CN210981892U - Chemistry chemical industry water quality monitoring sampling device - Google Patents

Abstract

The utility model discloses a chemistry and chemical industry water quality monitoring sampling device, enclose fender piece, solar cell panel, water quality monitoring device, sampling device and adjustable flexible sampling device including backup pad, protection, the protection is enclosed and is located in the backup pad, solar cell panel locates the protection and encloses and keep off the piece upper wall, water quality monitoring device locates in the backup pad, water quality monitoring device locates in the protection encloses and keeps off the piece, sampling device locates in the backup pad, sampling device locates and protects to enclose and keep off the piece in and be close to water quality monitoring device, adjustable flexible sampling device locates the backup pad diapire. The utility model belongs to the technical field of chemical industry water quality monitoring equipment, specifically indicate a can inspect the different degree of depth quality of water and report the chemistry chemical industry water quality monitoring sampling device that information was reported in real time.

Description

Chemistry chemical industry water quality monitoring sampling device

Technical Field

The utility model belongs to the technical field of chemical industry water quality monitoring equipment, specifically indicate a chemistry chemical industry water quality monitoring sampling device.

Background

The chemical industry is also called chemical processing industry, generally refers to the process industry in which chemical methods occupy the main position in the production process, a large amount of chemical wastewater is inevitably generated in the production process of the chemical industry, one part of the chemical wastewater can be reused after being processed, the other part of the chemical wastewater is directly discharged into rivers, in order to determine whether the chemical wastewater reaches the discharge standard, the water quality of the chemical wastewater is often required to be sampled and detected, the existing chemical wastewater water quality detection and sampling device mainly samples through manual operation, generally only the sampling of wastewater with a specified depth can be realized in the primary sampling process, the cross contamination of water samples often occurs when the wastewater with different depths is sampled, the phenomenon of water sample backflow often occurs after the sampling is completed, and further the secondary pollution of the environment is caused.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a can inspect the different degree of depth quality of water and report the chemistry chemical industry water quality monitoring sampling device that information was reported in real time.

In order to realize the above functions, the utility model discloses the technical scheme who takes as follows: a chemical and chemical water quality monitoring and sampling device comprises a supporting plate, a protective enclosure piece, a solar cell panel, a water quality monitoring device, a sampling device and an adjustable telescopic sampling device, wherein the protective enclosure piece is arranged on the supporting plate, the solar cell panel is arranged on the upper wall of the protective enclosure piece, the water quality monitoring device is arranged on the supporting plate, the water quality monitoring device is arranged in the protective enclosure piece, the sampling device is arranged on the supporting plate, the sampling device is arranged in the protective enclosure piece and is close to the water quality monitoring device, the adjustable telescopic sampling device is arranged on the bottom wall of the supporting plate, the adjustable telescopic sampling device comprises a waterproof telescopic motor, a telescopic rod, an electric submersible pump, a buckle, a telescopic pipe and a deep water storage tank, the fixed end of the waterproof telescopic motor is arranged on the bottom wall of the supporting plate, one end of the telescopic rod is arranged, the buckle is arranged at the other end of the telescopic rod, the deep water storage tank is arranged on the bottom wall of the supporting plate, one end of the telescopic pipe is arranged on the deep water storage tank, the other end of the telescopic pipe is arranged on the buckle, and the electric submersible pump is arranged at the other end of the telescopic pipe.

Further, water quality monitoring device includes water quality analyzer, long-range conveying piece, support and probe, the one end of support is located in the backup pad, water quality analyzer locates on the support other end, long-range conveying piece is located on water quality analyzer, the one end of probe runs through the support and locates on water quality analyzer, the other end of probe runs through the backup pad and locates in the deep water basin.

Further, sampling device includes sample thief and sampling pipe, the sample thief is located in the backup pad, the one end of sampling pipe links to each other with the sample thief, the sampling pipe other end runs through the backup pad and locates in the deep water storage tank.

Furthermore, the protective enclosing and blocking piece is a hollow cavity with an opening at the side edge.

Further, the deep water storage tank is arranged in a hollow cavity.

The utility model adopts the above structure to gain beneficial effect as follows: the utility model provides a pair of chemistry and chemical industry water quality monitoring sampling device maintenance is efficient, and adjustable flexible sampling device can be extended to shorten, takes the quality of water storage of different depths of water in deep water storage tank, and the probe carries out water quality analysis through the water in the deep water storage tank to convey away analysis result in real time through long-range conveying spare, solar cell panel can absorb solar energy and supply power, the energy can be saved to equipment.

Drawings

FIG. 1 is a schematic view of the overall structure of a chemical water quality monitoring and sampling device of the present invention;

FIG. 2 is a right side view of the chemical water quality monitoring and sampling device of the present invention;

fig. 3 is the structure schematic diagram of the water quality monitoring device of the chemical water quality monitoring and sampling device of the utility model.

The device comprises a supporting plate 1, a supporting plate 2, a protective enclosure stopper 3, a solar cell panel 4, a water quality monitoring device 5, a sampling device 6, an adjustable telescopic sampling device 7, a water quality analyzer 8, a remote conveying piece 9, a support 10, a probe 11, a sampler 12, a sampling pipe 13, a waterproof telescopic motor 14, a telescopic rod 15, an electric submersible pump 16, a buckle 17, a telescopic pipe 18 and a deep water storage tank.

Detailed Description

The technical solution of the present invention will be described in further detail with reference to the following embodiments, and the technical features or the connection relations of the present invention, which are not described in detail, are the prior art adopted.

