CN206110237U - Long distance high mountain integrated system for water lift - Google Patents

Abstract

The utility model provides a long distance high mountain integrated system for water lift, the in -take pump station includes in -take pump, in -take pump outlet pressure gauge and install in -take pump station water hammer on the water hammer bleeder line of in -take pump station drain motorised valve and in -take pump station water hammer arrestor, in -take pump installs in -take pump export electrical control valve on going out the water -drying pipe, connects in -take pump station water hammer valve bypass pipe on the water hammer bleeder line of in -take pump station, booster pump station includes force (forcing) pump, force (forcing) pump inlet pressure table, force (forcing) pump import motorised valve and installs booster pump station water hammer on booster pump station water hammer bleeder line drain motorised valve and booster pump station water hammer arrestor, installs force (forcing) pump export electrical control valve on the play water -drying pipe of force (forcing) pump, connects booster pump station water hammer valve bypass pipe on the booster pump station water hammer bleeder line, in -take pump station and booster pump station pass through the direct series connection of hydraulic pipe -line, a plurality of pi type compensators of installation on the hydraulic pipe -line. But this system's safety and stability operation, long, the occupation of land of being convenient for manage, save of operating duration to can reduce the investment.

Description

Long range high mountain water lift integrated system

Technical field：

This utility model belongs to feedwater water delivery field, more particularly to a kind of long range high mountain water lift integrated system.

Background technology：

Landscape famous mountain visitor is numerous, is to meet fire prevention, greening water needs on visitor's water needs and mountain, need to be to mountain top Supply water.At present, conventional water system is the method for arranging forebay, i.e. water is delivered to a washing basin by previous stage force (forcing) pump, Next stage force (forcing) pump is fetched water by washing basin, and continuation is pressurizeed in water, plural serial stage, until water is delivered to into destination.The party Usually there are in operation various problems in method, and 1, system pressure-bearing is not high enough, conveying station level number is excessive, arrange forebay causes water quality Easily pollution；2nd, because pipe material selection is improper and does not consider the reasons such as phenomenon of expanding with heat and contract with cold, pipeline leak on the way is caused；3rd, control System arranges not perfect enough, and safety is not enough during system operation.

The content of the invention：

The purpose of this utility model is to overcome above-mentioned the deficiencies in the prior art, there is provided a kind of long range high mountain is carried Water integrated system, the system can safe and stable operation, long operational time, be easy to manage, save occupation of land and investment can be reduced.

As above conceive, the technical solution of the utility model is：A kind of long range high mountain water lift integrated system, including water intaking Pumping plant (19), booster station (20) and hydraulic pipeline (14)；Water intake pumping station includes water pump (1), water pump delivery gauge (2) And go out the water intake pumping station water hammer adjutage that water conduit tube is connected with water pump, water intake pumping station water is installed on water intake pumping station water hammer adjutage Hammer discharge water electrodynamic valve (4) and water intake pumping station water-hammer arrester (5) into shape；Booster station (20) includes force (forcing) pump (9), force (forcing) pump inlet-pressure Power table (7), pressurization pump inlet electrodynamic valve and go out the booster station water hammer adjutage that water conduit tube is connected, force (forcing) pump at (8) with force (forcing) pump Station booster station water hammer of be provided with water hammer adjutage discharges water electrodynamic valve (11) and booster station water-hammer arrester (12)；Its feature It is：The water pump (1) adopts soft start, and it goes out on water conduit tube installs water intaking pump discharge electric control valve (3), water intake pumping station Connect water intake pumping station water hammer valve bypass pipe (6) on water hammer adjutage to discharge water electrodynamic valve (4) and water intake pumping station with water intake pumping station water hammer Water-hammer arrester (5) simultaneously connects；The force (forcing) pump (9) adopts VFC, and it goes out on water conduit tube to install pressurization pump discharge electric adjustable Section valve (10), connects booster station water hammer valve bypass pipe (13) and discharges water electricity with booster station water hammer on booster station water hammer adjutage Dynamic valve (11) and booster station water-hammer arrester (12) simultaneously connect；The water intake pumping station (19) and booster station (20) are by water-supply-pipe Road (14) is directly connected, and the water conduit tube that goes out of water intake pumping station is connected with the water conduit tube that enters of booster station；Install on the hydraulic pipeline Multiple π types compensators (15), each π type compensator both sides mounting and fixing bracket (16).

