CN213813313U - Water metal component detection equipment - Google Patents

Abstract

The utility model discloses a water body metal component detection device, which comprises a detector, wherein the detector is electrically connected with a sealing mechanism through a connecting wire, the sealing mechanism is in threaded connection with a water storage mechanism, the bottom surface of the water storage mechanism is in through connection with a water supply mechanism, and the tail end of the water supply mechanism is fixedly welded with a sedimentation mechanism; the sealing mechanism comprises a sealing cover, a first detection needle protrudes from the center of the bottom surface of the sealing cover, and a second detection needle, a third detection needle and a fourth detection needle sequentially protrude from the periphery of the first detection needle. The utility model discloses when using, can draw the water of the different degree of depth in the target waters, usable linker principle detects the liquid in the target waters step by step simultaneously, avoids the liquid intercrossing of the different degree of depth to mix, avoids mutual interference for the testing result is more accurate, more has the reliability.

Description

Water metal component detection equipment

Technical Field

The utility model relates to a water quality testing equipment technical field specifically is a water metal composition check out test set.

Background

The water quality heavy metal analyzer is an optical heavy metal on-line analyzer designed according to the national environmental protection standard, is applied to simultaneous on-line analysis of various heavy metal elements in water quality such as surface water, industrial process water, industrial wastewater and the like, and the measured heavy metal elements comprise first-class and second-class prevention and control heavy metal items in the ' twelve-five ' program of comprehensive prevention and control of heavy metal pollution of the ministry of environmental protection '. By adopting the modular design, the online analysis of a plurality of heavy metal elements can be realized at the same time, and the modular design ensures the long-term stable operation of the equipment; the uniquely designed double-beam optical detection technology is provided with a digestion module, so that heavy metal elements in various water qualities can be accurately measured; meanwhile, the liquid path system designed by the patent cannot cause the blockage of a water production pipeline, and the maintenance amount is small.

However, when the existing handheld water quality metal component detector is used, only one depth in a water body can be detected singly, and the falling depth cannot be accurately determined in the placing process of the water inlet pipeline.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a water metal composition check out test set solves the problem that proposes in the above-mentioned technical background, realizes carrying out the quality of water of the different degree of depth to the target water and detects to accurate definite sinking depth.

In order to achieve the above object, the utility model provides a following technical scheme: the water body metal component detection equipment comprises a detector, wherein the detector is electrically connected with a sealing mechanism through a connecting wire, the sealing mechanism is in threaded connection with a water storage mechanism, the bottom surface of the water storage mechanism is in through connection with a water supply mechanism, and a sedimentation mechanism is fixedly welded at the tail end of the water supply mechanism;

the sealing mechanism comprises a sealing cover, a first detection needle protrudes from the center of the bottom surface of the sealing cover, and a second detection needle, a third detection needle and a fourth detection needle sequentially protrude from the periphery of the first detection needle through the sealing cover;

the water storage mechanism comprises a first sealing shell, a marking line is arranged on the surface of the first sealing shell, a second sealing shell, a third sealing shell and a fourth sealing shell are sequentially and fixedly arranged in the first sealing shell, and a cavity is formed among adjacent side walls of the first sealing shell, the second sealing shell, the third sealing shell and the fourth sealing shell;

the water supply mechanism comprises a water supply pipeline, a fourth water inlet hole is formed in the bottom surface of the water supply pipeline, and a third water inlet hole, a second water inlet hole and a first water inlet hole are sequentially formed in the side surface of the water supply pipeline from bottom to top;

the settlement mechanism comprises a settlement block and a negative weight block, and the negative weight block is movably sleeved at the bottom end of the inner part of the settlement block.

Further, the first detection needle the second detection needle the third detection needle with the fourth detection needle length increases gradually, the first detection needle extends to fourth seal shell bottom surface upper end, the second detection needle extends to third seal shell bottom surface upper end, the third detection needle extends to second seal shell bottom surface upper end, the fourth detection needle extends to first seal shell bottom surface upper end.

Furthermore, the bottom surface place height equidistance of first sealed shell, the second sealed shell, the third sealed shell and the fourth sealed shell rises, first sealed shell, the second sealed shell, the third sealed shell with the fourth sealed shell is the transparent material of plastics and makes.

Furthermore, the number of the marking lines is three, and the three marking lines are respectively consistent with the heights of the bottom surfaces of the second sealing shell, the third sealing shell and the fourth sealing shell.

Furthermore, the water supply pipeline is provided with four layers of sleeves, the first water inlet hole, the second water inlet hole, the third water inlet hole and the fourth water inlet hole are sequentially communicated with the sleeves in the water supply pipeline from outside to inside, and the sleeves in the water supply pipeline from outside to inside are sequentially communicated with the first sealing shell, the second sealing shell, the third sealing shell and the fourth sealing shell respectively.

Furthermore, the heavy burden piece is provided with four, four the heavy burden piece cup joints each other in proper order, subside the piece and four connect through magnetic adsorption between the heavy burden piece.