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in figures 1-3, the utility model relates to a chemical industry water quality monitoring sampling device, which comprises a support plate 1, a protective barrier 2, a solar cell panel 3, a water quality monitoring device 4, a sampling device 5 and an adjustable telescopic sampling device 6, wherein the protective barrier 2 is arranged on the support plate 1, the solar cell panel 3 is arranged on the upper wall of the protective barrier 2, the water quality monitoring device 4 is arranged on the support plate 1, the water quality monitoring device 4 is arranged in the protective barrier 2, the sampling device 5 is arranged on the support plate 1, the sampling device 5 is arranged in the protective barrier 2 and is close to the water quality monitoring device 4, the adjustable telescopic sampling device 6 is arranged on the bottom wall of the support plate 1, the adjustable telescopic sampling device 6 comprises a waterproof telescopic motor 13, a telescopic rod 14, an electric submersible pump 15, a buckle 16, a telescopic pipe 17 and a water storage tank 18, the utility model discloses a waterproof flexible motor, including backup pad 1 diapire, buckle 16, telescopic pipe 17, telescopic motor 13, buckle 16, deep water storage tank 18, telescopic pipe 17, electric submersible pump 15, backup pad 1 diapire, waterproof flexible motor 13 stiff end is located on the backup pad, waterproof flexible motor 13 expansion end is located to 14 one end of telescopic link, the buckle 14 other end is located, deep water storage tank 18 is located on the backup pad 1 diapire, telescopic pipe 17 one end is located on deep water storage tank 18, the telescopic pipe 17 other.

Water quality monitoring device 4 includes water quality analyzer 7, long-range conveying 8, support 9 and probe 10, the one end of support 9 is located on backup pad 1, water quality analyzer 7 is located on the other end of support 9, long-range conveying 8 is located on water quality analyzer 7, the one end of probe 10 runs through support 9 and locates on water quality analyzer 7, the other end of probe 10 runs through backup pad 1 and locates in deep water basin 18.

Sampling device 5 includes sample thief 11 and sampling tube 12, sample thief 11 is located on the backup pad 1, the one end of sampling tube 12 links to each other with sample thief 11, the sampling tube 12 other end runs through backup pad 1 and locates in deep water storage tank 18.

The protective enclosing and blocking piece 2 is arranged in a hollow cavity with an opening at the side edge.

The deep water storage tank 18 is a hollow cavity.

During the specific use, waterproof flexible motor 13 drives telescopic link 14 and removes suitable degree of depth, electric submersible pump 15 is through absorbing water and conveying to deep water storage tank 18 in through flexible pipe 17, probe 10 extracts the sample from deep water storage tank 18 in, the analysis of carrying out quality of water in the sample entering water quality analyzer 7 of extraction, and convey the analysis result out through long-range conveying piece 8, sampling pipe 12 extracts the sample from deep water storage tank 18 in and puts into sample thief 11, solar cell panel 3 absorbs solar radiation's light energy and generates electricity, supply power to equipment.

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (5)

1. The utility model provides a chemistry and chemical industry water quality monitoring sampling device which characterized in that: comprises a supporting plate, a protective enclosure, a solar cell panel, a water quality monitoring device, a sampling device and an adjustable telescopic sampling device, wherein the protective enclosure is arranged on the supporting plate, the solar cell panel is arranged on the upper wall of the protective enclosure, the water quality monitoring device is arranged on the supporting plate, the water quality monitoring device is arranged in the protective enclosure, the sampling device is arranged on the supporting plate, the sampling device is arranged in the protective enclosure and is close to the water quality monitoring device, the adjustable telescopic sampling device is arranged on the bottom wall of the supporting plate, the adjustable telescopic sampling device comprises a waterproof telescopic motor, a telescopic rod, an electric submersible pump, a buckle, a telescopic pipe and a deep water storage tank, the fixed end of the waterproof telescopic motor is arranged on the bottom wall of the supporting plate, one end of the telescopic rod is arranged at the movable end of the waterproof telescopic motor, the buckle is arranged at the other end of the telescopic rod, one end of the telescopic pipe is arranged on the deep water storage tank, the other end of the telescopic pipe is arranged on the buckle, and the electric submersible pump is arranged at the other end of the telescopic pipe.

2. The chemical engineering water quality monitoring and sampling device of claim 1, which is characterized in that: the water quality monitoring device comprises a water quality analyzer, a remote conveying piece, a support and a probe, wherein one end of the support is arranged on the support plate, the water quality analyzer is arranged at the other end of the support, the remote conveying piece is arranged on the water quality analyzer, one end of the probe penetrates through the support and is arranged on the water quality analyzer, and the other end of the probe penetrates through the support plate and is arranged in the deep water storage tank.

3. The chemical engineering water quality monitoring and sampling device of claim 1, which is characterized in that: the sampling device comprises a sampler and a sampling pipe, wherein the sampler is arranged on the supporting plate, one end of the sampling pipe is connected with the sampler, and the other end of the sampling pipe penetrates through the supporting plate to be arranged in the deep water storage tank.

4. The chemical engineering water quality monitoring and sampling device of claim 1, which is characterized in that: the protective enclosing and blocking piece is arranged in a hollow cavity with an opening at the side edge.

5. The chemical engineering water quality monitoring and sampling device of claim 1, which is characterized in that: the deep water storage tank is arranged in a hollow cavity.

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