CN210827671U - Water taking system - Google Patents

Abstract

The utility model relates to a water taking system, which comprises a track arranged on the side wall of a river channel, wherein the track is provided with a roller which advances according to the track; the roller is fixedly connected with one end of the support, the other end of the support is fixedly connected with a submersible pump arranged below the water surface, a floating ring floats on the water surface above the submersible pump, and the submersible pump is connected with the floating ring through a hanging bracket; the bank is provided with a water delivery pipe, the water delivery pipe penetrates through the side wall, hose connectors are respectively arranged at the position of the water delivery pipe penetrating through the side wall and on the water outlet of the submersible pump, and the two hose connectors are respectively connected with two ends of a hose; the submersible pump is connected with one end of a waterproof cable, and the other end of the waterproof cable is buried underground on the bank. The utility model relates to a water intaking system need not to build newly the pump house, and furthest has utilized current engineering condition, and the simple construction of equipment is convenient, and the immersible pump can adapt to different water level changes, and operating condition is nimble can touch limit switch when unsatisfied operating condition, stops the pump automatically.

Description

Water taking system

Technical Field

The utility model relates to a water delivery drainage engineering technical field such as water conservancy, municipal administration specifically is a water intaking system for river course.

Background

In water conservancy projects or municipal works, engineering needs of short-term water delivery or drainage, such as irrigation or river water supply, are sometimes faced, and in actual implementation, a mode of directly putting a water pump into a river channel or building a pump house is usually adopted.

The mode of directly throwing the drainage pump, because directly put in the river bottom, silt siltation is more, very easily causes the water pump suction opening to block, and silt wearing and tearing reduce water pump operating efficiency, and the water pump life-span that significantly reduces leads to the water pump can not reuse when serious. In addition, this kind of mode needs the operation personnel to be on duty, in time stops the pump when unsatisfied water pump running condition, avoids the water pump to burn out.

The new construction method of the pump house is characterized in that the civil construction investment is large no matter the pump house is in an underground water collecting well form or an overground pump house form, the construction period is long, although the short-time requirement can be met, the building and the equipment are idle for a long time, the utilization rate is low, and the economical efficiency is poor.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a simple and easy water intaking system.

In order to achieve the above object, the utility model provides a following technical scheme:

a water taking system comprises a track arranged on a side wall of a river channel, wherein rollers which advance according to the track are arranged on the track; the roller is fixedly connected with one end of the support, the other end of the support is fixedly connected with a submersible pump arranged below the water surface, a floating ring floats on the water surface above the submersible pump, and the submersible pump is connected with the floating ring through a hanging bracket; the riverway bank is provided with a water delivery pipe, the water delivery pipe penetrates through a side wall, hose connectors are respectively arranged at the position of the water delivery pipe penetrating through the side wall and on the water outlet of the submersible pump, and the two hose connectors are respectively connected with two ends of a hose; one end of a waterproof cable is connected to the submersible pump, and the other end of the waterproof cable is embedded at the bank of the river channel.

Further, the other end of waterproof cable passes through the cable pillar and buries underground at the bank, the shutoff of cable pillar mouth of pipe.

Furthermore, waterproof sleeves are arranged at the side wall penetrating positions of the water conveying pipe and the cable protection pipe.

Furthermore, limit switches are installed at the bottom ends of the tracks.

Furthermore, the number of the supports is two, and the distance between the two supports is not less than 30 cm.

Furthermore, the hanger and the support are both made of light steel, and the surface of the hanger and the surface of the support are coated with an anticorrosive coating.

Furthermore, the track adopts the channel-section steel, through both sides welding steel sheet, fixes the channel-section steel on the side wall in the mode of anchor bolt on the steel sheet.

Furthermore, the outer surface of the channel steel is coated with an anticorrosive coating layer, and the length of the anticorrosive coating layer reaches the river bottom or the position of a limit switch.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model relates to a water intaking system need not to build newly the pump house, and furthest has utilized current engineering condition, and the simple construction convenience of equipment, immersible pump can adapt to different water level changes, and the operating condition is nimble, can touch limit switch when unsatisfied operating condition, and automatic pump stopping does not receive river bottom silt to influence, need not someone long-term on duty simultaneously. The floating ring and the submersible pump are convenient to disassemble and assemble, and can be retracted and placed indoors when not in use, so that the service life of equipment is prolonged.

1. The utility model discloses a floating collar needn't set up fixed hoisting point on the building as the hoisting point equipment of immersible pump, reduces the engineering and implements the degree of difficulty.

2. The utility model discloses the immersible pump passes through the support fixed, and the immersible pump is followed the floating collar and is rocked when can avoiding the great or wind-force of velocity of flow great, reinforcing equipment operational reliability.

3. The utility model discloses the gyro wheel is installed to immersible pump support one end, and the gyro wheel can freely advance on the track, satisfies the operation requirement of different mounted positions of immersible pump.

4. The utility model discloses the track bottom is provided with limit switch, and the automatic stop immersible pump when reaching the limit switch position avoids appearing bottom silt and blocks unfavorable operating mode such as water pump delivery port, unsatisfied flooding degree of depth. The position of the limit switch is comprehensively determined according to the lowest submerging depth and length of the submersible pump and the height of the water suction port from the river bottom.

5. The utility model discloses the diving pump export adopts the hose to link to each other with the bank fixed conduit line, and flexible connection does benefit to the operation of the different mounted position of immersible pump, easy to assemble maintenance simultaneously.

Drawings

Fig. 1 is a schematic side view of the installation of the present invention.

Fig. 2 is a schematic plan view of the installation of the present invention.

