CN215598796U - Water environment monitoring sampling device convenient to carry - Google Patents

Abstract

The utility model relates to the technical field of water environment monitoring and sampling, in particular to a portable water environment monitoring and sampling device which comprises a mounting plate, wherein a plurality of suckers are fixedly arranged at the left end of the bottom surface of the mounting plate in a rectangular array structure, a round pipe B is slidably connected at the right end of the mounting plate, a round pipe A is arranged at the upper end of the round pipe B, a round pipe C is arranged at the lower end of the round pipe B, a filter sleeve is sleeved at the bottom surface of the round pipe C, and two clamping grooves are formed in the left-right symmetrical structures at the upper ends of the round pipe B and the round pipe C. According to the utility model, the plurality of circular tubes B are clamped with the clamping grooves through the clamping blocks, the self-locking motor rotates to drive the gear to be rotationally meshed and transmitted to the rack, the water pump conveys a water source into the water pipe through the filter sleeve and then discharges the water source, the sampling tube is placed at the drainage position of the water pipe to take middle section water for collection, the carrying and the moving are more convenient, the water at different depths can be conveniently sampled, the monitoring effect of the water quality of the water body is improved, the monitoring is more accurate, the errors are effectively reduced, and the using effect is better.

Description

Water environment monitoring sampling device convenient to carry

Technical Field

The utility model relates to the technical field of water environment monitoring and sampling, in particular to a portable water environment monitoring and sampling device.

Background

The water environment monitoring is to take the water environment as an object, and qualitatively, quantitatively and systematically comprehensively analyze pollutants and related components thereof by using physical, chemical and biological technical means so as to explore and research the change rule of the water environment quality. The water environment monitoring provides reliable basic data for water environment management and provides scientific basis for effect evaluation of treatment measures. In order to enable the monitoring data to accurately reflect the quality current situation of the water environment and predict the water environment pollution development trend, the water environment monitoring data is required to have representativeness, accuracy, precision, parallelism, repeatability, integrity and comparability. The water environment monitoring is to determine the representative indexes which may affect the water environment quality by a proper method, so as to determine the water quality condition and the change trend of the water body. The water environment monitoring objects can be divided into nano sewage water quality monitoring and pollution source monitoring: the former includes surface water (river, lake, reservoir, sea water) and ground water; the latter includes domestic sewage, hospital sewage and various industrial wastewaters, and sometimes agricultural sewage, primary rainwater, acid mine drainage, and the like. The water environment monitoring is to take the uncontaminated and contaminated water bodies as objects, monitor various harmful substances and factors influencing the water bodies, and related hydrogeological and hydrogeological parameters.

Water environment monitoring among the prior art carries inconveniently when the sample, and is inconvenient to the water sample of the different degree of depth, influences the monitoring effect of water quality, and the precision is not good enough, and the result of use is poor.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems, the utility model provides a portable water environment monitoring and sampling device.

In order to achieve the above object, the present invention adopts the following technical solutions:

the utility model provides a water environment monitoring sampling device convenient to carry, including the mounting panel, mounting panel bottom surface left end is rectangle array structure and has set firmly a plurality of sucking discs, mounting panel right-hand member sliding connection has pipe B, pipe B upper end is equipped with pipe A, pipe B lower extreme is equipped with pipe C, pipe C bottom surface has cup jointed the filter sleeve, pipe B and pipe C upper end all are bilateral symmetry structure and have seted up two draw-in grooves, pipe B and pipe A lower extreme outer wall all are bilateral symmetry structure and have set firmly two fixture blocks, pipe B, pipe A and pipe C back wall all set firmly the rack, mounting panel top surface right wall installs self-locking motor through the mount pad.

Preferably, the gear is sleeved at the right end of the output shaft of the self-locking motor, the fixed block is arranged at the right end of the gear, the upper end of the left wall of the circular tube A is communicated with a water pipe, the front end of the water pipe is communicated with a water pump, the fixed block is rotatably connected with the output shaft of the self-locking motor, and the bottom surface of the fixed block is fixedly connected with the top surface of the mounting plate.

Preferably, the round pipe B is provided with a plurality of clamping blocks, the clamping blocks are clamped and matched with the clamping grooves, the clamping blocks are connected with hexagon socket head bolts through threaded holes in a threaded mode, the clamping blocks are fixedly connected with the round pipe B through the hexagon socket head bolts, and the gears are meshed and connected with the racks.

Preferably, the receiver is firmly equipped with to mounting panel top surface left end, and the standing groove has been seted up to the inside left end of receiver, and the inside right-hand member of receiver has set firmly the supporting shoe, and a plurality of slots have been seted up to supporting shoe upper surface rectangle array structure, and the inside grafting of slot has the sampling tube, and receiver right-hand member bottom surface is rectangle array structure and has seted up a plurality of constant head tanks.

