CN102687657A - Automatic pipeline water transmission and water-saving irrigation device - Google Patents

Abstract

The invention relates to an automatic long-distance pipeline water transmission and water-saving irrigation device. A plurality of water pumps are connected in series through a water transmission pipeline; the water outlet end of the water transmission pipeline, a field water guide pipe, a field water tank and a buoyancy control switch are sequentially connected; the field water tank is connected with a dropper; a starting water outlet pipe, an over-pressure water outlet pipe and an over-pressure water outlet valve are arranged on the water transmission pipeline; after being discharged, water is used by a control system below; and water-saving irrigation of various terrains can be automatically realized.

Description

Pipeline water delivery and water-saving irrigation automation equipment

Affiliated technical field

The present invention relates to a kind of automatic water conveying, jettison gear, especially pipeline water delivery and water-saving irrigation automation equipment.

Background technology

At present advanced farmland automation jettison gear be by I just invention paddy field soon discharge water automatically, draining and electric pumping station automatic control device; Application number is: 201010549175.X, 201110030777.9,201110045635.X; But it is only applicable to the flat area water channel and irrigates, and is not suitable for defeated length of the long distance in non-flat land and water-saving irrigation and uses.

Summary of the invention

In order to overcome the shortcoming that present farmland automation jettison gear is not suitable for non-flat land long distance water transfer and water-saving irrigation use; The present invention provides a kind of device not only to be applicable to the flat land, can be applicable to that more the automation of non-flat land long distance water transfer and water-saving irrigation is used.

The technical solution adopted for the present invention to solve the technical problems is: with the sealing aqueduct many water pump packings are contacted; The most high-lift low 3 to 5 meters of the differences in height of adjacent two pumps than water pump; The aqueduct water side is connected with the field water tank with the field aqueduct, has buoyancy gauge tap connecting box that the buoyancy gauge tap in the water tank of field is linked to each other with the field aqueduct in the water tank of field.The following water level of the pump valve place of every pump (except the water source pump) is provided with the startup outlet pipe and is connected with the buoyancy gauge tap with buoyancy gauge tap connecting box; The buoyancy gauge tap is arranged in the storage cistern; The outlet pipe of storage cistern links to each other with the water inlet pipe of the full tailrace of the case of below; The outlet pipe of the full tailrace of case links to each other with the water inlet pipe of the buoyancy gauge tap of below, and the pipeline of buoyancy gauge tap links to each other with the water pump gauge tap.Start the outlet pipe below and be provided with the aqueduct aperture.The last water level place of every pump is provided with superpressure outlet valve and superpressure outlet pipe; The superpressure outlet valve of water source pump and superpressure outlet pipe below are provided with storage cistern; Be connected with control dropper, outlet pipe on the storage cistern, outlet pipe links to each other with the water inlet pipe of the full tailrace of case of below, and the outlet pipe of the full tailrace of case links to each other with the water inlet pipe of the buoyancy gauge tap of below; The pipeline of buoyancy gauge tap links to each other with the water pump gauge tap; The below of control dropper is provided with the full tailrace of case, and the outlet pipe of the full tailrace of case links to each other with the water inlet pipe of the buoyancy gauge tap of below, and the pipeline of buoyancy gauge tap links to each other with the water pump gauge tap.The superpressure outlet valve that the water source pump is above and the below of superpressure outlet pipe are provided with the full tailrace of case, and the outlet pipe of the full tailrace of case links to each other with the water inlet pipe of the buoyancy gauge tap of below, and the pipeline of buoyancy gauge tap links to each other with the water pump gauge tap.The water inlet of water source pump is provided with fertilising, dispenser funnel.In the full tailrace of water droplet cartonning in the storage cistern at pump place, water source, after the full tailrace of case discharged water, the pipeline pulling water pump gauge tap of buoyancy gauge tap was closed; Start water pump, water flowed into buoyancy gauge tap connecting box when waterborne in the aqueduct rose to adjacent pump valve from start outlet pipe, from the water inlet of buoyancy gauge tap, flow in the storage cistern again; When storage cistern will be expired; Current advance in the buoyancy gauge tap, through pipeline buoyancy gauge tap valve cover are closed water inlet, flow in the buoyancy gauge tap of below after the case below the current in the storage cistern advance is expired in the tailrace again; Through the closed water pump that starts of pipeline pulling water pump gauge tap; The rest may be inferred starts adjacent water pump, water is constantly upwards risen to use water end (W.E.), flows in the water tank of field after flowing in the aqueduct of field again; And then flow in the dropper that is connected in the field water tank bottom, drip in the film basin of plant root.When the water level in the water tank of field arrives the water inlet of buoyancy gauge tap; The buoyancy gauge tap starts closes water inlet with valve cover, and the hydraulic pressure in field aqueduct and the next-door neighbour's aqueduct is increased to the highest hydraulic pressure, makes superpressure outlet valve and superpressure outlet pipe expire the buoyancy gauge tap that the back that discharges water in the tailrace starts the below to case; Pulling water pump gauge tap breaks off; Stop water pump, the rest may be inferred, and pump stops until the water source.

