage tank, and the downpipe is connected to the water storage tank by welding bottom.

As a further optimization of this technical solution, the water pump is provided with a water passage cavity, a rotating shaft, a fan blade, a support plate, and a water outlet. It is connected around the rotating shaft by welding, the support plate is installed at the end of the rotating shaft, and the water outlet is placed on one side of the water pump.

As a further optimization of this technical solution, the rainwater receiver is provided with a filter plate, a water pipe, a piston cylinder, a rainwater collection pipe, and a water stop plug. The filter plate is connected to the bottom of the rainwater receiver by welding, and the water pipe is installed At the bottom of the filter plate, the piston cylinder is fitted on the inner wall of the water pipe, the rainwater collection pipe is embedded in one side of the water pipe, and the water stop plug is connected to the end of the piston cylinder by welding.

As a further optimization of this technical solution, the one-way baffle is provided with a through hole, a spring, a pull rod, and a waterproof plug, the through hole is embedded inside the one-way baffle, and the spring is connected to one side of the through hole by welding , the pull rod is welded and connected to the end of the spring, and the waterproof plug is embedded in the end of the pull rod.

beneficial effect

Compared with the prior art, the novel three-dimensional greening water and fertilizer automatic controller of the utility model has the following advantages: when the switch is activated, the greening is automatically poured with water and fertilizer; in rainy days, the rainwater will fall on the rainwater receiver and pass through the filter plate. The impurities in the rainwater are filtered, so that the clean rainwater flows into the water pipe, so that the piston cylinder descends and pushes the water stopper to block the water outlet, so that the automatic controller of water and fertilizer stops running. The waterproof plug prevents the water in the water storage cavity from flowing back into the rainwater collection pipe.

The rainwater collection pipe in the new rainwater receiver is used, so that the rainwater can be collected and used. The piston cylinder on the new water pipe is used to make the water stopper enter the water outlet under the impact of rainwater in rainy days, so that the water and fertilizer automation controller can Automatically stop running to avoid rainwater washing away water and fertilizer and avoid unnecessary losses.

Description of drawings

Other features, objects and advantages of the present invention will become more apparent by reading the detailed description of non-limiting embodiments with reference to the following drawings:

Figure 1 is a schematic structural diagram of a novel three-dimensional greening water and fertilizer automation controller of the present invention.

FIG. 2 is a schematic diagram of an enlarged internal structure of the chassis of the present invention.

Fig. 3 is a cross-sectional enlarged structural schematic diagram of a water storage tank of the present invention.

FIG. 4 is a cross-sectional enlarged structural schematic diagram of the water pump of the present invention.

FIG. 5 is a cross-sectional enlarged structural schematic diagram of the rainwater receiver of the present invention.

FIG. 6 is a cross-sectional enlarged structural schematic diagram of the one-way baffle of the present invention.

In the figure: chassis 1, universal wheel 2, observation port 3, water storage tank a, water pump b, rainwater receiver c, water inlet pipe a1, water storage cavity a2, one-way baffle a3, rainwater inlet a4, sewer pipe a5, Water passage b1, rotating shaft b2, fan blade b3, support plate b4, water outlet b5, filter plate c1, water passage c2, piston cylinder c3, rainwater collection pipe c4, water stopper c5, through hole m, spring m1, pull rod m2, waterproof plug m3.

Detailed ways

In order to make the technical means, creative features, achievement goals and effects realized by the present invention easy to understand, the preferred embodiments of the present invention are further described below in conjunction with the specific embodiments and the accompanying drawings.

Example

Please refer to FIG. 1 to FIG. 6 , the present utility model provides a novel three-dimensional greening water and fertilizer automation controller, the structure of which includes a chassis 1, a universal wheel 2, and an observation port 3, and the chassis 1 is connected to the universal wheel 2 by bolts. Above, the observation port 3 is embedded in one side of the case 1, and the case 1 is provided with a water storage tank a, a water pump b, and a rainwater receiver c. The water storage tank a is embedded in the inside of the case 1, and the water pump b cooperates Installed below the water storage tank a, the rainwater receiver c is embedded in the top of the chassis 1, and the water storage tank a is provided with a water inlet pipe a1, a water storage cavity a2, a one-way baffle a3, a rainwater inlet a4, and a downpipe a5, The water inlet pipe a1 is connected to the upper inner wall of the chassis 1 by welding and is connected to the top of the water storage tank a by welding, the water storage cavity a2 is embedded in the water storage tank a, and the one-way baffle a3 is installed in the water storage cavity. The inner wall of a2, the rainwater inlet a4 is embedded in one side of the storage tank a, the downpipe a5 is connected to the bottom of the storage tank a by welding, and the water pump b is provided with a water passage b1, a rotating shaft b2, a fan blade b3, a support Plate b4, water outlet b5, the water passage b1 is set inside the pump b, the rotating shaft b2 is installed on the inner wall of the pump b, the fan blade b3 is connected around the rotating shaft b2 by welding, and the supporting plate b4 is installed on the rotating shaft At the end of b2, the water outlet b5 is placed on the side of the pump b. The rainwater receiver c is provided with a filter plate c1, a water pipe c2, a piston cylinder c3, a rainwater collection pipe c4, and a water stopper c5. The filter plate c1 It is connected to the bottom of the rainwater receiver c by welding, the water pipe c2 is installed on the bottom of the filter plate c1, the piston cylinder c3 is fitted on the inner wall of the water pipe c2, and the rainwater collection pipe c4 is embedded in one side of the water pipe c2, The water stopper c5 is connected to the end of the piston cylinder c3 by welding, the one-way baffle a3 is provided with a through hole m, a spring m1, a pull rod m2, and a waterproof plug m3, and the through hole m is embedded in the one-way baffle Inside a3, the spring m1 is connected to the side of the through hole m by welding, the pull rod m2 is welded to the end of the spring m1, and the waterproof plug m3 is embedded in the end of the pull rod m2.