Preferably, sampling tube bottom surface and constant head tank grafting cooperation, the sampling tube bottom surface is inlayed and is equipped with the sheet rubber, and storage box top surface left end is equipped with the pivot admittedly, rotates in the pivot and is connected with the apron, and symmetrical structure has set firmly two dops around the apron right wall is, and symmetrical structure has set firmly two buckles around the receiver right wall upper end is, and dop and buckle joint cooperation, apron and the inseparable pressfitting of receiver, apron top surface have set firmly the handle.

Due to the adoption of the technical scheme, the utility model has the beneficial effects that:

1. according to the sampling device, a plurality of circular tubes B are clamped with clamping grooves through clamping blocks and are fixedly connected through the hexagon socket head cap bolts, after the circular tubes B are connected to a proper using length, the gears are driven to rotate and be meshed with the racks through the rotation of the self-locking motor, the racks drive the circular tubes B, the circular tubes A and the circular tubes C to move synchronously, after the circular tubes B and the racks move to a proper sampling depth, a water source is conveyed to the interior of a water pipe through the filter sleeve through the water pump and then is discharged, and the sampling pipe is placed at a water discharging position of the water pipe to take middle-section water for collection. The problem of carry inconvenience when having solved the sample, inconvenient to the water sample of the different degree of depth, influence the monitoring effect of water quality of water, and accurate nature is not good enough, the result of use is poor is realized carrying and removing more conveniently, conveniently takes a sample to the water of the different degree of depth, has improved the monitoring effect of water quality of water, and the monitoring is more accurate effectively reduced the error, the result of use is better.

2. According to the utility model, the gear is driven to rotate by the motor to enable the rack to move up and down, so that water at different depths can be conveniently sampled, the round tube B can be conveniently stored and taken by using the storage box, the stability of the sampling tube is improved, the sampling tube is not easy to shake during movement, the structure is simple, and the operation is convenient.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only for the present invention and protect some embodiments, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the round tube B of the present invention;

FIG. 3 is a schematic view of a buckle structure according to the present invention;

fig. 4 is a sectional view of the storage case structure of the present invention.

The reference numbers in the figures illustrate: 1. mounting a plate; 2. a suction cup; 3. a round tube B; 4. a circular tube A; 5. a circular tube C; 6. a filter sleeve; 7. a card slot; 8. a clamping block; 9. a rack; 10. a self-locking motor; 11. a gear; 12. a fixed block; 13. a water pipe; 14. a water pump; 15. a storage box; 16. a placement groove; 17. a support block; 18. a slot; 19. a sampling tube; 20. positioning a groove; 21. a rotating shaft; 22. a cover plate; 23. clamping a head; 24. buckling; 25. and (4) an inner hexagon bolt.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without any inventive step, are within the scope of the present invention.

Example 1

As shown in fig. 1-4, a water environment monitoring sampling device convenient to carry, including mounting panel 1, mounting panel 1 bottom surface left end is the rectangle array structure and has set firmly a plurality of sucking discs 2, mounting panel 1 right-hand member sliding connection has pipe B3, pipe B3 upper end is equipped with pipe a4, pipe B3 lower extreme is equipped with pipe C5, pipe C5 bottom surface has cup jointed filter cartridge 6, pipe B3 and pipe C5 upper end all are bilateral symmetry structure and have seted up two draw-in grooves 7, pipe B3 and pipe a4 lower extreme outer wall all are bilateral symmetry structure and have set firmly two fixture blocks 8, pipe B3, pipe a4 and pipe C5 rear wall all have set firmly rack 9, mounting panel 1 top surface right wall installs self-locking motor 10 through the mount pad.

The right end of an output shaft of the self-locking motor 10 is sleeved with a gear 11, the right end of the gear 11 is provided with a fixed block 12, the upper end of the left wall of the circular tube A4 is communicated with a water pipe 13, the front end of the water pipe 13 is communicated with a water pump 14, the fixed block 12 is rotatably connected with the output shaft of the self-locking motor 10, and the bottom surface of the fixed block 12 is fixedly connected with the top surface of the mounting plate 1.

The round tube B3 is provided with a plurality of round tubes, the clamping block 8 is in clamping fit with the clamping groove 7, the clamping block 8 is connected with the hexagon socket head cap screw 25 through the thread of the threaded hole, the clamping block 8 is connected and fixed with the round tube B3 through the hexagon socket head cap screw 25, and the gear 11 is meshed with the rack 9.

The working principle of the device is that when the device is used, the device is firstly installed at the edge of an external ship through the suction cup 2, then a plurality of circular tubes B3 are clamped with the clamping grooves 7 through the clamping blocks 8 and are fixedly connected through the hexagon socket head cap screws 25, after the circular tube B3 is connected to a proper using length, the circular tube B3 is driven to rotate through the rotation of the self-locking motor 10 to be in meshing transmission with the gear rack 9, at the moment, the gear rack 9 drives the circular tube B3, the circular tube A4 and the circular tube C5 to move synchronously, after the circular tube B3 moves to a proper sampling depth, a water source is conveyed to the interior of the water pipe 13 through the filter sleeve 6 through the water pump 14 and then is discharged, and the discharged water is sampled and collected by taking a middle-section water source.