Above-mentioned water pump (1) adopts submersible pump.

Above-mentioned force (forcing) pump (9) adopts multi-stage centrifugal pump.

Above-mentioned π types compensator (15) both sides longitudinal direction straight length (17) bottom connects 90 ° of elbows (18), and top passes through respectively 90 ° of elbows are connected with horizontal pipeline section.

This utility model has the following advantages and good effect：

1st, this utility model is constructed that is, between water pump by the way of front stage force (forcing) pump is directly connected without any Thing, be not required to build pond, it is to avoid the water pollution caused because arranging intermediate pool, while reducing energy consumption, saves occupation of land, Cost and investment are reduced, due to not setting pond, the workload in clear pond is avoided in operational management so that operational management is easy.

2nd, it is π types compensator and matching fixation that this utility model selects a kind of compensation way in optimum mountain area Frame, solves well the steel pipe water-carriage system under the big temperature difference environment of high mountain and expands with heat and contract with cold the shakiness caused to whole water-carriage system Fixed even breakoff phenomenon.

3rd, this utility model employs many kinds of measures and prevents the destruction of water hammer jointly：1. soft or frequency conversion control are adopted to water pump System；2. the electric butterfly valve gone out on water conduit tube of water pump and force (forcing) pump is changed to electric control valve；3. in water pump and force (forcing) pump Go out on water conduit tube to draw water-hammer arrester bypass pipe and be connected with water-hammer arrester, the high pressure that water-hammer arrester can be made to produce in water hammer Low voltage period before arrival starts action, while the correct operation of water-hammer arrester can be better ensured that, it is to avoid its misoperation, So as to improve the reliability of water hammer valve, further enhance system and water hammer is overcome, improve the safety of system.

4th, all pipelines of this utility model adopt high voltage bearing seamless steel pipe, while high voltage bearing attached valve is selected, So that system bearing capacity is improved, so as to reducing pumping plant quantity, investment reduction, reducing management workload, improve anti-risk energy Power is strong and safety.

Description of the drawings：

Fig. 1 is structural representation of the present utility model；

Fig. 2 is water intake pumping station site plan；

Fig. 3 is booster station site plan；

Fig. 4 is water-carriage system flow chart；

Fig. 5 is π types compensator arrangement schematic diagram；

Fig. 6 is π type compensator detail drawings.

Labelling in accompanying drawing is as follows：

1st, water pump 2, water pump delivery gauge

3rd, pump discharge electric control valve 4, water intake pumping station water hammer of fetching water discharges water electrodynamic valve

5th, water intake pumping station water-hammer arrester 6, water intake pumping station water hammer valve bypass pipe

7th, force (forcing) pump inlet pressure gauge 8, pressurization pump inlet electrodynamic valve

9th, force (forcing) pump 10, pressurization pump discharge electric control valve

11st, booster station water hammer discharges water electrodynamic valve 12, booster station water-hammer arrester

13rd, booster station water hammer valve bypass pipe 14, waterline

15th, π types compensator 16, fixed support

17th, 18,90 ° of elbows of straight length

19th, water intake pumping station 20, booster station

Specific embodiment：

As shown in the figure：A kind of long range high mountain water lift integrated system, including water intake pumping station (19), booster station (20) and Hydraulic pipeline (14)；Water intake pumping station includes water pump (1), water pump delivery gauge (2) and goes out water conduit tube with water pump and be connected Water intake pumping station water hammer adjutage, on water intake pumping station water hammer adjutage install water intake pumping station water hammer discharge water electrodynamic valve (4) and water intaking Water Hammer canceller (5)；

Booster station (20) including force (forcing) pump (9), force (forcing) pump inlet pressure gauge (7), pressurization pump inlet electrodynamic valve (8) and with Force (forcing) pump goes out the booster station water hammer adjutage of water conduit tube connection, and on booster station water hammer adjutage booster station water hammer is provided with Discharge water electrodynamic valve (11) and booster station water-hammer arrester (12)；