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

the utility model discloses a be provided with and subside the mechanism, can confirm sunken degree of depth according to the quantity that the burden heavy piece added to this can guarantee the sunken degree of depth of water supply mechanism, and through being provided with four layers of sleeve pipes in water supply pipe is inside, and cooperate with first inlet opening, second inlet opening, third inlet opening and fourth inlet opening, can draw the water of the different degree of depth in the target water area, be convenient for detect the liquid of the different degree of depth.

Through being provided with sealing mechanism, water storage mechanism and water supply mechanism and cooperating, cooperate through being provided with four mark lines and first sealed shell, the sealed shell of second, the sealed shell of third and the sealed shell of fourth, usable communicating vessel principle detects the liquid in the target waters step by step, avoids the liquid intercrossing of the different degree of depth to mix, avoids mutual interference for the testing result is more accurate, more has the reliability.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present invention;

FIG. 2 is a schematic structural view of a settling mechanism in the embodiment of FIG. 1;

FIG. 3 is a schematic cross-sectional view of the water storage mechanism in the embodiment of FIG. 1;

fig. 4 is a schematic sectional structure view of the water supply mechanism in the embodiment of fig. 1.

Description of reference numerals: 1, detecting a detector; 2 connecting a lead; 3, a sealing mechanism; 301 sealing cover; 302 a first detection pin; 303 a second detection pin; 304 a third detection pin; 305 a fourth detection pin; 4, a water storage mechanism; 401 a first sealed shell; 402 a second sealed shell; 403 a third sealed shell; 404 a fourth sealed shell; 405 indicates a line; 5 a water supply mechanism; 501 water supply pipeline; 502 a first water inlet hole; 503 second water inlet hole; 504 a third water inlet hole; 505 a fourth water inlet; 6, a sedimentation mechanism; 601, settling blocks; 602 a negative weight.

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 work belong to the protection scope of the present invention.

Referring to fig. 1 to 4, the water body metal component detection device includes a detector 1, the detector 1 is electrically connected to a sealing mechanism 3 through a connecting wire 2, the sealing mechanism 3 is in threaded connection with a water storage mechanism 4, the bottom surface of the water storage mechanism 4 is in through connection with a water supply mechanism 5, and a sedimentation mechanism 6 is fixedly welded at the tail end of the water supply mechanism 5;

the sealing mechanism 3 comprises a sealing cover 301, a first detection pin 302 protrudes from the center of the bottom surface of the sealing cover 301, and a second detection pin 303, a third detection pin 304 and a fourth detection pin 305 sequentially protrude from the periphery of the first detection pin 302 of the sealing cover 301;

the water storage mechanism 4 comprises a first sealed shell 401, a marking line 405 is arranged on the surface of the first sealed shell 401, a second sealed shell 402, a third sealed shell 403 and a fourth sealed shell 404 are fixedly installed inside the first sealed shell 401 in sequence, and a cavity is formed among adjacent side walls of the first sealed shell 401, the second sealed shell 402, the third sealed shell 403 and the fourth sealed shell 404;

the water supply mechanism 5 comprises a water supply pipeline 501, a fourth water inlet 505 is formed in the bottom surface of the water supply pipeline 501, and a third water inlet 504, a second water inlet 503 and a first water inlet 502 are sequentially formed in the side surface of the water supply pipeline 501 from bottom to top;

the settlement mechanism 6 comprises a settlement block 601 and a weight block 602, and the weight block 602 is movably sleeved at the bottom end inside the settlement block 601.

In order to separately detect liquids at different depths, the lengths of the first detection pin 302, the second detection pin 303, the third detection pin 304 and the fourth detection pin 305 are gradually increased, the first detection pin 302 extends to the upper end of the bottom surface of the fourth sealing shell 404, the second detection pin 303 extends to the upper end of the bottom surface of the third sealing shell 403, the third detection pin 304 extends to the upper end of the bottom surface of the second sealing shell 402, and the fourth detection pin 305 extends to the upper end of the bottom surface of the first sealing shell 401.

In order to isolate liquids of different depths from each other and avoid mutual mixing to influence detection results, the heights of the bottom surfaces of the first sealing shell 401, the second sealing shell 402, the third sealing shell 403 and the fourth sealing shell 404 are equidistantly raised, and the first sealing shell 401, the second sealing shell 402, the third sealing shell 403 and the fourth sealing shell 404 are all made of plastic transparent materials.

In order to facilitate the control of the liquid entering at different depths, three marking lines 405 are provided, and the three marking lines 405 are respectively consistent with the heights of the bottom surfaces of the second sealing shell 402, the third sealing shell 403 and the fourth sealing shell 404.

In order to draw liquid at different depths, the water supply pipeline 501 is provided with four layers of sleeves, the first water inlet hole 502, the second water inlet hole 503, the third water inlet hole 504 and the fourth water inlet hole 505 are sequentially communicated with the sleeves in the water supply pipeline 501 from outside to inside, and the sleeves in the water supply pipeline 501 from outside to inside are sequentially communicated with the first sealing shell 401, the second sealing shell 402, the third sealing shell 403 and the fourth sealing shell 404 respectively.

