CN221710784U - Desert plant water and fertilizer feeding device - Google Patents

Abstract

The utility model of a desert plant water and fertilizer supply device comprises a water tank, which is located below the plant root system of the desert plant, and the interior of the water tank is a water storage cavity; the characteristics are: a horizontal water inlet and outlet opening is opened on the side wall of the water tank, an inclined non-woven fabric and a water-proof membrane are laid below the plant root system, the water-proof membrane is located below the non-woven fabric, and the non-woven fabric and the water-proof membrane extend into the water storage cavity of the water tank through the water inlet and outlet opening; the height of the non-woven fabric and the water-proof membrane gradually decreases from the outer end to the position close to the water inlet trough. The utility model of a desert plant water and fertilizer supply device can realize the temporary storage of irrigation water for desert plants, and the stored water will be slowly supplied by the non-woven fabric to the planting sand below the plant root system, which solves the problem of the existing irrigation water infiltration in the planting sand, realizes the maximum utilization of irrigation water, and has a significant water-saving effect, which is suitable for application in the planting process of desert plants.

Description

A device for supplying water and fertilizer to desert plants

Technical Field

The utility model relates to a water and fertilizer supply device, and more specifically, to a water and fertilizer supply device for desert plants.

Background Art

In recent years, my country's sand control and prevention measures and technologies have made great progress and achieved remarkable results. In order to take into account the economic benefits of sand control, we should not only consider the effects of sand control and prevention, but also consider whether the plants planted for sand control can generate economic benefits in the later stage. Usually, we consider planting economic plants in sandy areas, such as drought-resistant fruit trees. The first thing to consider when planting plants in sandy areas is water sources. Plants can only grow if there is enough water. We know that the desert has very low rainfall, high evaporation, no rivers, and groundwater is not easy to obtain. After irrigation, plants will quickly seep into the ground, and the proportion that can be absorbed by plants is very small.

Therefore, if the problem of rapid water infiltration in sandy soil can be solved and plant water can be fully utilized, the most critical water source problem in the desert management process will be solved, and plant cultivation in sandy soil will be quickly applied and popularized. The utility model proposes a desert plant water and fertilizer supply device, which can temporarily store plant water and provide growth moisture to plants in real time to solve the problem that water sources for desert planting are not easy to obtain.

Summary of the invention

In order to overcome the disadvantages of the above technical problems, the utility model provides a device for supplying water and fertilizer to desert plants.

The utility model discloses a device for supplying water and fertilizer to desert plants, comprising a water tank buried in the planting sand of desert plants, the water tank being located below and beside the plant root system of the desert plants, the interior of the water tank being a water storage cavity for storing fertilizer-containing water; the characteristic is that: a transverse water inlet and outlet trough opening is provided on the side wall of the water tank close to the plant root system, an inclined non-woven fabric and a water-isolating film are laid below the plant root system, the water-isolating film is located below the non-woven fabric, the non-woven fabric and the water-isolating film extend into the water storage cavity of the water tank through the water inlet and outlet trough opening; the height of the non-woven fabric and the water-isolating film gradually decreases from the outer end to the position close to the water inlet trough.

The utility model discloses a device for supplying water and fertilizer to desert plants. A vertical dosing pipe is arranged on a water storage tank. The lower end of the dosing pipe is communicated with a water storage cavity of the water storage tank, and the upper end is exposed on the upper surface of the planting sand. A sealing cover is arranged on the upper end of the dosing pipe. The dosing pipe is used for adding water-soluble fertilizers required by desert plants into the water storage cavity.

The utility model discloses a device for supplying water and fertilizer to desert plants. A float is arranged in a water storage tank. A vertical floating rod is fixed on the float. The floating rod passes through the upper wall of the water storage tank. A protective outer cylinder is arranged on the periphery of the floating rod. The lower end of the protective outer cylinder is communicated with the water storage cavity. The inner diameter of the protective outer cylinder is larger than the diameter of the floating rod. The upper ends of the protective outer cylinder and the floating rod are exposed on the upper surface of the planting sand.

In the desert plant water and fertilizer supply device of the utility model, the lower end of the non-woven fabric extends to the bottom of the water storage cavity, and the lower end of the water-isolating membrane extends to the middle and lower part of the water storage cavity.

The utility model discloses a device for supplying water and fertilizer to desert plants. The water storage tank is in the shape of a rectangular parallelepiped.