The invention has the beneficial effects as follows, not be only applicable to the flat land and discharge water that water-saving irrigation can be applicable to that more the automation of non-flat land long distance water transfer and water-saving irrigation is used.

Description of drawings:

Below in conjunction with accompanying drawing and embodiment the present invention is further specified.

Fig. 1 is superpressure outlet valve and superpressure outlet pipe to the storage cistern principle schematic that discharges water.

Fig. 2 flows to the buoyancy gauge tap behind the full tailrace of the current inlet in the storage cistern again, and pulling water pump gauge tap breaks off and stops the water pump principle schematic.

Fig. 3 is aqueduct and many water pump polyphone principle schematic.

Fig. 4 flows in the buoyancy gauge tap in the full tailrace of the water droplet inlet in the storage cistern again, the closed water source pump principle schematic that starts of pulling water pump gauge tap.

Fig. 5 be the water pump of low water level when upwards promoting water near the pump valve that the back arrives adjacent water pump current advance to get in the water inlet of buoyancy gauge tap of below in the full tailrace of case that storage cistern flows to the below again and the buoyancy gauge tap, with the closed startup of water pump gauge tap water pump to higher water pump water delivery principle schematic.

Fig. 6 stops the water pump principle schematic with the disconnection of water pump gauge tap in full tailrace of the case below flowing to after superpressure discharging valve and superpressure outlet pipe discharge water and the buoyancy gauge tap.

Fig. 7 is after the field tank water expires, and buoyancy gauge tap pulling valve cover is closed water inlet, pressure rising principle schematic in the aqueduct of field.

Fig. 8 is dropper that the field water tank bottom the connects principle schematic that distributes in the field.

1. storage cisterns among the figure, 2. control dropper, 3. full tailrace, 4. buoyancy gauge tap, 5. water pump gauge tap of case; 6. outlet pipe, 7. water inlet pipe, 8. pump valve, 9. fertilising, dispenser funnel, 10. water pump; 11. the superpressure outlet pipe, 12. superpressure outlet valves, 13. aqueducts, 14. buoyancy gauge tap connecting boxes, 15. aqueduct apertures; 16. angle pulley, 17. field aqueducts, 18. field water tanks, 19. sealed rubbers, 20. droppers; 21. the dropper aperture, 22. dropper screen packs, 23. film basins, 24. start outlet pipe.

