CN220872151U - Buoy type water sampling system convenient to maintain - Google Patents

Abstract

The utility model discloses a pontoon type water sampling system convenient to maintain, and relates to the technical field of water quality monitoring water sampling equipment. Aims at solving the problem that the installation and maintenance of the water collection pontoon are inconvenient. Its technical scheme includes standing room, standing room right side is provided with two cable posts that set up in dykes and dams edge, two cable posts are respectively to be had first fixed stay cord and the fixed stay cord of second, left solid fixed ring on the collection system is connected to first fixed stay cord, water sampling system still includes the boat anchor that sinks in the submarine silt, the fixed ring on top ring and the final collection system right side that is walked around to the fixed stay cord of second, collection system includes fixed flotation pontoon and sets up the double track in fixed flotation pontoon, fixed flotation pontoon includes the cavity, still be provided with the immersible pump on the water sampling mechanism, the hose of being connected with the output of immersible pump and with double track sliding connection's platform. The system can easily move the position of the pontoon by pulling the fixed rope on the dyke, and has simple and convenient operation, low manufacturing cost, safety and reliability.

Description

Buoy type water sampling system convenient to maintain

Technical Field

The utility model relates to the technical field of water quality monitoring water production equipment, in particular to a pontoon type water production system convenient to maintain.

Background

The water collecting unit is an important part of the site of the automatic surface water quality monitoring station, the water collecting facilities play a key decisive role in the normal and stable operation of the later water station, and the water collecting pontoon is inconvenient to install and maintain in the market at present, so that the improvement method is very important.

The prior Chinese patent with publication number of CN208736710U provides a simple automatic surface water collecting system which consists of a water collecting pump protection cage, a fixed ring, a stable pile, a water collecting pump, a liquid level sensor, a track, a platform, a motor, a pipeline, a back flushing device, a control unit and the like. The outermost layer protection cage of the water sampling system is formed by a semi-cylindrical framework welded by reinforcing steel bars, a slidable double track and a platform are arranged in the protection cage, a double water sampling pump and a liquid level sensor are arranged on the platform, the whole platform is powered by a motor to move up and down, the system is also provided with a back flushing device for cleaning and back flushing the water pump, and the operation of the whole system is controlled and sent by a control unit. The water sampling system can adjust the position of the water sampling pump up and down according to the water level change in rivers and lakes and reservoirs, ensures the accuracy of water samples of the water sampling, and is simple and high in operability, and applicable to the rivers and the lakes and reservoirs with various flow rates.

The system needs personnel to descend the river to the water collection pontoon for recovery during installation and maintenance, has complex operation and potential safety hazard, and needs improvement.

Disclosure of utility model

Aiming at the defects of the existing real objects, the utility model aims to provide a pontoon type water sampling system convenient to maintain, which can easily move the pontoon position by pulling a fixed rope on a dyke, and has the advantages of simplicity and convenience.

In summary, the present utility model provides the following scheme:

The utility model provides a pontoon formula water sampling system convenient to maintain, includes the room of standing, the room of standing right side is provided with two hawser posts that set up in dykes and dams edge, two the hawser post is respectively to be had first fixed stay cord and the fixed stay cord of second, left solid fixed ring on the collection system is connected to first fixed stay cord, water sampling system still includes the ship anchor that sinks in the bottom silt, the fixed stay cord of second walks around the top ring of ship anchor and finally is fixed in the solid fixed ring on collection system right side, collection system includes fixed pontoon and sets up the double track in fixed pontoon, fixed pontoon includes the cavity, still includes water sampling mechanism, still be provided with immersible pump, the hose of being connected with the output of immersible pump and with double track sliding connection's platform on the water sampling mechanism.

Further, the water sampling mechanism further comprises a water sampling head which is arranged on the platform and connected below the motor and the submersible pump, and a water depth pressure sensor is arranged on the right side of the bottom of the water sampling head.

Further, two sides of the double track are respectively connected with a sliding wheel, and each sliding wheel moves in a corresponding moving groove.

Further, an electric heating wire is arranged in the cavity.

Further, one end of the hose far away from the water sampling mechanism is connected with a water sampling pipeline, the water sampling pipeline is arranged in a dam and provided with a heat tracing device, and the top of the water sampling pipeline is connected with a station house.

In summary, the utility model has the following beneficial effects:

1. The connection of the ship anchor, the fixed ring and the fixed rope enables a worker to easily move the pontoon on the dike by tightening the pull rope.

2. The arrangement of the double tracks and the sliding grooves enables the water sampling mechanism to take water quality samples with different depths.

Drawings

FIG. 1 is a schematic structural view of a buoy type water collection mechanism for easy maintenance.

FIG. 2 is a schematic structural view of a collection device of a pontoon type water collection mechanism for easy maintenance.

FIG. 3 is a schematic view of a water production mechanism of a pontoon type water production mechanism for easy maintenance.

Reference numerals illustrate:

1. Standing rooms; 2. a cable column; 3. a collection device; 4. a first fixed pull rope; 5. a second fixed pull rope; 6. a ship anchor; 7. a water intake pipeline; 8. a dike; 9. river water; 10. an ice surface; 11. sediment at the bottom of the water; 31. fixing the pontoon; 32. a water collecting mechanism; 311. a cavity; 312. a fixing ring; 313. a sliding wheel; 314. a moving groove; 315. a double track; 321. a platform; 322. a motor; 323. submersible pump; 324. a water intake head; 325. a water depth pressure sensor; 326. and (3) a hose.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples:

1-3, it includes station room 1, station room 1 right side is provided with two cable posts 2 that set up in dykes and dams 8 edge, two cable posts 2 are respectively to have first fixed stay cord 4 and the fixed stay cord 5 of second, fixed ring 312 on the left side on collection system 3 is connected to first fixed stay cord 4, the water sampling system still includes the ship anchor 6 that sinks in the bottom silt 11, the fixed ring 312 that the top ring of ship anchor 6 and finally be fixed in collection system 3 right side is walked around to the fixed stay cord 5 of second, collection system 3 includes fixed pontoon 31 and sets up the double track 315 in fixed pontoon 31, fixed pontoon 31 includes cavity 311, still includes water sampling mechanism 32, still be provided with immersible pump 323 on the water sampling mechanism 32, with the hose 326 of 323 output connection and with double track 315 sliding connection's platform 321.