The beneficial effects of the utility model are as follows: the desert plant watering and fertilizing device of the utility model has a water tank buried in the planting sand of the desert plants, the water tank is located below the plant root system, non-woven fabric and waterproof membrane are laid below the plant root system, the waterproof membrane is located below the non-woven fabric, both the non-woven fabric and the waterproof membrane extend into the water storage cavity of the water tank through the water inlet and outlet trough ports, and the height of the waterproof membrane and the non-woven fabric gradually decreases from the outer end to the position close to the water inlet and outlet trough ports, so that the irrigation water poured above the plant root system is absorbed by the planting sand around the plant root system, seeps to the bottom, and after being blocked and diverted by the waterproof membrane, It enters the water storage chamber of the water tank, and then under the action of the "capillary phenomenon" of the non-woven fabric, the water in the water storage chamber will enter the planting soil under the plant roots through the non-woven fabric, and be absorbed and utilized by the plant roots to ensure the normal growth of desert plants. It can be seen that the desert plant water and fertilizer supply device of the utility model can realize the temporary storage of irrigation water for desert plants, and the stored water will be slowly supplied by the non-woven fabric to the planting sand under the plant roots, which solves the problem of the existing irrigation water infiltration in the planting sand, realizes the maximum utilization of irrigation water, and has a significant water-saving effect. It is suitable for application in the planting process of desert plants.

Furthermore, by providing a dosing pipe connected to the water storage chamber of the water tank, water-soluble fertilizers are added to the water tank through the dosing pipe, so that the irrigation water forms fertilizer-containing storage water, thereby supplying nutrients to the desert plants while supplying water, thereby ensuring the normal growth of the desert plants.

Furthermore, by arranging a float in the water storage chamber, a floating rod is fixed on the float and passes through the water storage chamber and the planting sand. In this way, the planting personnel can judge the liquid level in the water storage chamber by observing the height of the floating rod, so as to fill and replenish the water in time after the fertilizer-containing water is consumed.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG1 is a diagram showing the use state of the device for supplying water and fertilizer to desert plants according to the utility model;

FIG2 is a front view of the device for supplying water and fertilizer to desert plants according to the utility model;

FIG3 is a left view of the device for supplying water and fertilizer to desert plants according to the present invention;

FIG. 4 is a top view of the device for supplying water and fertilizer to desert plants according to the present invention.

In the figure: 1 desert plants, 2 water storage tank, 3 planting sand, 4 plant root system, 5 water inlet and outlet, 6 non-woven fabric, 7 waterproof membrane, 8 fertilizer-containing water storage, 9 float, 10 floating rod, 11 protective outer cylinder, 12 dosing pipe, 13 sealing cover, 14 irrigation water, 15 non-woven fabric water supply, 16 water storage chamber.

DETAILED DESCRIPTION

The utility model is further described below in conjunction with the accompanying drawings and embodiments.

As shown in FIG1 , a diagram of the use state of the desert plant water supply and fertilizer supply device of the utility model is provided, and FIG2 , FIG3 and FIG4 respectively provide its front view, left view and top view, and the desert plant water supply and fertilizer supply device shown is composed of a water storage tank 2 buried in the planting sand 3, and the water storage tank 2 is located below the plant root system 4 of the desert plant 1, and the interior of the water storage tank 2 is a water storage cavity 16 for storing water. The water storage tank 2 is provided with an inlet and outlet trough 5 on the side facing the desert plant 1, and the inlet and outlet trough 5 is horizontal. A non-woven fabric 6 and a water-proof membrane 7 are provided below the plant root system 4, and the water-proof membrane 7 is located below the non-woven fabric 6, and the water-proof membrane 7 is made of a water-impermeable material. The water-proof membrane 7 and the non-woven fabric 6 extend into the water storage cavity 16 of the water storage tank 2 through the inlet and outlet trough 5, and the height of the water-proof membrane 7 and the non-woven fabric 6 gradually decreases from the far end to the position close to the inlet and outlet trough 5.

Since the height around the outer ends of the water-blocking film 7 and the non-woven fabric 6 is high, and the height near the water inlet and outlet trough 5 is low, the irrigation water of the desert plant 1 enters the planting sand 3 around the plant root system 4 of the desert plant 1 after being poured. As the irrigation water seeps down, the water-blocking film 7 blocks and guides the irrigation water, so that the irrigation water enters the water storage chamber 16 through the water inlet and outlet trough 5 for temporary storage. Due to the "capillary phenomenon" of the fibers constituting the non-woven fabric 6, the irrigation water in the water storage chamber 16 enters the planting sand 3 below the plant root system 4 through the non-woven fabric, is absorbed by the plant root system 4, and is reused by the desert plant 1.

