CN112227462B

CN112227462B - Integrative water intaking equipment that prevents blocking up of city dykes and dams bimodulus

Info

Publication number: CN112227462B
Application number: CN202011117777.8A
Authority: CN
Inventors: 冯义龙; 邓楷; 胡静; 丁晓琴
Original assignee: Guangdong Maoyi Gardens Co ltd
Current assignee: Guangdong Maoyi smart ecology Co.,Ltd.
Priority date: 2020-10-19
Filing date: 2020-10-19
Publication date: 2022-02-18
Anticipated expiration: 2040-10-19
Also published as: CN112227462A

Abstract

The invention discloses dual-mode integrated anti-blocking water taking equipment for an urban dam, which comprises a water guide pipe embedded and straddled on a dam body, wherein the water guide pipe is positioned outside the dam body and is provided with a water guide filter mantle, the water guide pipe is positioned inside the dam body and is provided with a mechanical energy exchanger, the mechanical energy exchanger is provided with a mechanical energy accumulator, one end of the mechanical energy exchanger, which is far away from the water guide pipe, is provided with a water using pipe, the water using pipe is provided with a water discharging valve, and the water discharging valve is lower than the water guide filter mantle. The device has a simple and ingenious structure, saves electric energy by siphoning water through the water conduit, removes and prevents blockage through irregular disturbance shock of the neutral floating ball, removes and prevents blockage through energy storage recoil of the torsion energy storage spring, removes and prevents blockage through vibration waves manually generated by the pull rope, can manually absorb water to remold siphons, and increases reliability.

Description

Integrative water intaking equipment that prevents blocking up of city dykes and dams bimodulus

Technical Field

The invention relates to the field of urban water conservancy equipment, in particular to urban dam dual-mode integrated anti-blocking water taking equipment.

Background

Dykes and dams are the common flood control facility in coastal river area, and the house that lives of the resident that is close to dykes and dams department all is less than dykes and dams usually, still has the surface of water residence that is less than in the dykes and dams, still uses water source in the non-clean water condition that is close to dykes and dams region, like road dust fall, wash mop etc. very big extravagant water resource, consequently adopt the river course water intaking to reduce the waste at clean water source.

Current dykes and dams river course water intaking is through adopting the sea water of pipeline switch-on dykes and dams opposite side, carries out the water intaking through the water pump, carries out prefiltering to the river through the filter mantle, and the extravagant electric energy of water pump water intaking and unclean water source fragile water pump, and the filter mantle is long-time in the river water intaking easily takes place to block up and maintains comparatively difficultly.

Disclosure of Invention

The invention aims to solve the defects that water pumps waste electric energy when water is taken by the water pumps, unclean water sources are easy to damage the water pumps, filter covers are easy to block and difficult to maintain in the prior art, and provides dual-mode integrated anti-blocking water taking equipment for urban dams.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides an integrative water intaking equipment that prevents blocking up of city dykes and dams bimodulus, strides the leading water pipe of sitting on the dam body including the embedding, the leading water pipe is located the dam body outside and installs the diversion filter mantle, the leading water pipe is located the dam body inboard and installs mechanical transducer, install mechanical energy storage on the mechanical transducer, the one end that the leading water pipe was kept away from to mechanical transducer is installed and is used the water pipe, install the valve that drains on the water pipe, the valve that drains is less than the diversion filter mantle.

Preferably, first filter screen and second filter screen are installed respectively to the upper and lower port of diversion filter mantle, a plurality of neutral floater have been placed in the diversion filter mantle.

Preferably, the filter holes of the first filter screen are smaller than the filter holes of the second filter screen.

Preferably, a dual-mode rotating shaft is rotatably mounted in the mechanical energy converter, an energy conversion impeller is mounted on the dual-mode rotating shaft, and the mechanical energy converter is divided into an energy storage cavity and a manual cavity.

Preferably, one end of the dual-mode rotating shaft close to the mechanical energy accumulator extends into the manual cavity and is provided with a reel, a pull rope is wound on the reel, and the pull rope extends to the outer side of the mechanical energy accumulator and is provided with a pull ring.

Preferably, one end of the dual-mode rotating shaft, which is close to the mechanical energy accumulator, extends into the energy storage cavity and is provided with a torsion energy storage spring, and the torsion energy storage spring is fixed on the inner wall of the energy storage cavity.

The invention has the following beneficial effects:

1. the diversion pipe is embedded on the dam body in a straddling mode, and the height of the water discharge valve is lower than that of the diversion filter cover, so that the diversion pipe forms siphon, river water with high liquid level flows to the water discharge valve at the lower position, water pumping by a water pump is not needed, electric energy is saved, and equipment cost is reduced.

