CN217819543U - A intelligent sampling viewing device of waste water for geological engineering numerical value exploration - Google Patents

Abstract

The utility model discloses an intelligent sample viewing device of waste water for geological engineering numerical value exploration, including being used for carrying out the sample station of taking a sample to waste water, the inside a plurality of openings that are equipped with of sample station, the inside flexible sampling tube that is used for taking a sample to the waste water of the different degree of depth that is equipped with of opening, flexible sampling tube erects inside the opening, and can dismantle with the sample station and be connected, be equipped with on the sample station and be used for carrying out intelligent regulation's the adjusting unit to flexible sampling tube, be used for driving flexible sampling tube and carry out the water conservancy diversion unit of intelligent sampling and be used for carrying out filterable filter unit to the impurity of waste water sampling to waste water, aim at carrying out intelligent sampling to the water of the different degree of depth of waste water simultaneously, carry out real-time supervision to the sampling depth, carry out accurate filtration to the waste water of the different degree of depth, improve operating personnel's sampling efficiency.

Description

A intelligent sampling viewing device of waste water for geological engineering numerical value exploration

Technical Field

The utility model relates to a geological engineering field specifically is an intelligent sample viewing device of waste water for geological engineering numerical value exploration.

Background

The geological engineering field is the leading engineering field which is served for national economic construction by taking natural science and earth science as theoretical basis, taking engineering problems related to geological survey, general survey and exploration of mineral resources, geological structure of major engineering and geological background as main objects, taking geology, geophysical and geochemical technologies, mathematical geological methods, remote sensing technologies, testing technologies, computer technologies and the like as means;

the conditions and the foundation for the stable and continuous development of the society are the major geological problems, the required various mineral resources, water resources, environmental problems and the like in the national economic construction. The common water pollution of rivers and lakes is mostly caused by the substandard discharge of various sewage, and particularly, the private stealing of some industrial sewage can cause great pollution to surface water. Therefore, it is very important to know whether various sewages reach the corresponding discharge standards in time. However, in order to obtain accurate sewage parameters, a sewage sampling method must be mastered during water quality detection.

The quality and quantity of the wastewater discharged from the plant will usually vary greatly in a short time. The domestic sewage also changes along with the living habits and the seasonal changes of people. Thus, the pollution of the entire water body and river is very complicated. The prior sampling tool is always relatively lagged in manual operation, and has large workload and poor accuracy. Especially, the quality detection of domestic water is more important.

The problems of household water safety caused by non-compliance with water quality detection standards occur occasionally and frequently endanger human health and life safety. The water quality test is a prerequisite for ensuring safe water supply, and the main purpose of the water quality test is to check whether the components of water are consistent with water quality indexes. Water quality index is a parameter that describes the quality of water, usually expressed in terms of the type, composition and amount of impurities in the water.

At present, the sampling bottle is used mostly to waste water sampling to waste water, but the different degree of depth quality of water of waste water is different, and operating personnel need repetitious usage sampling bottle to sample the water of the different degree of depth, and repetitive operation can make waste water mix, can't be accurate samples the waste water of the different degree of depth, and this application aims at carrying out intelligent sampling to the water of the different degree of depth of waste water simultaneously, carries out real-time supervision to the depth of sampling, carries out accurate filtration to the waste water of the different degree of depth, improves operating personnel's sampling efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an intelligent sample viewing device of waste water for geological engineering numerical value exploration to solve the problem among the prior art.

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

the utility model provides an intelligent sample viewing device of waste water for geological engineering numerical value exploration, the device is including being used for carrying out the sample station of taking a sample to waste water, the inside a plurality of openings that are equipped with of sample station, the inside flexible sampling tube that is used for taking a sample to the waste water of the different degree of depth that is equipped with of opening, flexible sampling tube erects inside the opening, and can dismantle with the sample station and be connected, be equipped with on the sample station and be used for carrying out intelligent regulation's the regulating unit to flexible sampling tube, a water conservancy diversion unit that is used for driving flexible sampling tube and carries out intelligent sampling to waste water and is used for carrying out filterable filter unit to the impurity of waste water sampling.

By adopting the technical scheme: the sampling platform can support flexible sampling tube and place, and the regulating unit can adjust the sample length of flexible sampling tube, and the water conservancy diversion unit can carry out leading-in sample to the inside waste water of flexible sampling tube, and the filter unit can filter leading-in waste water, improves the efficiency of operating personnel waste water sample.