In order to adjust the sinking depth conveniently, the number of the negative weights 602 is four, the four negative weights 602 are sequentially sleeved with each other, and the settling block 601 and the four negative weights 602 are connected through magnetic adsorption.

To sum up, the utility model provides a pair of water metal composition check out test set, at work, at first remove the device to the target water domain, confirm the quantity of the heavy burden piece 602 that adds according to required depth of sinking simultaneously, it is darker to utilize the depth of sinking, buoyancy is higher, then can accurately calculate the counter weight, utilize different counter weights to confirm different depth of sinking, will subside mechanism 6 and place in the target water body immediately, hand-hold first sealed shell 401 simultaneously, make first sealed shell 401 keep below the marking line 405 of minimum height, utilize the linker principle, accessible first inlet opening 502 supplies water to first sealed shell 401 inside through water supply pipe 501, accessible fourth detection needle 305 contacts with the target water body simultaneously, detect the heavy metal composition of target water body through detector 1 simultaneously, and record data;

secondly, placing the first sealing shell 401 under the marking lines 405 with different heights in sequence, simultaneously utilizing the principle of a communicating vessel, filling target water bodies with different depths in sequence in the second sealing shell 402, the third sealing shell 403 and the fourth sealing shell 404, recording data in sequence, observing data change, obtaining the change of heavy metal elements in the water bodies with different depths, and completely mastering the heavy metal element components in the water area;

finally, the sedimentation mechanism 6 can be taken out, the water storage mechanism 4 and the sealing mechanism 3 are separated, the device is cleaned by using sterilized water, and the purified water is used for final flushing, so that the detection result cannot be influenced in next use.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a water metal component check out test set, includes detector (1), its characterized in that: the detector (1) is electrically connected with a sealing mechanism (3) through a connecting wire (2), the sealing mechanism (3) is in threaded connection with a water storage mechanism (4), the bottom surface of the water storage mechanism (4) is in through connection with a water supply mechanism (5), and the tail end of the water supply mechanism (5) is fixedly welded with a sedimentation mechanism (6);

the sealing mechanism (3) comprises a sealing cover (301), a first detection needle (302) protrudes from the center of the bottom surface of the sealing cover (301), and a second detection needle (303), a third detection needle (304) and a fourth detection needle (305) sequentially protrude from the periphery of the first detection needle (302) of the sealing cover (301);

the water storage mechanism (4) comprises a first sealing shell (401), a marking line (405) is arranged on the surface of the first sealing shell (401), a second sealing shell (402), a third sealing shell (403) and a fourth sealing shell (404) are sequentially and fixedly installed in the first sealing shell (401), and a cavity is formed among adjacent side walls of the first sealing shell (401), the second sealing shell (402), the third sealing shell (403) and the fourth sealing shell (404);

the water supply mechanism (5) comprises a water supply pipeline (501), a fourth water inlet hole (505) is formed in the bottom surface of the water supply pipeline (501), and a third water inlet hole (504), a second water inlet hole (503) and a first water inlet hole (502) are sequentially formed in the side surface of the water supply pipeline (501) from bottom to top;

the settlement mechanism (6) comprises a settlement block (601) and a weight bearing block (602), and the weight bearing block (602) is movably sleeved at the bottom end inside the settlement block (601).

2. The water body metal composition detection device according to claim 1, wherein the first detection pin (302), the second detection pin (303), the third detection pin (304) and the fourth detection pin (305) are gradually increased in length, the first detection pin (302) extends to the upper end of the bottom surface of the fourth sealing shell (404), the second detection pin (303) extends to the upper end of the bottom surface of the third sealing shell (403), the third detection pin (304) extends to the upper end of the bottom surface of the second sealing shell (402), and the fourth detection pin (305) extends to the upper end of the bottom surface of the first sealing shell (401).

3. The water body metal composition detection device according to claim 1, wherein the first sealing shell (401), the second sealing shell (402), the third sealing shell (403) and the fourth sealing shell (404) are arranged at heights which are raised equidistantly, and the first sealing shell (401), the second sealing shell (402), the third sealing shell (403) and the fourth sealing shell (404) are all made of plastic transparent materials.

4. The water body metal composition detection device according to claim 1, wherein three marking lines (405) are provided, and the three marking lines (405) are respectively consistent with the heights of the bottom surfaces of the second sealing shell (402), the third sealing shell (403) and the fourth sealing shell (404).

5. The water body metal component detection device according to claim 1, wherein the water supply pipeline (501) is provided with four layers of sleeves, the first water inlet hole (502), the second water inlet hole (503), the third water inlet hole (504) and the fourth water inlet hole (505) are sequentially communicated with the sleeves in the water supply pipeline (501) from outside to inside, and the sleeves in the water supply pipeline (501) are sequentially communicated with the interiors of the first sealing shell (401), the second sealing shell (402), the third sealing shell (403) and the fourth sealing shell (404) from outside to inside.

6. The water body metal composition detection device as claimed in claim 1, wherein four negative weights (602) are provided, four negative weights (602) are sequentially sleeved with each other, and the settlement block (601) and the four negative weights (602) are connected through magnetic adsorption.

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