Innovative point of the present utility model is：

1st, the water pump (1) adopts soft start, and it goes out on water conduit tube installs water intaking pump discharge electric control valve (3), takes Connect water intake pumping station water hammer valve bypass pipe (6) on pump works water hammer adjutage and discharge water with water intake pumping station water hammer and electrodynamic valve (4) and take Pump works water-hammer arrester (5) simultaneously connects；

2nd, the force (forcing) pump (9) adopts VFC, and it goes out on water conduit tube installs pressurization pump discharge electric control valve (10), Connect booster station water hammer valve bypass pipe (13) on booster station water hammer adjutage to discharge water electrodynamic valve (11) with booster station water hammer With booster station water-hammer arrester (12) and connect；

3rd, the water intake pumping station (19) and direct weighting pumping plant (20) are directly connected by hydraulic pipeline (14), water intake pumping station The water conduit tube that goes out connect with the water conduit tube that enters of booster station；

Multiple π types compensators (15) the 4th, are installed, each π type compensators both sides mounting and fixing bracket on the hydraulic pipeline (16)。

Above-mentioned water pump (1) adopts submersible pump.

Above-mentioned force (forcing) pump (9) adopts multi-stage centrifugal pump.

Above-mentioned π types compensator (15) both sides longitudinal direction straight length (17) bottom connects 90 ° of elbows (18), and top passes through respectively 90 ° of elbows are connected with horizontal pipeline section.

The course of work of the present utility model is：When system prepares to run, whole system is in blank state, first before starting First check that water intake pumping station water outlet electric control valve (3) should be at closed mode, water intake pumping station water hammer discharges water electrodynamic valve (4) in opening Open state, state of the water-hammer arrester (5) in working at any time, pressurization pump inlet electrodynamic valve (8) and the pump discharge that pressurizes it is electronic Regulating valve (10) is closed, and booster station water hammer discharges water electrodynamic valve (11) in opening, and booster station water hammer disappears Except state of the device (12) in working at any time.

Water pump (1) is opened during startup, water pump (1) adopts soft starting mode, while opening water intaking pump discharge electric adjustable Section valve (3), water is transported to booster station, and now water intake pumping station water hammer discharges water electrodynamic valve (4) still in opening, water pump Stand state of the water-hammer arrester (5) in working at any time, when system operation produces water hammer, the valve starts, and eliminates system Water hammer, it is to avoid system causes to damage because of the generation of water hammer, it is ensured that the safe operation of water intake system.To increase systematic waterproofing hammer Reliability, on water pump (1) outlet pipe bypass line is set, the water intake pumping station water being connected on water-hammer arrester (5), i.e., in figure Hammer valve bypass pipe (6), when the low pressure event before water hammer occurs occurs in system, water-hammer arrester (5) is i.e. actionable, bypass pipe (6) low pressure pilot in the water-hammer arrester (5) of connection is opened, when immediately follow-up water hammer is produced, the height in water-hammer arrester (5) Pressure pilot valve is opened, and the water hammer pressure in pipeline is released by the water-hammer arrester opened.

When force (forcing) pump inlet pressure gauge (7) shows reading, it was demonstrated that water has been transported to booster station entrance, pressurization is opened Pump inlet electrodynamic valve (8), is then turned on force (forcing) pump (9), while opening force (forcing) pump water outlet electric control valve (10), water will be conveyed To destination.Now booster station water hammer discharges water electrodynamic valve (11) still in opening, booster station water-hammer arrester (12) State in working at any time, when system operation produces water hammer, the valve starts, and eliminates the water hammer of system, it is to avoid system because The generation of water hammer and cause damage, it is ensured that the safety of compression system.To increase the reliability of systematic waterproofing hammer, in force (forcing) pump water outlet Guan Shangshe bypass lines, are connected on water-hammer arrester, i.e., booster station water hammer valve bypass pipe (13) shown in figure, when system goes out When showing the low pressure event before water hammer occurs, water-hammer arrester is actionable, and the low pressure pilot of bypass pipe (13) connection is opened, subsequently High pressure water hammer produce when, high-pressure pilot valve open, the water hammer pressure in pipeline by open water-hammer arrester (12) release.