Further setting: the regulating unit is including being used for carrying out the regulating block of adjusting to flexible sampling tube, the inside logical groove that is equipped with of regulating block, flexible sampling tube inlays to be established inside leading to the groove, the position that leads to the inslot portion and be close to the regulating block is equipped with the waterproof strip of dull polish that is used for increasing frictional force between logical groove and the regulating block, one side that the sampling bench is close to the regulating block is equipped with the notch, the inside regulation pole that is used for driving flexible sampling tube to stretch out and draw back that is equipped with of notch, the inside adjust the actuating cylinder who drives the regulation pole lift that is equipped with of notch.

By adopting the technical scheme: the adjusting cylinder can drive the adjusting rod and stretch out and draw back to drive the regulating block and go up and down, drive flexible sampling tube and stretch out and draw back, drive flexible sampling tube and take a sample to the waste water body of the different degree of depth, the waterproof strip of dull polish can increase the frictional force between logical groove and the regulating block, avoids flexible sampling tube to slide.

Further setting: the water conservancy diversion unit is including being used for carrying out the lapse stopper of sampling water conservancy diversion with waste water, it is inside at flexible sampling tube to pass stopper sliding connection, flexible sampling tube bottom is equipped with the drainage mouth that is used for with waste water leading-in with the relative one side of lapse stopper, be equipped with the lapse cylinder that is used for promoting to push away the stopper on the sampling bench, be equipped with on the sampling bench and be used for carrying out waterproof buckler to flexible sampling tube top, the position that the buckler is close to the lapse cylinder is equipped with the card and establishes the groove, the lapse cylinder card is established and is established inslot portion at the card.

By adopting the technical scheme: the lapse cylinder can drive to pass and slide at flexible sample intraduct for waste water is leading-in drainage mouthful is inside, and the buckler can carry out water proof to lapse cylinder and lapse stopper.

Further setting: the filter unit includes the filter, filter fixed connection is on the drainage mouth, the inside holding tank that is equipped with of filter, the inside waterproof baffle that is used for carrying out the manger plate to the filter that is equipped with of holding tank, waterproof baffle slides and connects and hold intracavity portion, be equipped with the mount one that is used for supporting waterproof baffle on the waterproof baffle, the position that flexible sampling tube is close to mount one is equipped with and drives waterproof baffle and carry out the gliding cylinder that slides, is used for on the flexible sampling tube carrying out the mount two that fixes to the cylinder that slides.

By adopting the technical scheme: the sliding cylinder can drive the first fixing frame to move, so that the waterproof baffle slides in the accommodating cavity of the filter plate, the filter plate can filter wastewater, and the waterproof baffle can block the drainage port after the telescopic sampling tube collects the wastewater, so that the wastewater is prevented from overflowing.

Further setting: the inside water depth tester that is used for testing the sampling position depth of water that is equipped with of waterproof baffle.

By adopting the technical scheme: the water depth tester can test the depth of the wastewater body collected by the telescopic sampling tube and the depth of water at the collection position.

Further setting: the sampling platform is provided with a protective cover used for protecting the telescopic sampling tube.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses aim at carrying out intelligent sampling to the water of the different degree of depth of waste water simultaneously, carry out real-time supervision to the depth of sampling, carry out accurate filtration to the waste water of the different degree of depth, improve operating personnel's sampling efficiency.

Drawings

In order that the present invention may be more clearly understood, the following detailed description is given with reference to the accompanying drawings.

FIG. 1 is a schematic diagram of a partial cross-sectional structure of an intelligent wastewater sampling observation device for geological engineering numerical exploration according to the present invention;

FIG. 2 is a partial view of the intelligent wastewater sampling observation device for geological engineering numerical exploration according to the present invention;

figure 3 is the utility model relates to an intelligent sample viewing device's of waste water overall section schematic diagram for geological engineering numerical value exploration.