2. Through placing a plurality of neutral floaters in the diversion filter mantle, make to make the leading water pipe when intaking, the neutral floater constantly along with the random flow of rivers and striking first filter screen and second filter screen in the diversion filter mantle for impurity on first filter screen and the second filter screen can not firmly block up, and partial impurity is shaken and is fallen, reduces the possibility that first filter screen and second filter screen are blockked up, reduces the frequency of maintaining.

3. Rivers promote the impeller through mechanical transducer and rotate, make partial kinetic energy of rivers convert mechanical energy, then the bimodulus pivot rotates, make the rotation of torsion energy storage spring tighten up, it stores to convert rivers kinetic energy into elastic potential energy, when closing the valve that drains, rivers impulsive force disappears, then torsion energy storage spring drives bimodulus pivot reversal, it makes the impeller reversal make rivers reverse flow strike and forms the shock wave, the shock wave is at diversion intraductal conduction to diversion filter mantle, make shock wave water pressure impact first filter screen and second filter screen carry out the recoil washing, further reduce the possibility that first filter screen and second filter screen are blockked up.

4. Make the stay cord can drive the bimodulus pivot through the pulling pull ring and rotate, then can make torsion energy storage spring tighten up, the release pull ring makes torsion energy storage spring release capacity drive bimodulus pivot reversal and drive the impeller reversal, can be when blockking up comparatively seriously promptly, through continuous manual pulling pull ring increase continuous impact force, discharge the plug, increase prevents stifled ability, and can be after the siphon is destroyed, absorb water through repeated pulling pull ring and remold the siphon, increase equipment reliability.

In conclusion, the device has a simple and ingenious structure, saves electric energy by siphoning water through the water conduit, irregularly disturbs the shock through the neutral floating ball to remove impurities and prevent blockage, stores energy through the torsion energy storage spring to recoil the shock to remove impurities and prevent blockage, manually generates shock waves through the pull rope to remove impurities and prevent blockage, can manually absorb water to remold siphons, and increases reliability.

Drawings

FIG. 1 is a schematic structural diagram of an integrated dual-mode anti-blocking water intake device for an urban dam according to the present invention;

fig. 2 is a partial enlarged view of a mechanical energy storage device of the dual-mode integrated anti-blocking water intake device for the urban dam according to the invention.

In the figure: the water diversion device comprises a water diversion pipe 1, a water pipe 2, a water diversion filter cover 3, a first filter screen 31, a second filter screen 32, a neutral floating ball 33, a mechanical transducer 4, a mechanical energy accumulator 5, an energy storage cavity 51, a torsion energy storage spring 511, a manual cavity 52, a reel 521, a pull rope 522, a pull ring 523, a water drain valve 6, a dual-mode rotating shaft 7 and an impeller 71.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-2, integrative stifled water intaking equipment that blocks up of city dykes and dams bimodulus, stride the leading water pipe 1 of sitting on the dam body including the embedding, leading water pipe 1 is located the dam body outside and installs leading water filter mantle 3, leading water pipe 1 is located the dam body inboard and installs mechanical transducer 4, install mechanical energy storage 5 on the mechanical transducer 4, mechanical transducer 4 keeps away from the one end of leading water pipe 1 and installs and use water pipe 2, install the valve 6 that drains on using water pipe 2, the valve 6 that drains is less than leading water filter mantle 3, produce the siphon effect, make rivers automatically flow along leading water pipe 1 upwards, need not the water pump, save the electric energy.

First filter screen 31 and second filter screen 32 are installed respectively to the upper and lower port of diversion filter mantle 3, have placed a plurality of neutral floater 33 in the diversion filter mantle 3, and the first filter screen 31 of random motion striking and second filter screen 32 are driven down at rivers to neutral floater 33, avoid impurity to adhere to, realize that the jarring edulcoration is prevented stifled.

The filtering holes of the first filter screen 31 are smaller than the filtering holes of the second filter screen 32, so that the possibility of blockage is reduced by filtering step by step.

The mechanical energy converter 4 is rotatably provided with a dual-mode rotating shaft 7, the dual-mode rotating shaft 7 is provided with a converting impeller 71, and the mechanical energy storage 5 is divided into an energy storage cavity 51 and a manual cavity 52.

One end of the dual-mode rotating shaft 7 close to the mechanical energy storage 5 extends into the manual operating cavity 52 and is provided with a reel 521, a pull rope 522 is wound on the reel 521, and the pull rope 522 extends to the outer side of the mechanical energy storage 5 and is provided with a pull ring 523.