Specifically, the fixed pontoon 31 is made of a stainless steel skeleton and a glass fiber reinforced plastic surface material, and the fixed pull rope is a steel wire rope.

During operation, the second fixed stay rope 5 on the cable column 2 is pulled out to wind the ship anchor 6, the other end of the second fixed stay rope 5 is fastened on the right fixed ring 312 of the fixed buoy 31, then the ship anchor 6 is thrown down in the center of a river channel, the ship anchor 6 is sunk into the sediment 11 at the bottom to be fixed, the first fixed stay rope 4 is fastened on the left fixed ring 312 of the fixed buoy 31, the acquisition device 3 is thrown into the river 9 at the side of the dykes and dams 8, and a worker pulls the second fixed stay rope 5 at the bank to loosen the first fixed stay rope 4 and pull the buoy to the middle of the river; pulling the first fixed stay rope 4, loosening the second fixed stay rope 5, pulling the pontoon to the shore for maintenance, and keeping the whole fixed pontoon 31 vertically.

In this embodiment, the water collecting mechanism 32 further includes a water collecting head 324 connected below a motor 322 and a submersible pump 323 disposed on the platform 321, and a water depth pressure sensor 325 is disposed on the right side of the bottom of the water collecting head 324.

In operation, the depth sensor 325 feeds back the depth of the water area where the water intake head 324 is located, the motor 322 is started, the depth of the platform 321 is adjusted to determine the water intake position, then the submersible pump 323 is started, and the sample is fed into the hose 326 to be conveyed to the station house 1.

In this embodiment, two sides of the double track 315 are respectively connected to one sliding wheel 313, and each sliding wheel 313 moves in a corresponding moving slot 314.

When the motor 322 works, the sliding wheel 313 is driven to move, the double tracks 315 move along with the sliding wheel, and when the sliding wheel 313 touches the upper edge and the lower edge of the moving groove 314, the motor 322 stops outputting to the sliding wheel 313.

The above arrangement enables the collection device 3 to collect water samples to deeper locations.

In this embodiment, an electric heating wire is disposed in the cavity 311.

When the electric heating wire is used for working, when the lake surface is frozen, the electric heating wire is started to dissolve the ice surface 10, so that the collection device 3 is convenient to recover or the dissolved water is convenient to collect.

In this embodiment, one end of the hose 326 away from the water collection mechanism 32 is connected to a water intake pipeline 7, the water intake pipeline 7 is disposed in the dike 8 and has a heat tracing device, and the top of the water intake pipeline 7 is connected to the station house 1.

By means of the structure, when crushed ice is contained in the extracted water sample, the pipeline is heated to dissolve the crushed ice, and the water intake pipeline 7 is directly connected with the station house 1, so that water quality can be analyzed in time. The present embodiment is only for explanation of the present utility model and is not to be construed as limiting the present utility model, and modifications to the present embodiment, which may not creatively contribute to the present utility model as required by those skilled in the art after reading the present specification, are all protected by patent laws within the scope of claims of the present utility model.

Claims (5)

1. The utility model provides a buoy type water sampling system convenient to maintain, includes station room (1), its characterized in that: the utility model provides a station room (1) right side is provided with two cable posts (2) that set up in dykes and dams (8) edge, two cable posts (2) are fixed stay cord (4) and second respectively, left solid fixed ring (312) on collection system (3) are connected to first fixed stay cord (4), water sampling system still includes boat anchor (6) of sinking in bottom silt (11), the top ring of boat anchor (6) is walked around to second fixed stay cord (5) and is finally fixed in solid fixed ring (312) on collection system (3) right side, collection system (3) are including fixed flotation pontoon (31) and set up in the double track (315) of fixed flotation pontoon (31), fixed flotation pontoon (31) include cavity (311), still include water sampling mechanism (32), still be provided with immersible pump (323), hose (326) and platform (321) of being connected with double track (315) sliding connection on water sampling mechanism (32).

2. A maintenance-friendly pontoon-type water collection system according to claim 1, wherein: the water sampling mechanism (32) further comprises a motor (322) arranged on the platform (321) and a water sampling head (324) connected with the submersible pump (323), and a water depth pressure sensor (325) is arranged on the right side of the bottom of the water sampling head (324).

3. A maintenance-friendly pontoon-type water collection system according to claim 1, wherein: two sides of the double track (315) are respectively connected with a sliding wheel (313), and each sliding wheel (313) moves in a corresponding moving groove (314).

4. A maintenance-friendly pontoon-type water collection system according to claim 1, wherein: an electric heating wire is arranged in the cavity (311).

5. A maintenance-friendly pontoon-type water collection system according to claim 1, wherein: one end of the hose (326) far away from the water collecting mechanism (32) is connected with a water collecting pipeline (7), the water collecting pipeline (7) is arranged in the dam (8) and is provided with a heat tracing device, and the top of the water collecting pipeline (7) is connected with the station house (1).