Embodiment

Be connected with many water pumps (10) in the sealing aqueduct (13); Aqueduct (13) water side is connected with field water tank (18) with field aqueduct (17); There is buoyancy gauge tap connecting box (14) that the buoyancy gauge tap (4) in the field water tank (18) is linked to each other with field aqueduct (17) in the field water tank (18); The bottom of field water tank (18) is connected with dropper (20); Water splashes into from dropper aperture (21) in the film basin (23) of plant root; The following water level of pump valve (8) place of every pump (10) (except the water source pump) is provided with startup outlet pipe (24) and is connected with buoyancy gauge tap (4) with buoyancy gauge tap connecting box (14), and buoyancy gauge tap (4) is arranged in the storage cistern (1), and the outlet pipe (6) of storage cistern (1) links to each other with the water inlet pipe (7) of the full tailrace (3) of the case of below; The outlet pipe (6) of the full tailrace (3) of case links to each other with the water inlet pipe (7) of the buoyancy gauge tap (4) of below, and the pipeline of buoyancy gauge tap (4) links to each other with water pump gauge tap (5).Start outlet pipe (24) below and be provided with aqueduct aperture (15).The last water level place of every pump (10) is provided with superpressure outlet valve (12) and superpressure outlet pipe (11); The superpressure outlet valve (12) of water source pump (10) and superpressure outlet pipe (11) below are provided with storage cistern (1); Be connected with control dropper (2) on the storage cistern (1); Outlet pipe (6), outlet pipe (6) links to each other with the water inlet pipe (7) of the full tailrace (3) of case of below, and the outlet pipe (6) of the full tailrace (3) of case links to each other with the water inlet pipe (7) of the buoyancy gauge tap (4) of below; The pipeline of buoyancy gauge tap (4) links to each other with water pump gauge tap (5); The below of control dropper (2) is provided with the full tailrace (3) of case, and the outlet pipe (6) of the full tailrace (3) of case links to each other with the water inlet pipe (7) of the buoyancy gauge tap (4) of below, and the pipeline of buoyancy gauge tap (4) links to each other with water pump gauge tap (5).The superpressure outlet valve (12) that water source pump (10) is above and the below of superpressure outlet pipe (11) are provided with the full tailrace (3) of case; The outlet pipe (6) of the full tailrace (3) of case links to each other with the water inlet pipe (7) of the buoyancy gauge tap (4) of below, and the pipeline of buoyancy gauge tap (4) links to each other with water pump gauge tap (5).The water inlet of water source pump (10) is provided with fertilising, dispenser funnel (9).

Claims (1)

1. automatic irrigation device, an end of dropper stretch into time-delay moisturizing pond, and the other end stretches in the full tailrace of case; The outlet pipe of the full tailrace of case links to each other with the water inlet pipe of buoyancy gauge tap, and the pipeline of buoyancy gauge tap is connected with the water pump gauge tap, and the water inlet pipe of completely putting another case device is fixed on the designated water level place; Outlet pipe links to each other with the water inlet pipe of buoyancy gauge tap, and the pipeline of buoyancy gauge tap is connected with the water pump gauge tap, it is characterized in that: many water pumps of sealing aqueduct polyphone; Water source end water inlet is provided with fertilising, dispenser funnel, and the aqueduct water side is connected with the field aqueduct, and the field aqueduct is connected with the field water tank; Buoyancy gauge tap connecting box one end in the water tank of field connects the field aqueduct; The other end connects the buoyancy gauge tap, and the bottom of field water tank is connected with dropper, and water splashes into from the dropper aperture in the film basin of plant root; The following water level of the pump valve place of every pump (except the water source pump) is provided with and starts outlet pipe connection buoyancy gauge tap connecting box one end; The connecting box other end is connected with the buoyancy gauge tap, and the buoyancy gauge tap is arranged in the storage cistern, and the storage cistern below is provided with the full tailrace of case, buoyancy gauge tap, water pump gauge tap control system; Start the outlet pipe below and be provided with the aqueduct aperture; The last water level place of every pump is provided with superpressure outlet valve and superpressure outlet pipe, and superpressure outlet valve and superpressure outlet pipe below are provided with the full tailrace of case, buoyancy gauge tap, water pump gauge tap control system, also increase the full tailrace of the case that storage cistern, dropper and below thereof are arranged in the water source pump control system; The buoyancy gauge tap, water pump gauge tap control system.

Images