RU170897U1 - Device for watering plants - Google Patents

Abstract

A device for watering plants refers to irrigation systems and is intended to organize automatic watering of plants. A device for watering plants contains a container 1, a hose 2 emerging from it, connected to a device 3 for automatically controlling the flow of fluid entering the plants through hydraulic channels 4, distribution piping 5 and droppers 6. A device 3 for automatically controlling the flow of fluid consists of a cover 7 with an inlet 8, the housing 9 with the outlet 10 and a rotary disk 13 located between them with one passage hole 12. The shaft 14 of the rotary disk 13 is connected to a programmable drive stepping rotation 15. Between the cover 7 and the rotary disk 13 there is a space for the passage of fluid, and between the rotary disk 13 and the housing 9 formed a tight connection. The number of outlet openings 10 of the housing 9 is equal to the number of hydraulic channels 4. The number of steps of the rotary disk 13 is greater than the number of outlet openings 10, and the outlet openings and the through hole are located on the same radius. The technical result consists in simplifying the design of the device for automatic control of the fluid flow through the use of one actuator that acts as a shut-off and control pipe fittings. 2 ill.

Description

A device for watering plants refers to irrigation systems and is intended to organize automatic watering of plants. A device for regulating fluid flow [1], comprising a housing, an inlet, a bore window of variable cross section, a flat seat, a shaft with a locking and regulating body made in the form of an eccentric relative to the axis of the shaft, and an outlet. The disadvantage of the design of this device is that it can only be used to transfer fluid to one consumer. The closest in technical essence and the achieved result is a device for watering plants [2], containing a water tank, at the bottom of which a pump is installed, which serves to supply water through a hose with a suction elbow, a tap and a tip to the receiving pipes and distribution pipelines with droppers, a drive controlled from a software device for moving the tip from one receiving pipe to another and a software device with the ability to automatically control the process of watering plants for to these programs. This design of the device allows you to apply an adjustable amount of fluid to two rows of plants in turn due to the step-by-step movement of the water supply tip from the inlet pipe of the first distribution pipe to the second distribution pipe.

A drawback of the design of this device is that it uses a reversible pump to start and stop the irrigation process, and a programmable step drive to distribute the fluid flow between the hydraulic channels. In this case, a reversible pump with a suction elbow plays the role of shutoff valves, and a stepper drive with a moving tip plays the role of control equipment. The use of two actuators complicates the design of an automatic irrigation system.

The problem solved by the utility model is to simplify the design of the device for automatically controlling the fluid flow through the use of a single actuator that acts as a shut-off and control pipe fittings.

To solve this problem, a device is used that contains a container for liquid, a hose emerging from it, connected to a device for automatically controlling the flow of liquid entering the plants through hydraulic channels. A device for automatically controlling the fluid flow consists of a cover with an inlet, a housing with outlet openings and a rotary disk located between them with one through-hole, the shaft of which is connected to a programmable step-by-step drive. There is space between the cover and the rotary disk for fluid passage, and a tight connection is made between the rotary disk and the housing, the number of outlet openings of the housing being equal to the number of hydraulic channels, the number of steps of the rotary disc is greater than the number of outlet openings, and the outlet openings and the through hole are located on the same radius .

This design of the device for watering plants allows you to use one actuator both to start and stop the irrigation process, and to distribute the fluid flow between the hydraulic channels, which simplifies the design of the device and the process of its functioning.

In FIG. 1 shows a general diagram of a device for watering plants, FIG. 2 is a diagram of a device for automatically controlling fluid flow. A device for watering plants contains a container 1, a hose 2 emerging from it, connected to a device 3 for automatically controlling the flow of fluid entering the plants through hydraulic channels 4, distribution piping 5 and droppers 6. A device 3 for automatically controlling the flow of fluid consists of a cover 7 with an inlet 8, the housing 9 with the outlet 10 and a rotary disk 13 located between them with one passage hole 12. The shaft 14 of the rotary disk 13 is connected to a programmable drive stepping rotation 15. Between the cover 7 and the rotary disk 13 there is a space for the passage of fluid, and between the rotary disk 13 and the housing 9 formed a tight connection. The number of outlet openings 10 of the housing 9 is equal to the number of hydraulic channels 4. The number of steps of the rotary disk 13 is greater than the number of outlet openings 10, and the outlet openings and the through hole are located on the same radius.

A device for watering plants works as follows. In the programmable drive of step-by-step rotation 15, the duration and frequency of irrigation activation is set individually for each row of plants. Capacity 1 is filled with water. Water flows by gravity through the hose 2 and the inlet 8 into the space between the cover 7 and the rotary disk 13 of the device 3 for automatic regulation of the fluid flow. The through hole 12 of the rotary disk 13 is blocked by the casing 9, which prevents water from entering the output holes 10. During the start of the system, the rotary disk 13, connected through the shaft 14 with a programmable step-by-step drive 15, rotates one step. The through hole 12 of the rotary disk 13 is fully or partially combined with the outlet 10 of the housing 9. Water through the holes 12 and 10 enters the first hydraulic channel 4 and through the distribution pipes 5 and droppers 6 to the roots of the first row of plants. The amount of water entering the hydraulic channel can be adjusted programmatically by changing the angle of rotation of the disk 13. After the watering time of the first row of plants has passed, the rotary disk 13 is rotated to the next step. The through hole 12 of the rotary disk 13 is combined with the next outlet 10 of the housing 9. Water through the holes 12 and 10 enters the second hydraulic channel 4, then through the distribution pipes 5 and droppers 6 to the roots of the second row of plants. After the duration of watering the second row of plants, the rotary disk 13 is rotated to the next step. The through hole 12 of the rotary disk 13 is blocked by the housing 9, which prevents the flow of water to the outlet openings 10. The irrigation process is terminated. When the programmed time of the next watering has arrived, the rotary disk 13 is again rotated one step and the watering cycle is repeated.

Pilot tests of the device for watering two rows of plants located on an area of 12 square meters from a barrel with a height of 860 mm., Set above the ground level by 450 mm confirm that it can be used as a locking and regulating device. Sources taken into account:

1. Copyright certificate SU 2539854 A1.

2. Patent for utility model RU 160044 U1.

Claims (1)

A device for watering plants, containing a container for liquid, a hose emerging from it, connected to a device for automatically controlling the flow of liquid entering the plants through hydraulic channels, consisting of a cover with an inlet, a housing with outlet openings and a rotary disk with one a bore, the shaft of which is connected to a programmable step-by-step drive, characterized in that there is a space between the cover and the rotary disk for the passage of liquid and, as between the rotating disk and the housing holds a seal, the number of outlets equal to the number of hydraulic housing channels, the number of the rotary disk steps more than the number of outlets, and outlet holes and a through hole located on the same radius.

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