In the figure: 1-floating ring, 2-submersible pump, 3-hanger, 4-rail, 5-bracket, 6-roller, 7-limit switch, 8-hose joint, 9-hose, 10-water pipe, 11-waterproof cable, 12-cable protecting pipe, 13-waterproof casing, 14-side wall, 15-river bottom, 16-water surface and 17-ground.

Detailed Description

The technical solution in the embodiment of the present invention will be clearly and completely described below with reference to the drawings under the embodiment of the present invention. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1 and 2, the water taking system comprises a floating ring 1, a submersible pump 2, a hanger 3, a track 4, a bracket 5, a roller 6, a limit switch 7, a hose connector 8, a hose 9, a water delivery pipe 10, a waterproof cable 11, a cable protection pipe 12 and a waterproof casing pipe 13. The floating ring 1 is used as a lifting point device of the submersible pump 2 and is connected with the submersible pump 2 through the bracket 3, so that the floating ring stays in a certain water depth. The submersible pump 2 is fixed by two brackets 5, and the distance between the two brackets is not less than 30cm, so that the submersible pump can be kept stable when the river water flow speed is high or the wind power is high. The other end of the bracket 5 is connected with a roller 6, the roller 6 advances according to a track 4 fixed on a side wall 14, the requirement that the submersible pump 2 stays at different positions when the riverway is in different water depths is met, a limit switch 7 is installed at the bottom end of the track 4, the power supply of the submersible pump 2 is cut off when the roller 6 reaches the position of the limit switch 7, and the submersible pump 2 stops working. The water outlet of the submersible pump 2 is connected with a water hose 9 and a bank side water delivery pipe 10 through a hose connector 8. The waterproof cable 11 of immersible pump 2 buries underground at the bank through cable pillar 12, and 12 orificial shutoff of cable pillar. Waterproof sleeves 13 are arranged at the side wall penetrating positions of the water conveying pipe 10 and the cable protection pipe 12.

The hanger 3 and the support 5 are both made of light steel, and the surfaces of the hanger and the support are coated with an anticorrosive coating layer.

The track 4 adopts the channel-section steel, through both sides welding steel sheet, fixes the channel-section steel on the side wall through the mode of anchor bolt on the steel sheet. And an anticorrosive coating layer is coated on the outer surface of the channel steel, and the length of the anticorrosive coating layer reaches the river bottom or the position of the limit switch 7.

The implementation process is as follows: firstly, an appropriate submersible pump 2 is selected according to flow and lift, the size of a floating ring 1 is reselected according to the submersible pump, and the floating ring 1 is connected with the submersible pump 3 by a hanging bracket 3 and is hung in river water. The distance between the bracket 5 and the track 4 is determined according to the outer diameter of the submersible pump 2, and the track 4 is fixed on the side wall 14 by welding steel plates and bolts. The two brackets 5 fix the submersible pump 2 so that the submersible pump is not influenced by flow velocity and wind power. The water outlet of the submersible pump 2 is flexibly connected with the bank side water delivery pipe 10, namely the hose 9 is connected through the hose connectors 8 at two ends, and the length of the hose 9 is the maximum water depth of the river channel and the allowance of 1m is considered. When the water level in the river channel changes, the floating ring 1 drives the submersible pump 2 to change along with the change of the water level, and the submersible pump 2 and the bracket 5 can freely advance in the track 4 through the roller 6 at one end of the bracket 5 without changing the relative position. The position of the limit switch 7 at the bottom end of the track 4 is determined by combining the actual conditions of engineering, the influence factors mainly comprise the sediment content at the river bottom and the submerging depth of the submersible pump, when the water level of the river channel is reduced, the position of the submersible pump 2 is reduced, the submersible pump can not continue to operate when reaching the position of the limit switch 7, the power supply is automatically cut off, and the safety of equipment is ensured.

Claims (8)

1. The water taking system is characterized by comprising a track arranged on a side wall of a river channel, wherein rollers advancing according to the track are arranged on the track; the roller is fixedly connected with one end of the support, the other end of the support is fixedly connected with a submersible pump arranged below the water surface, a floating ring floats on the water surface above the submersible pump, and the submersible pump is connected with the floating ring through a hanging bracket; a water delivery pipe is arranged on the bank of the river and penetrates through the side wall, hose connectors are respectively arranged at the position of the water delivery pipe penetrating through the side wall and on the water outlet of the submersible pump, and the two hose connectors are respectively connected with two ends of a hose; one end of a waterproof cable is connected to the submersible pump, and the other end of the waterproof cable is embedded at the bank of the river channel.

2. The water intake system of claim 1, wherein the other end of the waterproof cable is embedded at the shore through a cable protection tube, and the mouth of the cable protection tube is blocked.

3. The water intake system of claim 2, wherein waterproof sleeves are arranged at the positions where the water delivery pipes and the cable protection pipes penetrate through the side wall.

4. The water intake system of claim 1, wherein the bottom end of the track is provided with a limit switch.

5. The water intake system of claim 1, wherein the number of the brackets is two, and the distance between the two brackets is not less than 30 cm.

6. The water intake system of claim 1, wherein the hanger and the bracket are made of light steel and have an anti-corrosion coating on the surface.

7. The water intake system of claim 1, wherein the track is a channel, and the channel is fixed to the side wall by welding steel plates on both sides and anchoring bolts to the steel plates.

8. The water intake system of claim 7, wherein the outer surface of the channel steel is coated with an anti-corrosion coating layer, and the length of the anti-corrosion coating layer is up to the river bottom or a limit switch.

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