The principle of the utility model: the new three-dimensional greening water and fertilizer automation controller is installed on the greening ground, and the switch is activated to automatically pour water and fertilizer on the greening. When it is raining, the rainwater will fall on the rainwater receiver c and be filtered through the filter plate c1. The impurities in the rainwater make the clean rainwater flow into the water pipe c2. Under the impact of the rainwater, the piston cylinder c3 is lowered, and the piston cylinder c3 pushes the water stopper c5, so that the water stopper c5 blocks the water outlet b5, so that the water and fertilizer automation controller Stop running. At this time, the rainwater will enter the water storage cavity a2 through the one-way baffle a3 through the rainwater collection pipe c4. The waterproof plug m3 on the one-way baffle a3 prevents the water in the water storage cavity a2 from flowing backwards to the rainwater collection pipe c. .

The problem solved by the utility model is: the existing new type of three-dimensional greening water and fertilizer automation controller will not automatically stop running when encountering rainy weather during the operation process, causing the rainwater to wash away the water and fertilizer, and it needs to be manually turned off, resulting in The loss is large. The utility model adopts the rainwater collection pipe in the new rainwater receiver through the mutual combination of the above components, so that the rainwater can be collected and used, and the piston cylinder on the new water pipe is used to make the rainwater under the impact of rainwater. The water stop plug enters the water outlet, so that the water and fertilizer automation controller can automatically stop running, preventing rainwater from washing away the water and fertilizer and avoiding unnecessary losses.

The basic principles, main features and advantages of the present invention are shown and described above. Those skilled in the art should understand that the present invention is not limited by the above-mentioned embodiments, and the descriptions in the above-mentioned embodiments and the description are only illustrative. The principle of the present utility model, without departing from the spirit or basic characteristics of the present utility model, can not only realize the present utility model in other specific forms, but also have various changes and improvements, and these changes and improvements all fall into the claimed protection Therefore, the claimed scope of the present invention is defined by the appended claims and their equivalents, rather than the above description.

In addition, it should be understood that although this specification is described in terms of embodiments, not each embodiment only includes an independent technical solution, and this description in the specification is only for the sake of clarity, and those skilled in the art should take the specification as a whole , the technical solutions in each embodiment can also be appropriately combined to form other implementations that can be understood by those skilled in the art.

Claims (5)

1. a novel three-dimensional greening water and fertilizer automation controller, its structure comprises chassis (1), universal wheel (2), observation port (3), it is characterized in that: The case (1) is connected to the universal wheel (2) by bolts, the observation port (3) is embedded in one side of the case (1), and the case (1) is provided with a water storage tank (a), a water pump (b), a rainwater receiver (c), the water storage tank (a) is embedded in the inside of the chassis (1), and the water pump (b) is matched and installed under the water storage tank (a), and the rainwater receiver (c) ) is embedded in the top of the chassis (1). 2. A new type of three-dimensional greening water and fertilizer automation controller according to claim 1, characterized in that: the water storage tank (a) is provided with a water inlet pipe (a1), a water storage cavity (a2), a one-way baffle (a3), the rainwater inlet (a4), the water pipe (a5), the water inlet pipe (a1) is connected to the upper inner wall of the chassis (1) by welding and is connected to the top of the water storage tank (a) by welding, the water storage cavity (a2) is embedded in the interior of the water storage tank (a), the one-way baffle plate (a3) is fitted on the inner wall of the water storage cavity (a2), and the rainwater inlet (a4) is embedded in one side of the water storage tank (a). , the downpipe (a5) is connected to the bottom of the water storage tank (a) by welding. 3. A new type of three-dimensional greening water and fertilizer automation controller according to claim 1, characterized in that: the water pump (b) is provided with a water passage (b1), a rotating shaft (b2), a fan blade (b3), A support plate (b4), a water outlet (b5), the water passage (b1) is arranged inside the water pump (b), the rotating shaft (b2) is installed on the inner wall of the water pump (b), and the fan blades (b3) pass through It is welded and connected around the rotating shaft (b2), the support plate (b4) is installed at the end of the rotating shaft (b2), and the water outlet (b5) is placed on one side of the water pump (b). 4. A new type of three-dimensional greening water and fertilizer automation controller according to claim 1, characterized in that: the rainwater receiver (c) is provided with a filter plate (c1), a water pipe (c2), a piston cylinder (c3) ), a rainwater collection pipe (c4), a water stopper (c5), the filter plate (c1) is connected to the bottom of the rainwater receiver (c) by welding, and the water pipe (c2) is installed at the bottom of the filter plate (c1) , the piston cylinder (c3) is fitted on the inner wall of the water pipe (c2), the rainwater collection pipe (c4) is embedded in one side of the water pipe (c2), and the water stopper (c5) is connected to the piston by welding end of the barrel (c3). 5. A new type of three-dimensional greening water and fertilizer automation controller according to claim 2, characterized in that: the one-way baffle (a3) is provided with a through hole (m), a spring (m1), a pull rod (m2) , Waterproof plug (m3), the through hole (m) is embedded in the one-way baffle (a3), the spring (m1) is connected to the side of the through hole (m) by welding, the pull rod (m2) It is welded and connected to the end of the spring (m1), and the waterproof plug (m3) is embedded in the end of the pull rod (m2).

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