One end of the dual-mode rotating shaft 7 close to the mechanical energy accumulator 5 extends into the energy storage cavity 51 and is provided with a torsion energy storage spring 511, and the torsion energy storage spring 511 is fixed on the inner wall of the energy storage cavity 51;

the torsion energy storage spring 511 can store mechanical energy of the dual-mode rotating shaft 7 rotating in the forward direction into elastic potential energy, the elastic potential energy is converted into mechanical energy of the dual-mode rotating shaft 7 rotating in the reverse direction when the mechanical energy is released, the dual-mode rotating shaft 7 rotates in the forward direction to store energy, and the impeller 71 rotates in the reverse direction to form vibration waves to recoil the first filter screen 31 and the second filter screen 32, so that recoil impurity removal and blockage prevention are realized;

the pull cord 522 enables the dual mode rotation shaft 7 to be rotated forward and backward by hand.

When the device is used, the drain valve 6 is opened, under the action of siphonage, river water is filtered by the water diversion filter mantle 3, flows through the mechanical transducer 4 and the water using pipe 2 from the water diversion pipe 1 and is discharged from the drain valve 6 for use, when water flows upwards through the water diversion filter mantle 3, the neutral floating balls 33 move irregularly, and then the neutral floating balls 33 impact the first filter screen 31 and the second filter screen 32 to shake off impurities, so that the impurities are prevented from being firmly attached, and the effects of shaking, removing impurities and preventing blockage are realized;

when water flows through the mechanical transducer 4, the impeller 71 is pushed to rotate, the dual-mode rotating shaft 7 is made to rotate, the torsion energy storage spring 511 is tightened, after the water drain valve 6 is closed, the water flow impulsive force disappears, the torsion energy storage spring 511 is released, the dual-mode rotating shaft 7 rotates reversely and drives the impeller 71 to rotate reversely, the impeller 71 disturbs static water to generate vibration waves to diffuse towards the water diversion filter cover 3, and then the first filter screen 31 and the second filter screen 32 are impacted reversely, so that backflushing impurity removal and blockage prevention are realized;

when the jam is comparatively serious, pull rope 522 is pulled through pull ring 523, so that reel 521 drives dual-mode rotating shaft 7 to rotate, and torsion energy storage spring 511 rotates to tighten up the stored energy, when pull rope 522 is released, torsion energy storage spring 511 releases energy to make dual-mode rotating shaft 7 reverse and reel 521 wind pull rope 522, dual-mode rotating shaft 7 drives impeller 71 to reversely impact first filter screen 31 and second filter screen 32, manual recoil impurity removal and blockage prevention are realized, and when impeller 71 rotates forwards, suction is generated at water conduit 1, river water can be sucked, and siphon remodeling is facilitated.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The dual-mode integrated anti-blocking water taking device for the urban dam comprises a water guide pipe (1) embedded and straddled on a dam body, and is characterized in that the water guide pipe (1) is positioned outside the dam body and provided with a water guide filter cover (3), the water guide pipe (1) is positioned inside the dam body and provided with a mechanical energy converter (4), the mechanical energy converter (4) is provided with a mechanical energy accumulator (5), one end, far away from the water guide pipe (1), of the mechanical energy converter (4) is provided with a water using pipe (2), the water using pipe (2) is provided with a water discharging valve (6), and the water discharging valve (6) is lower than the water guide filter cover (3);

the mechanical energy converter (4) is internally and rotatably provided with a dual-mode rotating shaft (7), the dual-mode rotating shaft (7) is provided with an energy conversion impeller (71), and the mechanical energy storage device (5) is divided into an energy storage cavity (51) and a manual cavity (52);

one end, close to the mechanical energy storage device (5), of the double-mode rotating shaft (7) extends into the manual cavity (52) and is provided with a reel (521), a pull rope (522) is wound on the reel (521), and the pull rope (522) extends to the outer side of the mechanical energy storage device (5) and is provided with a pull ring (523);

one end of the double-mode rotating shaft (7) close to the mechanical energy accumulator (5) extends into the energy storage cavity (51) and is provided with a torsion energy storage spring (511), and the torsion energy storage spring (511) is fixed on the inner wall of the energy storage cavity (51).

2. The dual-mode integrated anti-blocking water intake device for the urban embankment according to claim 1, wherein a first filter screen (31) and a second filter screen (32) are respectively installed at the upper and lower ports of the water diversion filter cover (3), and a plurality of neutral floating balls (33) are placed in the water diversion filter cover (3).

3. The dual-mode integrated block-resistant water intake device for urban dams according to claim 2, wherein the filtration holes of the first filter screen (31) are smaller than the filtration holes of the second filter screen (32).