It can be seen that the desert plant watering and fertilizing device of the utility model temporarily stores irrigation water in the water storage tank 2 under the blocking and diversion effect of the waterproof membrane 7, and the water stored in the water storage tank 2 is reused by the desert plants 1 under the "capillary phenomenon" of the non-woven fabric 6, thereby solving the problem that the planting sand 3 cannot retain water due to its easy infiltration, realizing the maximum utilization of irrigation water, and ensuring the normal growth of the desert plants 1 with a relatively small amount of irrigation water.

In order to provide nutrients to the desert plants 1 while providing water, a vertical dosing pipe 12 is provided on the water storage tank 2, the lower end of the dosing pipe 12 is connected to the water storage chamber 16, and the upper end of the dosing pipe 12 is exposed on the upper surface of the planting sand 3, so that water-soluble fertilizers can be added to the water storage chamber 16 through the dosing pipe 12. In order to prevent sand from entering the water storage chamber 16 through the dosing pipe 12, a sealing cover 13 is provided at the upper end of the dosing pipe 12, and the sealing cover 13 realizes the blocking of the dosing pipe 12.

Planting personnel need to be able to obtain the water level of the fertilizer-containing water 8 in the water tank 2 so as to irrigate in time when there is a shortage of water. The water tank 2 shown is provided with a float 9, on which a vertical floating rod 10 is fixed, and on the upper wall of the water tank 2 a vertical protective outer cylinder 11 is fixed, the lower end of the protective outer cylinder 11 is connected to the water storage chamber 16, the floating rod 10 passes through the protective outer cylinder 11, and the inner diameter of the protective outer cylinder 11 is larger than the diameter of the floating rod 10, and the upper ends of the floating rod 10 and the protective outer cylinder 11 are both passed through the upper surface of the planting sand 3, so that the planting personnel can know the liquid level of the fertilizer-containing water 8 in the water storage chamber 16 by observing the height position of the upper end of the floating rod 10, so as to irrigate and replenish water in time when there is no water.

The lower end of the nonwoven fabric 6 extends into the bottom of the water storage chamber 16, so that when the water level is low, the nonwoven fabric 6 can also absorb the fertilizer-containing water 8 at the bottom of the water storage chamber 16 through the "capillary phenomenon". The lower end of the water-blocking membrane 7 extends into the middle and lower part of the water storage chamber 16, so that the irrigation water blocked and guided by the water-blocking membrane 7 is led into the water storage chamber 16.

Claims (5)

1. A device for supplying water and fertilizer to desert plants, comprising a water tank (2) buried in the planting sand (3) of desert plants (1), the water tank being located below and beside the plant root system of the desert plants, the interior of the water tank being a water storage chamber (16) for storing fertilizer-containing water (8); the device is characterized in that: a transverse water inlet and outlet trough opening (5) is provided on the side wall of the water tank close to the plant root system, an inclined non-woven fabric (6) and a water-isolating membrane (7) are laid below the plant root system, the water-isolating membrane being located below the non-woven fabric, the non-woven fabric and the water-isolating membrane extending into the water storage chamber of the water tank through the water inlet and outlet trough opening; the height of the non-woven fabric and the water-isolating membrane gradually decreases from the outer end to the position close to the water inlet trough. 2. The desert plant watering and fertilizing device according to claim 1 is characterized in that: a vertical dosing pipe (12) is arranged on the water storage tank (2), the lower end of the dosing pipe is communicated with the water storage chamber (16) of the water storage tank, and the upper end is exposed on the upper surface of the planting sand (3), and a sealing cover (13) is arranged on the upper end of the dosing pipe; the dosing pipe is used to add water-soluble fertilizers required by the desert plants (1) into the water storage chamber (16). 3. The desert plant watering and fertilizing device according to claim 1 or 2 is characterized in that: a float (9) is provided in the water storage tank (2), a vertical floating rod (10) is fixed on the float, the floating rod passes through the upper wall of the water storage tank, and a protective outer cylinder (11) is provided on the periphery of the floating rod, the lower end of the protective outer cylinder is communicated with the water storage chamber, and the inner diameter of the protective outer cylinder is larger than the diameter of the floating rod; the upper ends of the protective outer cylinder and the floating rod are exposed on the upper surface of the planting sand (3). 4. The desert plant watering and fertilizing device according to claim 1 or 2, characterized in that the lower end of the non-woven fabric (6) extends to the bottom of the water storage chamber (16), and the lower end of the water-isolating membrane (7) extends to the middle and lower part of the water storage chamber. 5. The desert plant water and fertilizer supply device according to claim 1 or 2, characterized in that the water storage tank (2) is in the shape of a rectangular parallelepiped.