To avoid system destroyed because expanding with heat and contract with cold, π type compensators (15) is provided with pipeline and matched is consolidated Fixed rack (16), when ambient temperature is raised, waterline (14) expansion elongation, total elongation will be by multiple fixed supports (16) it is divided into some sections, pipeline of fixed support (16) this point does not produce displacement, between each two fixed support (16) Elongation will be absorbed by π type compensators (15), and 2 points of a, b and straight length (17) of π type compensators (15) are subjected to displacement, and 90 ° curved Head (18) deforms, and with this elongation, the elongation that π type compensators (15) can bear and the actual elongation for producing are absorbed It is matched by calculating.

When the environment temperature decreases, waterline (14) shrinks, and total amount of contraction also will be by multiple fixed supports (16) point Into some sections, formed with it is flexible when reverse displacement, same fixed support (16) this point do not produce displacement.Fix in each two and prop up Amount of contraction between frame (16) will be absorbed by π type compensators (15), by the π type compensators between each two fixed support (16) (15) expanding-contracting action, has effectively absorbed the deflection of system, makes the system will not be because of the powerful thrust of generation of expanding with heat and contract with cold It is destroyed, it is ensured that system safe and stable operation.

More safety and stability, pumping station layout quantity are few, floor space is little for this utility model, small investment, energy consumption are low, system is simple It is single, be easy to manage, avoid forebay and remove contamination the workload of sediment outflow.

Claims (4)

1. a kind of long range high mountain water lift integrated system, including water intake pumping station (19), booster station (20) and hydraulic pipeline (14)；Water intake pumping station includes water pump (1), water pump delivery gauge (2) and goes out the water pump that water conduit tube is connected with water pump Stand water hammer adjutage, water intake pumping station water hammer is installed on water intake pumping station water hammer adjutage and is discharged water electrodynamic valve (4) and water intake pumping station water hammer Canceller (5)；Booster station (20) including force (forcing) pump (9), force (forcing) pump inlet pressure gauge (7), pressurization pump inlet electrodynamic valve (8) and Go out the booster station water hammer adjutage that water conduit tube is connected with force (forcing) pump, booster station water is installed on booster station water hammer adjutage Hammer discharge water electrodynamic valve (11) and booster station water-hammer arrester (12) into shape；It is characterized in that：The water pump (1) adopts soft start, It goes out on water conduit tube installs water intaking pump discharge electric control valve (3), and water intake pumping station water hammer is connected on water intake pumping station water hammer adjutage Valve bypass pipe (6) and water intake pumping station water hammer discharge water and electrodynamic valve (4) and water intake pumping station water-hammer arrester (5) and connect；The force (forcing) pump (9) VFC is adopted, it goes out on water conduit tube installs pressurization pump discharge electric control valve (10), on booster station water hammer adjutage Connection booster station water hammer valve bypass pipe (13) discharges water electrodynamic valve (11) and booster station water-hammer arrester with booster station water hammer (12) and connect；The water intake pumping station (19) and booster station (20) directly connected by hydraulic pipeline (14), and water intake pumping station goes out Water conduit tube is connected with the water conduit tube that enters of booster station；Multiple π types compensators (15) are installed, each π type is mended on the hydraulic pipeline Repay device both sides mounting and fixing bracket (16).

2. long range high mountain water lift integrated system according to claim 1, it is characterised in that：Above-mentioned water pump (1) is adopted Use submersible pump.

3. long range high mountain water lift integrated system according to claim 1, it is characterised in that：Above-mentioned force (forcing) pump (9) is adopted Use multi-stage centrifugal pump.

4. long range high mountain water lift integrated system according to claim 1, it is characterised in that：Above-mentioned π types compensator (15) both sides longitudinal direction straight length (17) bottom connects 90 ° of elbows (18), and top is connected respectively by 90 ° of elbows with horizontal pipeline section.