Example 2

On embodiment 1's basis, 1 top surface left end of mounting panel is equipped with receiver 15 admittedly, and standing groove 16 has been seted up to the inside left end of receiver 15, and the inside right-hand member of receiver 15 has set firmly supporting shoe 17, and a plurality of slots 18 have been seted up to the rectangular array structure in supporting shoe 17 upper surface, and the inside sampling tube 19 of pegging graft of slot 18, and receiver 15 right-hand member bottom surface is rectangular array structure and has seted up a plurality of constant head tanks 20.

19 bottom surfaces of sampling tubes and constant head tank 20 are pegged graft and are cooperated, 19 bottom surfaces of sampling tubes are inlayed and are equipped with the sheet rubber, 15 top surfaces left end of receiver is equipped with pivot 21 admittedly, the last rotation of pivot 21 is connected with apron 22, apron 22 right wall is front and back symmetrical structure and has set firmly two dops 23, 15 right wall upper end of receiver is front and back symmetrical structure and has set firmly two buckles 24, dop 23 and the cooperation of buckle 24 joint, apron 22 closely the pressfitting with receiver 15, apron 22 top surface has set firmly the handle.

During the use, carry and remove this device through the handle, separate dop 23 and buckle 24, make apron 22 rotatory along pivot 21, get from standing groove 16 inside and put pipe B3 and conveniently collect, pick up sampling tube 19 and slide along slot 18 and take out, place sampling tube 19 and get middle section water at the drainage department of water pipe 13 and gather, gather the above-mentioned step of reverse operation after accomplishing and accomodate, the sample is accomplished to the sheet rubber and the constant head tank 20 joint of messenger's sampling tube 19 bottom.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the utility model disclosed above are intended to be illustrative only. The preferred embodiments are not exhaustive and do not limit the utility model to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, to thereby enable others skilled in the art to best utilize the utility model. The utility model is limited only by the claims and their full scope and equivalents.

Claims (5)

1. The utility model provides a water environment monitoring sampling device convenient to carry which characterized in that: including mounting panel (1), mounting panel (1) bottom surface left end is the rectangle array structure and has set firmly a plurality of sucking discs (2), mounting panel (1) right-hand member sliding connection has pipe B (3), pipe B (3) upper end is equipped with pipe A (4), pipe B (3) lower extreme is equipped with pipe C (5), filter cartridge (6) have been cup jointed to pipe C (5) bottom surface, pipe B (3) and pipe C (5) upper end all are bilateral symmetry structure and have seted up two draw-in grooves (7), pipe B (3) and pipe A (4) lower extreme outer wall all are bilateral symmetry structure and have set firmly two fixture blocks (8), pipe B (3), pipe A (4) and pipe C (5) back wall all set firmly rack (9), mounting panel (1) top surface right wall installs self-locking motor (10) through the mount pad.

2. The portable water environment monitoring and sampling device as recited in claim 1, wherein: gear (11) have been cup jointed to self-locking motor (10) output shaft right-hand member, gear (11) right-hand member is equipped with fixed block (12), pipe A (4) left side wall upper end intercommunication has water pipe (13), water pipe (13) front end intercommunication has water pumper (14), fixed block (12) are connected with self-locking motor (10) output shaft rotation, fixed block (12) bottom surface is connected fixedly with mounting panel (1) top surface.

3. The portable water environment monitoring and sampling device as recited in claim 2, wherein: the round pipe B (3) is provided with a plurality of clamping blocks (8) and clamping grooves (7) in clamped connection, the clamping blocks (8) are connected with the inner hexagon bolts (25) through threaded holes in threaded connection, the clamping blocks (8) are fixedly connected with the round pipe B (3) through the inner hexagon bolts (25), and the gears (11) are meshed with the racks (9).

4. The portable water environment monitoring and sampling device according to claim 3, wherein: mounting panel (1) top surface left end is equipped with receiver (15) admittedly, standing groove (16) have been seted up to the inside left end of receiver (15), the inside right-hand member of receiver (15) has set firmly supporting shoe (17), a plurality of slots (18) have been seted up to supporting shoe (17) upper surface rectangular array structure, the inside sampling tube (19) of pegging graft of slot (18), receiver (15) right-hand member bottom surface is rectangular array structure and has seted up a plurality of constant head tanks (20).

5. The portable water environment monitoring and sampling device according to claim 4, wherein: sampling tube (19) bottom surface and constant head tank (20) cooperation of pegging graft, sampling tube (19) bottom surface inlays and is equipped with the sheet rubber, receiver (15) top surface left end is equipped with pivot (21) admittedly, it is connected with apron (22) to rotate in pivot (21), symmetrical structure has set firmly two dops (23) around apron (22) right wall is, symmetrical structure has set firmly two buckle (24) around receiver (15) right wall upper end is, dop (23) and buckle (24) joint cooperation, apron (22) and receiver (15) inseparable pressfitting, apron (22) top surface has set firmly the handle.

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