In the figure, 1, a sampling station; 2. telescoping the sampling tube; 3. a protective cover; 4. an adjusting block; 5. adjusting a rod; 6. adjusting the air cylinder; 7. pushing and moving the plug; 8. a drainage opening; 9. pushing the cylinder; 10. a filter plate; 11. a waterproof baffle; 12. a sliding cylinder; 13. a water depth tester; 14. a water shield.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Please refer to fig. 1-3, in the embodiment of the utility model, an intelligent sample viewing device of waste water for geological engineering numerical value exploration, the device is including being used for carrying out the sample platform 1 of taking a sample to waste water, the inside a plurality of openings that are equipped with of sample platform 1, the inside flexible sampling tube 2 that is used for taking a sample to the waste water of the different degree of depth that is equipped with of opening, flexible sampling tube 2 erects inside the opening, and can dismantle with sample platform 1 and be connected, be equipped with the safety cover 3 that is used for carrying out the protection to flexible sampling tube 2 on the sample platform 1, be equipped with on the sample platform 1 and be used for carrying out intelligent regulation's the adjusting element to flexible sampling tube 2, be used for driving flexible sampling tube 2 and carry out the water conservancy diversion unit of intelligent sampling and be used for carrying out filterable filter unit to the impurity of waste water sampling.

Sampling platform 1 can support flexible sampling tube 2 and place, and the regulating unit can be adjusted flexible sampling tube 2's sample length, and the water conservancy diversion unit can carry out leading-in sample to the waste water of flexible sampling tube 2 inside, and the filter unit can filter leading-in waste water, improves the efficiency of operating personnel waste water sample.

The regulating unit is including being used for carrying out the regulating block 4 of adjusting to flexible sampling tube 2, the inside logical groove that is equipped with of regulating block 4, flexible sampling tube 2 inlays and establishes in leading inslot portion, the position that leads to inslot portion and be close to regulating block 4 is equipped with the waterproof strip of dull polish that is used for the increase to lead to the groove and regulating block 4 between frictional force, one side that sampling platform 1 is close to regulating block 4 is equipped with the notch, the inside regulation pole 5 that is used for driving flexible sampling tube 2 and carries out flexible that is equipped with of notch, the inside adjust cylinder 6 that drives regulation pole 5 and go up and down that is equipped with of notch.

The adjusting cylinder 6 can drive the adjusting rod 5 to stretch out and draw back, thereby driving the adjusting block 4 to go up and down, driving the flexible sampling tube 2 to stretch out and draw back, driving the flexible sampling tube 2 to take a sample to the wastewater body of the different degree of depth, the waterproof strip of dull polish can increase the frictional force between leading to groove and the adjusting block 4, avoids the flexible sampling tube 2 to slide.

The water conservancy diversion unit is including being used for carrying out the lapse stopper 7 of sampling the water conservancy diversion with waste water, it is inside 2 flexible sampling tubes to pass stopper 7 sliding connection, 2 bottom of flexible sampling tubes are equipped with the drainage mouth 8 that is used for leading-in waste water with the relative one side of lapse stopper 7, be equipped with on the sampling bench 1 and be used for promoting the lapse cylinder 9 that pushes away stopper 7, be equipped with on the sampling bench 1 and be used for carrying out waterproof buckler 14 to 2 tops of flexible sampling tubes, the buckler 14 is close to the position of passing cylinder 9 and is equipped with the card and establishes the groove, it establishes inslot portion at the card to pass cylinder 9 card.

The push cylinder 9 can drive the push plug 7 to slide in the telescopic sampling tube 2, so that wastewater is led into the drainage port 8, and the waterproof cover 14 can protect the push cylinder 9 and the push plug 7 from water.

The filter unit includes filter 10, filter 10 fixed connection is on drainage mouth 8, the inside holding tank that is equipped with of filter 10, the inside waterproof baffle 11 that is used for carrying out the manger plate to filter 10 that is equipped with of holding tank, the connection that slides of waterproof baffle 11 holds the intracavity portion, be equipped with the mount one that is used for supporting waterproof baffle 11 on the waterproof baffle 11, the position that flexible sampling tube 2 is close to mount one is equipped with and drives waterproof baffle 11 and carry out gliding cylinder 12 that slides, be used for on the flexible sampling tube 2 carrying out the mount two that fixes to the cylinder 12 that slides.

The cylinder 12 that slides can drive mount one and remove to make waterproof baffle hold the intracavity portion on filter 10 and slide, filter 10 can filter waste water, and waterproof baffle 11 can block drainage mouth 8 after flexible sampling tube 2 has gathered waste water, avoids waste water excessive.

The inside depth of water tester 13 that is used for testing the sampling position depth of water that is equipped with of waterproof baffle 11, depth of water tester 13 can test the waste water body degree of depth and the depth of water of gathering the position of flexible sampling tube 2 collection.

The outside of adjust cylinder 6, lapse cylinder 9 and the cylinder 12 that slides all is equipped with waterproof coating, and sample platform 1 is inside, the inside bluetooth control switch that is used for controlling adjust cylinder 6, lapse cylinder 9 and the cylinder 12 that slides is equipped with respectively to the inside of buckler 14 and the inside two insides of mount.

The working principle of the utility model is that an operator puts the sampling platform 1 in the wastewater to be sampled, the depth of water of the position is collected by the depth of water tester 13, the depth of water of the wastewater to be sampled is fed back to the operator, and the bluetooth control switch is opened by the operator. Control adjust cylinder 6 drives regulation pole 5 and stretches out and draws back, thereby it goes up and down to drive regulating block 4, it stretches out and draws back to drive flexible sampling tube 2, it stretches out and draws back to the waste water position of setting for the degree of depth to drive flexible sampling tube 2, open sliding cylinder 12, sliding cylinder 12 drives the mount and removes, thereby make waterproof plate washer hold the chamber outside on filter 10 slide, open and pass cylinder 9, it slides in flexible sampling tube 2 inside to pass cylinder 9 drive plug 7, make waste water leading-in inside drainage mouth 8, thereby make flexible sampling tube 2 take a sample waste water, after the sample, close sliding cylinder 12.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides an intelligent sampling viewing device of waste water for geological engineering numerical exploration which characterized in that: the device is including sampling platform (1) that is used for taking a sample waste water, sampling platform (1) inside is equipped with a plurality of openings, inside being equipped with of opening is used for carrying out flexible sampling tube (2) of taking a sample waste water to the different degree of depth, flexible sampling tube (2) erect inside the opening, and can dismantle with sampling platform (1) and be connected, be equipped with on sampling platform (1) and be used for carrying out intelligent regulation's the regulating unit to flexible sampling tube (2), be used for driving flexible sampling tube (2) and carry out the water conservancy diversion unit of intelligent sampling and be used for carrying out filterable filter unit to waste water sampled's impurity.

2. The intelligent wastewater sampling observation device for the geological engineering numerical exploration is characterized in that the adjusting unit comprises an adjusting block (4) used for adjusting the telescopic sampling tube (2), a through groove is formed in the adjusting block (4), the telescopic sampling tube (2) is embedded in the through groove, a frosted waterproof strip used for increasing the friction force between the through groove and the adjusting block (4) is arranged at a position, close to the adjusting block (4), in the through groove, a notch is formed in one side, close to the adjusting block (4), of the sampling table (1), an adjusting rod (5) used for driving the telescopic sampling tube (2) to stretch is arranged in the notch, and an adjusting cylinder (6) used for driving the adjusting rod (5) to lift is arranged in the notch.

3. The intelligent wastewater sampling observation device for the numerical exploration of the geological engineering is characterized in that the flow guide unit comprises a push plug (7) for sampling and guiding wastewater, the push plug (7) is slidably connected inside the telescopic sampling tube (2), one side of the bottom of the telescopic sampling tube (2), which is opposite to the push plug (7), is provided with a drainage port (8) for leading in the wastewater, a push cylinder (9) for pushing the push plug (7) is arranged on the sampling table (1), a waterproof cover (14) for preventing the top end of the telescopic sampling tube (2) is arranged on the sampling table (1), a clamping groove is formed in the position, close to the push cylinder (9), of the waterproof cover (14), and the push cylinder (9) is clamped inside the clamping groove.

4. The intelligent waste water sampling observation device for the geological engineering numerical exploration is characterized in that the filtering unit comprises a filter plate (10), the filter plate (10) is fixedly connected to the drainage port (8), a containing groove is formed in the filter plate (10), a waterproof baffle (11) used for retaining water for the filter plate (10) is arranged in the containing groove, the waterproof baffle (11) is connected to the inside of the containing groove in a sliding mode, a first fixing frame used for supporting the waterproof baffle (11) is arranged on the waterproof baffle (11), a sliding cylinder (12) driving the waterproof baffle (11) to slide is arranged at the position, close to the first fixing frame, of the telescopic sampling tube (2), and a second fixing frame used for fixing the sliding cylinder (12) is arranged on the telescopic sampling tube (2).

5. The intelligent wastewater sampling and observing device for the numerical exploration of the geological engineering according to claim 4, characterized in that a water depth tester (13) for testing the water depth of a sampling position is arranged inside the waterproof baffle (11).

6. The intelligent waste water sampling and observing device for the numerical exploration of the geological engineering is characterized in that a protective cover (3) for protecting the telescopic sampling tube (2) is arranged on the sampling platform (1).

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